image
imagewidth (px) 512
512
| glb_file
stringlengths 68
93
| Grammar_string
stringlengths 42
246
| Feasibilty
stringclasses 3
values | Flying Range
float64 0
21.6
| Payload Capacity (lb)
int64 0
100
| Cost ($)
float64 1.45k
5.74k
| Velocity (mph)
float64 0
238
| Number of Batteries
int64 1
1
| Number of Motor-Rotor Pairs
int64 4
16
| Number of Airfoils
int64 0
4
| Number of Connectors
int64 4
28
| Weight of Batteries (lb)
float64 10.9
57.3
| Weight of Motor-Rotor Pair (lb)
float64 1.76
30
| Weight of Airfoils (lb)
float64 0
17.7
| Total Weight (lb)
float64 16.5
80.9
| Total Thrust (lb)
float64 42.6
598
| Normalized Average Structure Size
float64 0.22
0.59
| Normalized Average Motor Size
float64 0.11
0.56
| Normalized Average Foil Size
float64 0
0.61
| Design Descriptor
stringlengths 298
305
| Performance Descriptor
stringclasses 84
values | Operations Descriptor
stringlengths 711
743
|
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1141.glb?download=true | *aMM0++++*bNM2*cMN1*dLM2*eML1*fOM2++*gNN2++*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 3,492.148 | 0.293251 | 1 | 12 | 0 | 16 | 35.008228 | 7.385412 | 0 | 42.393641 | 167.700064 | 0.459459 | 0.151515 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 42.3936412322998 pounds in total and can lift itself and more, thanks to its strong thrust of 167.700064086914 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2932509-0.2932509 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2932509 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3492.148, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1142.glb?download=true | *aMM0++++*bNM2*cMN1*dLM2*eML1*fOM2++*gNN2++*hNL2+*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 3,518.836 | 0.3152 | 1 | 12 | 0 | 16 | 35.008228 | 7.805665 | 0 | 42.813891 | 175.706323 | 0.459459 | 0.161616 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 42.8138914253235 pounds in total and can lift itself and more, thanks to its strong thrust of 175.706323242187 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.3151998-0.3151998 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.3151998 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3518.836, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1143.glb?download=true | *aMM0++++*bNM2*cMN1*dLM2*eML1*fOM2++*gNN2+*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 3,452.336 | 0.293455 | 1 | 12 | 0 | 16 | 35.008228 | 6.758479 | 0 | 41.76671 | 155.756305 | 0.459459 | 0.141414 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 41.7667097892761 pounds in total and can lift itself and more, thanks to its strong thrust of 155.756304931641 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2934546-0.2934546 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2934546 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3452.336, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1144.glb?download=true | *aMM0++++*bNM2*cMN1*dLM2*eML1*fOM2++*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 3,425.648 | 0.275796 | 1 | 12 | 0 | 16 | 35.008228 | 6.338227 | 0 | 41.346455 | 147.750046 | 0.459459 | 0.131313 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 41.3464553913117 pounds in total and can lift itself and more, thanks to its strong thrust of 147.750045776367 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.275796-0.275796 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.275796 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3425.648, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1145.glb?download=true | *aMM0++++*bNM2*cMN1*dLM2*eML1*fOM2+*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | HitBoundary | 2.537085 | 4 | 3,385.835 | 15.98505 | 1 | 12 | 0 | 16 | 35.008228 | 5.711294 | 0 | 40.71952 | 135.806287 | 0.459459 | 0.121212 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 40.7195197433472 pounds in total and can lift itself and more, thanks to its strong thrust of 135.806286621094 pounds. | This drone for the payload of 4 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude. | This drone configuration has a feasible flying range of 2.512794-2.537085 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 15.98505-18.11977 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 2.537085 miles, and can reach maximum speeds up to 18.11977 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3385.835, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1146.glb?download=true | *aMM0+++++++++*bNM2+++*cMN1+++*dLM2+++*eML1++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | Success | 10.90486 | 12 | 4,584.138 | 13.85246 | 1 | 4 | 0 | 8 | 57.310946 | 8.577275 | 0 | 65.888222 | 172.406319 | 0.594595 | 0.416667 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 65.8882223117828 pounds in total and can lift itself and more, thanks to its strong thrust of 172.406318664551 pounds. | This drone can fly up to 10.90486 miles. It can carry heavy things, up to 12 pounds. Also, it can achieve a max speed of 13.85246 miles per hour, at its max payload capacity. This drone costs around $4584.138, adding up costs of all the components used to achieve this configuration. | This drone configuration has a feasible flying range of 1.785842-10.90486 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 10.43153-13.85246 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 10.90486 miles, and can reach maximum speeds up to 13.85246 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4584.138, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1147.glb?download=true | *aMM0+++++++++*bNM2+++*cMN1+++*dLM2++*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 4,462.076 | 17.25251 | 1 | 4 | 0 | 8 | 57.310946 | 6.655139 | 0 | 63.966085 | 135.787555 | 0.594595 | 0.333333 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 63.9660850048065 pounds in total and can lift itself and more, thanks to its strong thrust of 135.787554931641 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 17.25251-17.25251 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 17.25251 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4462.076, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1148.glb?download=true | *aMM0+++++++++*bNM2+++*cMN1+++*dLM2+++*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 4,517.638 | 16.28403 | 1 | 4 | 0 | 8 | 57.310946 | 7.53009 | 0 | 64.841036 | 152.456314 | 0.594595 | 0.361111 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 64.8410364707947 pounds in total and can lift itself and more, thanks to its strong thrust of 152.456314086914 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 16.28403-16.28403 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 16.28403 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4517.638, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1149.glb?download=true | *aMM0*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | CouldNotStabilize | 21.57953 | 0 | 2,856.202 | 11.23859 | 1 | 4 | 2 | 16 | 22.046002 | 14.109445 | 8.829502 | 44.984949 | 277.800073 | 0.351351 | 0.555556 | 0.614035 | This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 44.9849486125946 pounds in total and can lift itself and more, thanks to its strong thrust of 277.800073242188 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 21.57953-21.57953 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 11.23859-11.23859 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 21.57953 miles, and can reach maximum speeds up to 11.23859 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2856.202, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1150.glb?download=true | *aMM0*bNM2++++*cMN1++++*dLM2++++*eML1+++*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 2,782.264 | 0.60866 | 1 | 4 | 2 | 16 | 22.046002 | 12.945142 | 8.829502 | 43.820647 | 255.618814 | 0.351351 | 0.527778 | 0.614035 | This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 43.8206467605591 pounds in total and can lift itself and more, thanks to its strong thrust of 255.618814086914 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.60866-0.60866 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.60866 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2782.264, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1151.glb?download=true | *aMM0*bNM2++++*cMN1++++*dLM2++++*eML1++*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 2,726.702 | 1.062552 | 1 | 4 | 2 | 16 | 22.046002 | 12.07019 | 8.829502 | 42.945695 | 238.950055 | 0.351351 | 0.5 | 0.614035 | This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 42.9456952945709 pounds in total and can lift itself and more, thanks to its strong thrust of 238.950054931641 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 1.062552-1.062552 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 1.062552 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2726.702, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1152.glb?download=true | *aMM0*bNM2++++*cMN1++++*dLM2+++*eML1*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 2,586.264 | 0.937923 | 1 | 4 | 2 | 16 | 22.046002 | 9.8587 | 8.829502 | 40.734203 | 196.818805 | 0.351351 | 0.416667 | 0.614035 | This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 40.7342033966064 pounds in total and can lift itself and more, thanks to its strong thrust of 196.818804931641 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.9379234-0.9379234 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.9379234 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2586.264, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1153.glb?download=true | *aMM0++++++*bNM2+++*cMN1+++*dLM2+++*eML1++*fOM4*gMO4*hKM4*iMK4*jPM4*kON4*lOL4*mNO4*nMP4*oLO4*pKN4*qJM4*rKL4*sNK4*tLK4*uMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^fk^fl^gm^gn^go^hp^hq^hr^is^it^iu | CouldNotStabilize | 0 | 0 | 3,679.062 | 0.058744 | 1 | 4 | 0 | 20 | 43.058577 | 8.577275 | 0 | 51.635853 | 172.406319 | 0.513514 | 0.416667 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 51.6358530101776 pounds in total and can lift itself and more, thanks to its strong thrust of 172.406318664551 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.05874398-0.05874398 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.05874398 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3679.062, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1154.glb?download=true | *aMM0++++++*bNM2+++*cMN1+++*dLM2+++*eML1+*fOM4*gMO4*hKM4*iMK4*jPM4*kON4*lOL4*mNO4*nMP4*oLO4*pKN4*qJM4*rKL4*sNK4*tLK4*uMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^fk^fl^gm^gn^go^hp^hq^hr^is^it^iu | CouldNotStabilize | 0 | 0 | 3,639.249 | 0.0955 | 1 | 4 | 0 | 20 | 43.058577 | 7.950341 | 0 | 51.008917 | 160.46256 | 0.513514 | 0.388889 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 51.0089173622131 pounds in total and can lift itself and more, thanks to its strong thrust of 160.462559509277 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.09550022-0.09550022 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.09550022 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3639.249, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1155.glb?download=true | *aMM0++++++*bNM2+++*cMN1+++*dLM2+++*eML1+++*fOM4*gMO4*hKM4*iMK4*jPM4*kON4*lOL4*mNO4*nMP4*oLO4*pKN4*qJM4*rKL4*sNK4*tLK4*uMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^fk^fl^gm^gn^go^hp^hq^hr^is^it^iu | CouldNotStabilize | 0 | 56 | 3,734.624 | 0.000007 | 1 | 4 | 0 | 20 | 43.058577 | 9.452226 | 0 | 52.510804 | 189.075064 | 0.513514 | 0.444444 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 52.5108044761658 pounds in total and can lift itself and more, thanks to its strong thrust of 189.075064086914 pounds. | This drone could not hover. The drone for a payload of 56 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-18.0401 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 6.563143e-06-20.1884 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 18.0401 miles, and can reach maximum speeds up to 20.1884 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3734.6240000000003, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1156.glb?download=true | *aMM0++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1+++*hKM2+++*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,128.023 | 0.244852 | 1 | 4 | 0 | 8 | 35.008228 | 7.950341 | 0 | 42.958571 | 160.46256 | 0.459459 | 0.444444 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 42.958570823288 pounds in total and can lift itself and more, thanks to its strong thrust of 160.462559509277 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2448518-0.2448518 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2448518 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3128.023, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1157.glb?download=true | *aMM0++*bNM2++++*cMN1++++*dLM2++++*eML1++*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 2,946.477 | 0.753245 | 1 | 4 | 0 | 16 | 28.029545 | 12.07019 | 0 | 40.099737 | 238.950055 | 0.405405 | 0.5 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 40.0997366996765 pounds in total and can lift itself and more, thanks to its strong thrust of 238.950054931641 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.7532446-0.7532446 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.7532446 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2946.477, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1158.glb?download=true | *aMM0++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | CouldNotStabilize | 0 | 56 | 3,075.977 | 0.000045 | 1 | 4 | 0 | 16 | 28.029545 | 14.109445 | 0 | 42.13899 | 277.800073 | 0.405405 | 0.555556 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 42.1389900177002 pounds in total and can lift itself and more, thanks to its strong thrust of 277.800073242188 pounds. | This drone could not hover. The drone for a payload of 56 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-8.809378 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 4.479941e-05-25.21654 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 8.809378 miles, and can reach maximum speeds up to 25.21654 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3075.977, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1159.glb?download=true | *aMM0++*bNM2++++*cMN1++++*dLM2++*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 2,750.477 | 0.353727 | 1 | 4 | 0 | 16 | 28.029545 | 8.983749 | 0 | 37.013293 | 180.150046 | 0.405405 | 0.388889 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 37.0132933357239 pounds in total and can lift itself and more, thanks to its strong thrust of 180.150045776367 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.353727-0.353727 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.353727 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2750.477, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1160.glb?download=true | *aMM0++*bNM2++++*cMN1++++*dLM2+++*eML1*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 2,806.039 | 0.658676 | 1 | 4 | 0 | 16 | 28.029545 | 9.8587 | 0 | 37.888245 | 196.818805 | 0.405405 | 0.416667 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 37.888244801712 pounds in total and can lift itself and more, thanks to its strong thrust of 196.818804931641 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.6586764-0.6586764 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.6586764 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2806.039, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1161.glb?download=true | *aMM0++++++++*bNM3*cMN3*dLM2+++*eML1+++*fOM2++*gMO1++*hKM2++*iMK1++^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 16 | 4,656.843 | 0.084976 | 1 | 6 | 2 | 8 | 52.257146 | 10.678535 | 8.829502 | 71.765186 | 216.937587 | 0.567568 | 0.377778 | 0.614035 | This drone is made up of 1 part and has 6 engines that help it move. It also has 2 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 71.7651863311768 pounds in total and can lift itself and more, thanks to its strong thrust of 216.937586975098 pounds. | This drone could not hover. The drone for a payload of 16 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-10.04523 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 0.08497598-11.78761 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 10.04523 miles, and can reach maximum speeds up to 11.78761 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4656.843, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1162.glb?download=true | *aMM0++++++++*bNM3*cMN3*dLM2+++*eML1+++*fOM2++*gMO1++*hKM2++*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 4 | 4,617.03 | 0.044392 | 1 | 6 | 2 | 8 | 52.257146 | 10.051602 | 8.829502 | 71.138246 | 204.993828 | 0.567568 | 0.377778 | 0.614035 | This drone is made up of 1 part and has 6 engines that help it move. It also has 2 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 71.1382464782715 pounds in total and can lift itself and more, thanks to its strong thrust of 204.993827819824 pounds. | This drone could not hover. The drone for a payload of 4 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.6333342 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 0.0443915-6.630208 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.6333342 miles, and can reach maximum speeds up to 6.630208 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4617.03, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1163.glb?download=true | *aMM0++++++++*bNM3*cMN3*dLM2+++*eML1+++*fOM2++*gMO1++*hKM2++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 4,590.343 | 0.058781 | 1 | 6 | 2 | 8 | 52.257146 | 9.631351 | 8.829502 | 70.717996 | 196.987582 | 0.567568 | 0.377778 | 0.614035 | This drone is made up of 1 part and has 6 engines that help it move. It also has 2 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 70.7179962852478 pounds in total and can lift itself and more, thanks to its strong thrust of 196.987582397461 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.05878136-0.05878136 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.05878136 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4590.343, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1164.glb?download=true | *aMM0+++*bNM2++++*cMN1++++*dLM2++++*eML1++^ab^ac^ad^ae | CouldNotStabilize | 0 | 0 | 3,159.86 | 0.593266 | 1 | 4 | 0 | 4 | 31.389715 | 12.07019 | 0 | 43.459905 | 238.950055 | 0.432432 | 0.555556 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 43.459904889679 pounds in total and can lift itself and more, thanks to its strong thrust of 238.950054931641 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.5932662-0.5932662 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.5932662 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3159.86, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1165.glb?download=true | *aMM0+++*bNM2++++*cMN1++++*dLM2++++*eML1^ab^ac^ad^ae | CouldNotStabilize | 0 | 0 | 3,093.36 | 0.898212 | 1 | 4 | 0 | 4 | 31.389715 | 11.023005 | 0 | 42.412719 | 219.000064 | 0.432432 | 0.555556 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 42.4127190486908 pounds in total and can lift itself and more, thanks to its strong thrust of 219.000064086914 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.8982124-0.8982124 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.8982124 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3093.36, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1166.glb?download=true | *aMM0+++*bNM2++++*cMN1++*dLM2*eML1^ab^ac^ad^ae | CouldNotStabilize | 0 | 0 | 2,767.86 | 0.390234 | 1 | 4 | 0 | 4 | 31.389715 | 5.897307 | 0 | 37.287022 | 121.350037 | 0.432432 | 0.333333 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 37.2870223667145 pounds in total and can lift itself and more, thanks to its strong thrust of 121.350036621094 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.3902341-0.3902341 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.3902341 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2767.86, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1167.glb?download=true | *aMM0+++*bNM2++*cMN1++*dLM2++*eML1+*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4*nPM4*oMP4*pJM4*qMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 2,891.749 | 0.197646 | 1 | 4 | 2 | 20 | 31.389715 | 5.325489 | 8.829502 | 45.544706 | 110.456282 | 0.432432 | 0.305556 | 0.614035 | This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 45.5447061264038 pounds in total and can lift itself and more, thanks to its strong thrust of 110.456282043457 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1976458-0.1976458 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1976458 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2891.749, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1168.glb?download=true | *aMM0+++*bNM2++*cMN1++*dLM2+*eML1*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4*nPM4*oMP4*pJM4*qMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 2,825.248 | 8.499452 | 1 | 4 | 2 | 20 | 31.389715 | 4.278303 | 8.829502 | 44.49752 | 90.506277 | 0.432432 | 0.25 | 0.614035 | This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 44.4975202854157 pounds in total and can lift itself and more, thanks to its strong thrust of 90.5062774658203 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 8.499452-8.499452 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 8.499452 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2825.248, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1169.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2++++*oMP1++++*pJM2++*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 4 | 4,913.649 | 0.054274 | 1 | 16 | 0 | 20 | 35.008228 | 26.620557 | 0 | 61.628785 | 543.150165 | 0.459459 | 0.303704 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 61.6287854831696 pounds in total and can lift itself and more, thanks to its strong thrust of 543.150164794922 pounds. | This drone could not hover. The drone for a payload of 4 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.5010567 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 0.05427402-8.253195 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.5010567 miles, and can reach maximum speeds up to 8.253195 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4913.649, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1170.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2++++*oMP1++*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,717.648 | 0.507062 | 1 | 16 | 0 | 20 | 35.008228 | 23.534116 | 0 | 58.542346 | 484.350128 | 0.459459 | 0.274074 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 58.5423463241577 pounds in total and can lift itself and more, thanks to its strong thrust of 484.350128173828 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.5070615-0.5070615 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.5070615 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4717.648, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1171.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2++++*oMP1+*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,677.836 | 0.575051 | 1 | 16 | 0 | 20 | 35.008228 | 22.907182 | 0 | 57.915411 | 472.406397 | 0.459459 | 0.266667 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 57.9154106761932 pounds in total and can lift itself and more, thanks to its strong thrust of 472.406396484375 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.5750514-0.5750514 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.5750514 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4677.836, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1172.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2+*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 48 | 4,481.836 | 0.315576 | 1 | 16 | 0 | 20 | 35.008228 | 19.820741 | 0 | 54.828972 | 413.606415 | 0.459459 | 0.237037 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 54.8289715171814 pounds in total and can lift itself and more, thanks to its strong thrust of 413.606414794922 pounds. | This drone could not hover. The drone for a payload of 48 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-12.43322 miles, evaluated over the payload range of 0-48 pounds. This configuration has a velocity range of 0.3155756-25.89146 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 12.43322 miles, and can reach maximum speeds up to 25.89146 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4481.836, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1173.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2++++*eML1+++*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 44 | 4,381.211 | 0.146155 | 1 | 16 | 0 | 20 | 35.008228 | 18.236187 | 0 | 53.244415 | 383.418924 | 0.459459 | 0.222222 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 53.2444152671814 pounds in total and can lift itself and more, thanks to its strong thrust of 383.418923950195 pounds. | This drone could not hover. The drone for a payload of 44 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-12.92924 miles, evaluated over the payload range of 0-44 pounds. This configuration has a velocity range of 0.1461549-25.73787 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 12.92924 miles, and can reach maximum speeds up to 25.73787 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4381.211, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1174.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2++*eML1*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 36 | 4,129.648 | 0.166446 | 1 | 16 | 0 | 20 | 35.008228 | 14.274796 | 0 | 49.283025 | 307.950156 | 0.459459 | 0.185185 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 49.2830246421814 pounds in total and can lift itself and more, thanks to its strong thrust of 307.950155639648 pounds. | This drone could not hover. The drone for a payload of 36 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-14.26498 miles, evaluated over the payload range of 0-36 pounds. This configuration has a velocity range of 0.1664455-25.25404 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 14.26498 miles, and can reach maximum speeds up to 25.25404 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4129.648, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1175.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2*eML1*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 40 | 4,063.148 | 0.202531 | 1 | 16 | 0 | 20 | 35.008228 | 13.227609 | 0 | 48.235839 | 288.000165 | 0.459459 | 0.17037 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 48.235838801193196 pounds in total and can lift itself and more, thanks to its strong thrust of 288.000164794922 pounds. | This drone could not hover. The drone for a payload of 40 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-14.64799 miles, evaluated over the payload range of 0-40 pounds. This configuration has a velocity range of 0.2025306-25.08712 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 14.64799 miles, and can reach maximum speeds up to 25.08712 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4063.1480000000006, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1176.glb?download=true | *aMM0++++*bNM2++++*cMN1+++*dLM2*eML1*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 40 | 3,989.211 | 0.27024 | 1 | 16 | 0 | 20 | 35.008228 | 12.063303 | 0 | 47.071533 | 265.818906 | 0.459459 | 0.162963 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 47.0715327442169 pounds in total and can lift itself and more, thanks to its strong thrust of 265.818905639648 pounds. | This drone could not hover. The drone for a payload of 40 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-15.10841 miles, evaluated over the payload range of 0-40 pounds. This configuration has a velocity range of 0.2702404-24.88643 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 15.10841 miles, and can reach maximum speeds up to 24.88643 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3989.211, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1177.glb?download=true | *aMM0++++*bNM2++++*cMN1++*dLM2*eML1*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 36 | 3,933.648 | 0.330463 | 1 | 16 | 0 | 20 | 35.008228 | 11.188351 | 0 | 46.196581 | 249.150147 | 0.459459 | 0.155556 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 46.1965812782288 pounds in total and can lift itself and more, thanks to its strong thrust of 249.150146484375 pounds. | This drone could not hover. The drone for a payload of 36 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-15.61393 miles, evaluated over the payload range of 0-36 pounds. This configuration has a velocity range of 0.3304631-24.75198 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 15.61393 miles, and can reach maximum speeds up to 24.75198 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3933.648, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1178.glb?download=true | *aMM0++++*bNM2++++*cMN1*dLM2*eML1*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 3,867.148 | 0.103427 | 1 | 16 | 0 | 20 | 35.008228 | 10.141165 | 0 | 45.149391 | 229.200128 | 0.459459 | 0.140741 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 45.1493912322998 pounds in total and can lift itself and more, thanks to its strong thrust of 229.200128173828 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1034271-0.1034271 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1034271 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3867.148, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1179.glb?download=true | *aMM0++++*bNM2++*cMN1*dLM2*eML1*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | HitBoundary | 3.089731 | 12 | 3,737.648 | 27.49624 | 1 | 16 | 0 | 20 | 35.008228 | 8.101908 | 0 | 43.110138 | 190.350082 | 0.459459 | 0.125926 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 43.1101379142761 pounds in total and can lift itself and more, thanks to its strong thrust of 190.350082397461 pounds. | This drone for the payload of 12 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude. | This drone configuration has a feasible flying range of 3.089731-20.95941 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 24.6607-27.49624 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 20.95941 miles, and can reach maximum speeds up to 27.49624 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3737.648, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1180.glb?download=true | *aMM0++++*bNM2+++*cMN1*dLM2*eML1*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | HitBoundary | 8.765033 | 8 | 3,793.211 | 38.15861 | 1 | 16 | 0 | 20 | 35.008228 | 8.976859 | 0 | 43.985085 | 207.018842 | 0.459459 | 0.133333 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 43.9850851753235 pounds in total and can lift itself and more, thanks to its strong thrust of 207.018841552734 pounds. | This drone for the payload of 8 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude. | This drone configuration has a feasible flying range of 8.765033-17.74799 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 22.76694-38.15861 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 17.74799 miles, and can reach maximum speeds up to 38.15861 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3793.211, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1181.glb?download=true | *aMM0++++*bNM2*cMN1*dLM2*eML1*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | HitBoundary | 2.609057 | 40 | 3,671.148 | 25.25916 | 1 | 16 | 0 | 20 | 35.008228 | 7.054722 | 0 | 42.062952 | 170.400064 | 0.459459 | 0.111111 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 42.062952073288 pounds in total and can lift itself and more, thanks to its strong thrust of 170.400064086914 pounds. | This drone for the payload of 40 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude. | This drone configuration has a feasible flying range of 2.609057-21.90544 miles, evaluated over the payload range of 0-40 pounds. This configuration has a velocity range of 13.87468-26.53609 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 21.90544 miles, and can reach maximum speeds up to 26.53609 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3671.1480000000006, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1182.glb?download=true | *aMM0++*bNM2*cMN1*dLM2*eML1*fOM2*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM2*oMP1*pJM2*qMJ1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 60 | 3,227.977 | 0.004615 | 1 | 16 | 0 | 20 | 28.029545 | 7.054722 | 0 | 35.084266 | 170.400064 | 0.405405 | 0.111111 | 0 | This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 35.0842662332535 pounds in total and can lift itself and more, thanks to its strong thrust of 170.400064086914 pounds. | This drone could not hover. The drone for a payload of 60 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-17.88688 miles, evaluated over the payload range of 0-60 pounds. This configuration has a velocity range of 0.0046146-36.23085 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 17.88688 miles, and can reach maximum speeds up to 36.23085 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3227.977, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1183.glb?download=true | *aMM0+*bNM4*cMN4*dLM4*eML4*fOM4*gNN4*hNL4*iMO4*jLN4*kKM3*lLL4*mMK3*nPM2++++*oMP1++++*pJM2++++*qMJ1+++^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 2,964.657 | 0.544099 | 1 | 4 | 2 | 20 | 24.918168 | 12.945142 | 8.829502 | 46.692811 | 255.618814 | 0.378378 | 0.555556 | 0.614035 | This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 46.6928105464935 pounds in total and can lift itself and more, thanks to its strong thrust of 255.618814086914 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.5440985-0.5440985 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.5440985 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2964.657, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1184.glb?download=true | *aMM0+*bNM4*cMN4*dLM4*eML4*fOM4*gNN4*hNL4*iMO4*jLN4*kKM3*lLL4*mMK3*nPM2++++*oMP1++++*pJM2++++*qMJ1++++^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^io^kp^mq^cg^dj^eh^el | CouldNotStabilize | 0 | 8 | 3,038.595 | 0.551665 | 1 | 4 | 2 | 20 | 24.918168 | 14.109445 | 8.829502 | 47.857117 | 277.800073 | 0.378378 | 0.555556 | 0.614035 | This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 47.8571166034698 pounds in total and can lift itself and more, thanks to its strong thrust of 277.800073242188 pounds. | This drone could not hover. The drone for a payload of 8 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-16.10308 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.5516651-10.54742 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 16.10308 miles, and can reach maximum speeds up to 10.54742 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3038.595, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1185.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 56 | 3,519.148 | 0.000009 | 1 | 4 | 0 | 8 | 35.008228 | 14.109445 | 0 | 49.117674 | 277.800073 | 0.459459 | 0.555556 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 49.1176737552643 pounds in total and can lift itself and more, thanks to its strong thrust of 277.800073242188 pounds. | This drone could not hover. The drone for a payload of 56 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-13.05843 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 9.410657e-06-24.73638 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 13.05843 miles, and can reach maximum speeds up to 24.73638 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3519.148, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1186.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2++++*eML1+++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,445.211 | 0.258623 | 1 | 4 | 0 | 8 | 35.008228 | 12.945142 | 0 | 47.953372 | 255.618814 | 0.459459 | 0.527778 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 47.9533719032288 pounds in total and can lift itself and more, thanks to its strong thrust of 255.618814086914 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2586225-0.2586225 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2586225 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3445.211, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1187.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2++++*eML1++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,389.648 | 0.43205 | 1 | 4 | 0 | 8 | 35.008228 | 12.07019 | 0 | 47.078416 | 238.950055 | 0.459459 | 0.5 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 47.0784162322998 pounds in total and can lift itself and more, thanks to its strong thrust of 238.950054931641 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.43205-0.43205 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.43205 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3389.648, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1188.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2++++*eML1+*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,349.836 | 0.545192 | 1 | 4 | 0 | 8 | 35.008228 | 11.443257 | 0 | 46.451485 | 227.00631 | 0.459459 | 0.472222 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 46.4514847892761 pounds in total and can lift itself and more, thanks to its strong thrust of 227.006309509277 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.5451921-0.5451921 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.5451921 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3349.836, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1189.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2++++*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,323.148 | 0.939372 | 1 | 4 | 0 | 8 | 35.008228 | 11.023005 | 0 | 46.031235 | 219.000064 | 0.459459 | 0.444444 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 46.0312345962524 pounds in total and can lift itself and more, thanks to its strong thrust of 219.000064086914 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.9393719-0.9393719 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.9393719 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3323.148, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1190.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2+++*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,249.211 | 0.47373 | 1 | 4 | 0 | 8 | 35.008228 | 9.8587 | 0 | 44.866929 | 196.818805 | 0.459459 | 0.416667 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 44.8669285392761 pounds in total and can lift itself and more, thanks to its strong thrust of 196.818804931641 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.4737303-0.4737303 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.4737303 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3249.211, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1191.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2++*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,193.648 | 0.267366 | 1 | 4 | 0 | 8 | 35.008228 | 8.983749 | 0 | 43.991977 | 180.150046 | 0.459459 | 0.388889 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 43.991977073288 pounds in total and can lift itself and more, thanks to its strong thrust of 180.150045776367 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2673656-0.2673656 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2673656 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3193.648, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1192.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2+*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,153.836 | 0.135571 | 1 | 4 | 0 | 8 | 35.008228 | 8.356815 | 0 | 43.365041 | 168.206287 | 0.459459 | 0.361111 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 43.3650414253235 pounds in total and can lift itself and more, thanks to its strong thrust of 168.206286621094 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1355705-0.1355705 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1355705 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3153.836, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1193.glb?download=true | *aMM0++++*bNM2++++*cMN1+++*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,053.211 | 0.117757 | 1 | 4 | 0 | 8 | 35.008228 | 6.772258 | 0 | 41.780485 | 138.018796 | 0.459459 | 0.305556 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 41.7804851753235 pounds in total and can lift itself and more, thanks to its strong thrust of 138.018795776367 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1177571-0.1177571 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1177571 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3053.211, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1194.glb?download=true | *aMM0++++*bNM2++++*cMN1++++*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 4 | 3,127.148 | 10.55035 | 1 | 4 | 0 | 8 | 35.008228 | 7.936563 | 0 | 42.944791 | 160.200055 | 0.459459 | 0.333333 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 42.9447912322998 pounds in total and can lift itself and more, thanks to its strong thrust of 160.200054931641 pounds. | This drone could not hover. The drone for a payload of 4 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.1437241 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 2.22278-10.55035 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.1437241 miles, and can reach maximum speeds up to 10.55035 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3127.148, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1195.glb?download=true | *aMM0++++*bNM2++++*cMN1++*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 4 | 2,997.648 | 18.25669 | 1 | 4 | 0 | 8 | 35.008228 | 5.897307 | 0 | 40.905534 | 121.350037 | 0.459459 | 0.277778 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 40.9055337093353 pounds in total and can lift itself and more, thanks to its strong thrust of 121.350036621094 pounds. | This drone could not hover. The drone for a payload of 4 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.9703965 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 4.890867-18.25669 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.9703965 miles, and can reach maximum speeds up to 18.25669 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2997.648, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1196.glb?download=true | *aMM0++++*bNM2++++*cMN1+*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 2,957.836 | 23.09505 | 1 | 4 | 0 | 8 | 35.008228 | 5.270374 | 0 | 40.278602 | 109.406278 | 0.459459 | 0.25 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 40.2786022663116 pounds in total and can lift itself and more, thanks to its strong thrust of 109.40627746582 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 23.09505-23.09505 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 23.09505 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2957.836, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1197.glb?download=true | *aMM0+++++*bNM4*cMN4*dLM3*eML3*fOM4*gMO4*hKM4*iMK4*jPM2++++*kMP1++++*lJM2++++*mMJ1++++^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im | CouldNotStabilize | 0 | 16 | 3,926.152 | 0.046559 | 1 | 4 | 2 | 12 | 38.89466 | 14.109445 | 8.829502 | 61.833608 | 277.800073 | 0.486486 | 0.555556 | 0.614035 | This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 61.8336081493378 pounds in total and can lift itself and more, thanks to its strong thrust of 277.800073242188 pounds. | This drone could not hover. The drone for a payload of 16 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-23.82842 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 0.04655871-10.67712 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 23.82842 miles, and can reach maximum speeds up to 10.67712 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3926.1520000000005, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1198.glb?download=true | *aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++++*hKM2++++*iMK1++++^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 56 | 4,030.374 | 0.000009 | 1 | 4 | 0 | 8 | 43.058577 | 14.109445 | 0 | 57.16802 | 277.800073 | 0.513514 | 0.555556 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 57.1680202941895 pounds in total and can lift itself and more, thanks to its strong thrust of 277.800073242188 pounds. | This drone could not hover. The drone for a payload of 56 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-16.92869 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 8.556695e-06-21.65329 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 16.92869 miles, and can reach maximum speeds up to 21.65329 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4030.3740000000003, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1199.glb?download=true | *aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++++*hKM2++++*iMK1+++^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,956.437 | 0.110046 | 1 | 4 | 0 | 8 | 43.058577 | 12.945142 | 0 | 56.003718 | 255.618814 | 0.513514 | 0.555556 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 56.0037184421539 pounds in total and can lift itself and more, thanks to its strong thrust of 255.618814086914 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1100462-0.1100462 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1100462 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3956.437, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1200.glb?download=true | *aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++++*hKM2+++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,760.437 | 9.235735 | 1 | 4 | 0 | 8 | 43.058577 | 9.8587 | 0 | 52.917279 | 196.818805 | 0.513514 | 0.518519 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 52.9172792831421 pounds in total and can lift itself and more, thanks to its strong thrust of 196.818804931641 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 9.235735-9.235735 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 9.235735 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3760.437, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1201.glb?download=true | *aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++++*hKM2++++*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,861.062 | 0.228864 | 1 | 4 | 0 | 8 | 43.058577 | 11.443257 | 0 | 54.501836 | 227.00631 | 0.513514 | 0.555556 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 54.5018355331421 pounds in total and can lift itself and more, thanks to its strong thrust of 227.006309509277 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2288639-0.2288639 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2288639 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3861.062, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1202.glb?download=true | *aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++++*hKM2++++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,834.374 | 8.06989 | 1 | 4 | 0 | 8 | 43.058577 | 11.023005 | 0 | 54.081581 | 219.000064 | 0.513514 | 0.555556 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 54.0815811351776 pounds in total and can lift itself and more, thanks to its strong thrust of 219.000064086914 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 8.06989-8.06989 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 8.06989 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3834.374, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1203.glb?download=true | *aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++++*hKM2+*iMK1^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 3,665.062 | 16.4274 | 1 | 4 | 0 | 8 | 43.058577 | 8.356815 | 0 | 51.415392 | 168.206287 | 0.513514 | 0.444444 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 51.4153921691895 pounds in total and can lift itself and more, thanks to its strong thrust of 168.206286621094 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 16.4274-16.4274 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 16.4274 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3665.062, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1204.glb?download=true | *aMM0*bNM2++*cMN1++*dLM2+*eML1+^ab^ac^ad^ae | CouldNotStabilize | 0 | 8 | 2,098.375 | 0.053994 | 1 | 4 | 0 | 4 | 22.046002 | 4.698556 | 0 | 26.744559 | 98.51253 | 0.351351 | 0.296296 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 4 links that connect everything together securely. The drone weighs 26.744558795929 pounds in total and can lift itself and more, thanks to its strong thrust of 98.5125297546387 pounds. | This drone could not hover. The drone for a payload of 8 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-1.637434 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.05399376-13.34787 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 1.637434 miles, and can reach maximum speeds up to 13.34787 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2098.375, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1205.glb?download=true | *aMM0++++++++*bNM2++*cMN1++*dLM2++*eML1++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | HitBoundary | 5.165463 | 16 | 4,096.516 | 19.57907 | 1 | 4 | 0 | 8 | 52.257146 | 5.952422 | 0 | 58.209567 | 122.400041 | 0.567568 | 0.333333 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 58.2095673095703 pounds in total and can lift itself and more, thanks to its strong thrust of 122.40004119873 pounds. | This drone for the payload of 16 pounds, can take flight but cannot achieve to traverse in a straight line and maintain altitude. | This drone configuration has a feasible flying range of 5.165463-20.93458 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 15.01384-19.57907 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 20.93458 miles, and can reach maximum speeds up to 19.57907 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4096.516, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1206.glb?download=true | *aMM0+*bNM2+++*cMN1+++*dLM2+++*eML1+++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 56 | 2,582.643 | 0.000004 | 1 | 4 | 0 | 8 | 24.918168 | 9.452226 | 0 | 34.370396 | 189.075064 | 0.378378 | 0.444444 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 34.3703955368042 pounds in total and can lift itself and more, thanks to its strong thrust of 189.075064086914 pounds. | This drone could not hover. The drone for a payload of 56 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-8.572993 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 4.065422e-06-25.28337 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 8.572993 miles, and can reach maximum speeds up to 25.28337 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2582.6430000000005, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1207.glb?download=true | *aMM0+*bNM2+++*cMN1+++*dLM2+++*eML1++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 2,527.081 | 0.345992 | 1 | 4 | 0 | 8 | 24.918168 | 8.577275 | 0 | 33.495444 | 172.406319 | 0.378378 | 0.416667 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 33.495444070816 pounds in total and can lift itself and more, thanks to its strong thrust of 172.406318664551 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.3459924-0.3459924 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.3459924 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2527.081, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1208.glb?download=true | *aMM0+*bNM2+++*cMN1+++*dLM2+++*eML1+*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 2,487.268 | 0.580948 | 1 | 4 | 0 | 8 | 24.918168 | 7.950341 | 0 | 32.868508 | 160.46256 | 0.378378 | 0.388889 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 32.8685084228516 pounds in total and can lift itself and more, thanks to its strong thrust of 160.462559509277 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.5809477-0.5809477 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.5809477 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2487.268, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1209.glb?download=true | *aMM0+*bNM2+++*cMN1+++*dLM2+++*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 2,460.581 | 0.731481 | 1 | 4 | 0 | 8 | 24.918168 | 7.53009 | 0 | 32.448258 | 152.456314 | 0.378378 | 0.361111 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 32.4482582298279 pounds in total and can lift itself and more, thanks to its strong thrust of 152.456314086914 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.7314806-0.7314806 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.7314806 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2460.581, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1210.glb?download=true | *aMM0+*bNM2+++*cMN1+++*dLM2++*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 2,405.018 | 0.38811 | 1 | 4 | 0 | 8 | 24.918168 | 6.655139 | 0 | 31.573307 | 135.787555 | 0.378378 | 0.333333 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 31.5733067638397 pounds in total and can lift itself and more, thanks to its strong thrust of 135.787554931641 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.3881103-0.3881103 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.3881103 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2405.018, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1211.glb?download=true | *aMM0+*bNM2+++*cMN1+++*dLM2+*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 2,365.206 | 0.16306 | 1 | 4 | 0 | 8 | 24.918168 | 6.028206 | 0 | 30.946373 | 123.843796 | 0.378378 | 0.305556 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 30.9463732183456 pounds in total and can lift itself and more, thanks to its strong thrust of 123.843795776367 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1630599-0.1630599 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1630599 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2365.206, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1212.glb?download=true | *aMM0+*bNM2+++*cMN1++*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 2,282.956 | 0.295772 | 1 | 4 | 0 | 8 | 24.918168 | 4.733003 | 0 | 29.651169 | 99.168777 | 0.378378 | 0.25 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 29.6511694568634 pounds in total and can lift itself and more, thanks to its strong thrust of 99.1687774658203 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2957722-0.2957722 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2957722 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2282.956, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1213.glb?download=true | *aMM0+*bNM2+++*cMN1+*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 2,243.143 | 0.484764 | 1 | 4 | 0 | 8 | 24.918168 | 4.106069 | 0 | 29.024238 | 87.225025 | 0.378378 | 0.222222 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 29.0242380138397 pounds in total and can lift itself and more, thanks to its strong thrust of 87.225025177002 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.4847641-0.4847641 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.4847641 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2243.143, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1214.glb?download=true | *aMM0+*bNM2+++*cMN1*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei | CouldNotStabilize | 0 | 0 | 2,216.456 | 0.60443 | 1 | 4 | 0 | 8 | 24.918168 | 3.685817 | 0 | 28.603986 | 79.218773 | 0.378378 | 0.194444 | 0 | This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 28.6039857183456 pounds in total and can lift itself and more, thanks to its strong thrust of 79.2187728881836 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.6044304-0.6044304 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.6044304 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2216.456, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1215.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1++++*kKM2++++*lLL2++++*mMK1++++*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | Success | 0.217105 | 100 | 5,173.951 | 5.924129 | 1 | 12 | 0 | 28 | 38.89466 | 29.982569 | 0 | 68.877229 | 598.200128 | 0.486486 | 0.407407 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 68.8772287876129 pounds in total and can lift itself and more, thanks to its strong thrust of 598.200128173828 pounds. | This drone can fly up to 0.2171049 miles. It can carry heavy things, up to 100 pounds. Also, it can achieve a max speed of 5.924129 miles per hour, at its max payload capacity. This drone costs around $5173.951, adding up costs of all the components used to achieve this configuration. | This drone configuration has a feasible flying range of 0.2171049-11.43975 miles, evaluated over the payload range of 0-100 pounds. This configuration has a velocity range of 5.924129-25.33006 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 11.43975 miles, and can reach maximum speeds up to 25.33006 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $5173.951, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1216.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1++++*kKM2++++*lLL2++++*mMK1+++*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | Success | 0.664896 | 32 | 5,100.013 | 10.46839 | 1 | 12 | 0 | 28 | 38.89466 | 28.818265 | 0 | 67.712927 | 576.018897 | 0.486486 | 0.398148 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 67.7129269355774 pounds in total and can lift itself and more, thanks to its strong thrust of 576.018896484375 pounds. | This drone can fly up to 0.6648963 miles. It can carry heavy things, up to 32 pounds. Also, it can achieve a max speed of 10.46839 miles per hour, at its max payload capacity. This drone costs around $5100.013, adding up costs of all the components used to achieve this configuration. | This drone configuration has a feasible flying range of 0.4554016-11.70661 miles, evaluated over the payload range of 0-32 pounds. This configuration has a velocity range of 8.911192-25.05632 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 11.70661 miles, and can reach maximum speeds up to 25.05632 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $5100.013, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1217.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1++++*kKM2++++*lLL2++++*mMK1++*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 32 | 5,044.451 | 0.249924 | 1 | 12 | 0 | 28 | 38.89466 | 27.943314 | 0 | 66.837971 | 559.35011 | 0.486486 | 0.388889 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 66.8379712646484 pounds in total and can lift itself and more, thanks to its strong thrust of 559.350109863281 pounds. | This drone could not hover. The drone for a payload of 32 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-3.5138 miles, evaluated over the payload range of 0-32 pounds. This configuration has a velocity range of 0.2499243-17.49699 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 3.5138 miles, and can reach maximum speeds up to 17.49699 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $5044.451, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1218.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1++++*kKM2++++*lLL2++++*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 20 | 4,977.951 | 0.541357 | 1 | 12 | 0 | 28 | 38.89466 | 26.896128 | 0 | 65.79079 | 539.400092 | 0.486486 | 0.37037 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 65.7907896286011 pounds in total and can lift itself and more, thanks to its strong thrust of 539.400091552734 pounds. | This drone could not hover. The drone for a payload of 20 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-1.936266 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 0.5413568-13.31587 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 1.936266 miles, and can reach maximum speeds up to 13.31587 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4977.951, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1219.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1++++*kKM2++++*lLL2+++*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 24 | 4,904.013 | 0.726032 | 1 | 12 | 0 | 28 | 38.89466 | 25.731824 | 0 | 64.626484 | 517.21886 | 0.486486 | 0.361111 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 64.6264835716248 pounds in total and can lift itself and more, thanks to its strong thrust of 517.218859863281 pounds. | This drone could not hover. The drone for a payload of 24 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-2.032982 miles, evaluated over the payload range of 0-24 pounds. This configuration has a velocity range of 0.7260323-13.50595 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 2.032982 miles, and can reach maximum speeds up to 13.50595 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4904.013, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1220.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1++++*kKM2++++*lLL2++*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 24 | 4,848.451 | 0.733063 | 1 | 12 | 0 | 28 | 38.89466 | 24.856873 | 0 | 63.751532 | 500.550128 | 0.486486 | 0.351852 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 63.7515321056366 pounds in total and can lift itself and more, thanks to its strong thrust of 500.550128173828 pounds. | This drone could not hover. The drone for a payload of 24 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-2.08633 miles, evaluated over the payload range of 0-24 pounds. This configuration has a velocity range of 0.7330629-13.59264 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 2.08633 miles, and can reach maximum speeds up to 13.59264 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4848.451, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1221.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1++++*kKM2++++*lLL2+*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 24 | 4,808.638 | 0.657319 | 1 | 12 | 0 | 28 | 38.89466 | 24.229939 | 0 | 63.124596 | 488.606342 | 0.486486 | 0.342593 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 63.1245964576721 pounds in total and can lift itself and more, thanks to its strong thrust of 488.606341552734 pounds. | This drone could not hover. The drone for a payload of 24 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-2.130411 miles, evaluated over the payload range of 0-24 pounds. This configuration has a velocity range of 0.657319-13.67253 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 2.130411 miles, and can reach maximum speeds up to 13.67253 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4808.638, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1222.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1++++*kKM2++++*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 24 | 4,781.951 | 0.60436 | 1 | 12 | 0 | 28 | 38.89466 | 23.809687 | 0 | 62.704346 | 480.60011 | 0.486486 | 0.333333 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 62.7043462646484 pounds in total and can lift itself and more, thanks to its strong thrust of 480.600109863281 pounds. | This drone could not hover. The drone for a payload of 24 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-2.129221 miles, evaluated over the payload range of 0-24 pounds. This configuration has a velocity range of 0.6043596-13.64928 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 2.129221 miles, and can reach maximum speeds up to 13.64928 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4781.951, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1223.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1++++*kKM2++*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,652.451 | 0.322014 | 1 | 12 | 0 | 28 | 38.89466 | 21.770431 | 0 | 60.665093 | 441.750119 | 0.486486 | 0.314815 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 60.6650929466248 pounds in total and can lift itself and more, thanks to its strong thrust of 441.750119018555 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.3220139-0.3220139 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.3220139 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4652.451, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1224.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1++++*kKM2+*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,612.638 | 0.316614 | 1 | 12 | 0 | 28 | 38.89466 | 21.143498 | 0 | 60.038157 | 429.80636 | 0.486486 | 0.305556 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 60.0381572986603 pounds in total and can lift itself and more, thanks to its strong thrust of 429.806359863281 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.3166136-0.3166136 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.3166136 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4612.638, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1225.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1++++*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,585.951 | 0.446808 | 1 | 12 | 0 | 28 | 38.89466 | 20.723245 | 0 | 59.617903 | 421.800128 | 0.486486 | 0.296296 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 59.6179029006958 pounds in total and can lift itself and more, thanks to its strong thrust of 421.800128173828 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.4468082-0.4468082 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.4468082 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4585.951, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1226.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1+++*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,512.013 | 0.422234 | 1 | 12 | 0 | 28 | 38.89466 | 19.558942 | 0 | 58.453601 | 399.618869 | 0.486486 | 0.287037 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 58.4536010486603 pounds in total and can lift itself and more, thanks to its strong thrust of 399.618869018555 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.4222338-0.4222338 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.4222338 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4512.013, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1227.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1+*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,416.638 | 0.634415 | 1 | 12 | 0 | 28 | 38.89466 | 18.057059 | 0 | 56.951718 | 371.006351 | 0.486486 | 0.268519 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 56.9517181396484 pounds in total and can lift itself and more, thanks to its strong thrust of 371.006350708008 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.6344146-0.6344146 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.6344146 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4416.638, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1228.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++++*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,389.951 | 0.650124 | 1 | 12 | 0 | 28 | 38.89466 | 17.636808 | 0 | 56.531468 | 363.000119 | 0.486486 | 0.259259 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 56.5314679466248 pounds in total and can lift itself and more, thanks to its strong thrust of 363.000119018555 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.6501241-0.6501241 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.6501241 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4389.951, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1229.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1++*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,260.451 | 0.577458 | 1 | 12 | 0 | 28 | 38.89466 | 15.597553 | 0 | 54.492215 | 324.150101 | 0.486486 | 0.240741 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 54.4922146286011 pounds in total and can lift itself and more, thanks to its strong thrust of 324.150100708008 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.577458-0.577458 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.577458 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4260.451, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1230.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1+++*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,316.013 | 0.601202 | 1 | 12 | 0 | 28 | 38.89466 | 16.472504 | 0 | 55.367162 | 340.81886 | 0.486486 | 0.25 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 55.3671618896484 pounds in total and can lift itself and more, thanks to its strong thrust of 340.818859863281 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.6012018-0.6012018 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.6012018 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4316.013, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1231.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1+*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,220.638 | 0.65095 | 1 | 12 | 0 | 28 | 38.89466 | 14.970619 | 0 | 53.865279 | 312.206342 | 0.486486 | 0.231481 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 53.8652789806366 pounds in total and can lift itself and more, thanks to its strong thrust of 312.206341552734 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.6509501-0.6509501 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.6509501 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4220.638, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1232.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++*iMO1*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,064.451 | 0.219038 | 1 | 12 | 0 | 28 | 38.89466 | 12.511113 | 0 | 51.405771 | 265.350092 | 0.486486 | 0.203704 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 51.4057712646484 pounds in total and can lift itself and more, thanks to its strong thrust of 265.350091552734 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2190384-0.2190384 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2190384 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4064.451, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1233.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2++++*iMO1*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,193.951 | 0.722678 | 1 | 12 | 0 | 28 | 38.89466 | 14.550368 | 0 | 53.445029 | 304.20011 | 0.486486 | 0.222222 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 53.4450287876129 pounds in total and can lift itself and more, thanks to its strong thrust of 304.200109863281 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.7226775-0.7226775 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.7226775 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4193.951, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1234.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2+++*iMO1*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 4,120.013 | 0.309018 | 1 | 12 | 0 | 28 | 38.89466 | 13.386064 | 0 | 52.280723 | 282.018851 | 0.486486 | 0.212963 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 52.2807227306366 pounds in total and can lift itself and more, thanks to its strong thrust of 282.018850708008 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.3090177-0.3090177 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.3090177 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $4120.013, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1235.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++++*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 3,997.951 | 0.149044 | 1 | 12 | 0 | 28 | 38.89466 | 11.463928 | 0 | 50.35859 | 245.400101 | 0.486486 | 0.185185 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 50.3585896286011 pounds in total and can lift itself and more, thanks to its strong thrust of 245.400100708008 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1490437-0.1490437 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.1490437 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3997.951, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1236.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2++*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 3,868.45 | 0.25767 | 1 | 12 | 0 | 28 | 38.89466 | 9.424669 | 0 | 48.319328 | 206.550082 | 0.486486 | 0.166667 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 48.3193279006958 pounds in total and can lift itself and more, thanks to its strong thrust of 206.550082397461 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2576701-0.2576701 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.2576701 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3868.45, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1237.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2+*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 3,828.638 | 0.304175 | 1 | 12 | 0 | 28 | 38.89466 | 8.797735 | 0 | 47.692396 | 194.606323 | 0.486486 | 0.157407 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 47.6923964576721 pounds in total and can lift itself and more, thanks to its strong thrust of 194.606323242188 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.3041752-0.3041752 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.3041752 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3828.638, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1238.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 3,672.45 | 0.130264 | 1 | 12 | 0 | 28 | 38.89466 | 6.338227 | 0 | 45.232885 | 147.750046 | 0.486486 | 0.12963 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 45.2328845367432 pounds in total and can lift itself and more, thanks to its strong thrust of 147.750045776367 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.130264-0.130264 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.130264 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3672.45, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1239.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2++++*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 3,801.95 | 0.332642 | 1 | 12 | 0 | 28 | 38.89466 | 8.377483 | 0 | 47.272142 | 186.600092 | 0.486486 | 0.148148 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 47.2721420597076 pounds in total and can lift itself and more, thanks to its strong thrust of 186.600091552734 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.3326417-0.3326417 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.3326417 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3801.95, adding up costs of all the components used to achieve this configuration. |
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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1240.glb?download=true | *aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2+++*gNN2*hNL2*iMO1*jLN1*kKM2*lLL2*mMK1*nPM4*oON4*pOL4*qNO4*rMP4*sLO4*tKN4*uJM4*vKL4*wNK4*xLK4*yMJ4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^fn^fo^fp^iq^ir^is^kt^ku^kv^mw^mx^my^cg^dj^eh^el | CouldNotStabilize | 0 | 0 | 3,728.013 | 0.306346 | 1 | 12 | 0 | 28 | 38.89466 | 7.213178 | 0 | 46.107836 | 164.418805 | 0.486486 | 0.138889 | 0 | This drone is made up of 1 part and has 12 engines that help it move. It also has 0 wings for better flying. It has 28 links that connect everything together securely. The drone weighs 46.1078360027313 pounds in total and can lift itself and more, thanks to its strong thrust of 164.418804931641 pounds. | This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight. | This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.3063461-0.3063461 mph. It is observed when payload increases, the flying range and velocity decrease. The drones achieve highest values of velocity and range for the lowest payloads. It can be interpreted from the data that the drone can fly as far as 0.0 miles, and can reach maximum speeds up to 0.3063461 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3728.013, adding up costs of all the components used to achieve this configuration. |