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
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1241.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
HitBoundary
4.588399
16
3,605.95
19.62481
1
12
0
28
38.89466
5.291042
0
44.185703
127.800028
0.486486
0.111111
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 44.1857029006958 pounds in total and can lift itself and more, thanks to its strong thrust of 127.80002746582 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 4.588399-21.1794 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 0.3290686-19.90033 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 21.1794 miles, and can reach maximum speeds up to 19.90033 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 $3605.95, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1242.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
HitBoundary
2.017649
0
3,632.638
21.94251
1
12
0
28
38.89466
5.711294
0
44.605953
135.806287
0.486486
0.12037
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 44.6059530937195 pounds in total and can lift itself and more, thanks to its strong thrust of 135.806286621094 pounds.
This drone for the payload of 0 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 2.017649-2.017649 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 21.94251-21.94251 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 2.017649 miles, and can reach maximum speeds up to 21.94251 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 $3632.638, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1243.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
HitBoundary
2.770587
24
3,129.359
32.36398
1
12
0
28
31.389715
5.291042
0
36.680758
127.800028
0.432432
0.111111
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 36.6807582077026 pounds in total and can lift itself and more, thanks to its strong thrust of 127.80002746582 pounds.
This drone for the payload of 24 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 2.770587-19.60859 miles, evaluated over the payload range of 0-24 pounds. This configuration has a velocity range of 15.73777-32.36398 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 19.60859 miles, and can reach maximum speeds up to 32.36398 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 $3129.359, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1244.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
HitBoundary
5.16715
16
3,359.148
18.43519
1
12
0
28
35.008228
5.291042
0
40.29927
127.800028
0.459459
0.111111
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 40.2992695503235 pounds in total and can lift itself and more, thanks to its strong thrust of 127.80002746582 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 5.16715-20.7125 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 6.720827-23.0342 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 20.7125 miles, and can reach maximum speeds up to 23.0342 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 $3359.148, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1245.glb?download=true
*aMM0+++++*bNM4*cMN4*dLM4*eML4*fOM2++*gMO1++*hKM2++*iMK1++^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
2.111288
28
3,247.95
19.21204
1
4
0
8
38.89466
5.952422
0
44.847081
122.400041
0.486486
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 44.8470812187195 pounds in total and can lift itself and more, thanks to its strong thrust of 122.40004119873 pounds.
This drone for the payload of 28 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 2.111288-17.62006 miles, evaluated over the payload range of 0-28 pounds. This configuration has a velocity range of 15.77738-20.98899 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 17.62006 miles, and can reach maximum speeds up to 20.98899 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 $3247.95, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1246.glb?download=true
*aMM0+++++*bNM4*cMN4*dLM4*eML4*fOM2++*gMO1++*hKM2+*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,141.638
16.5259
1
4
0
8
38.89466
4.278303
0
43.172964
90.506277
0.486486
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 8 links that connect everything together securely. The drone weighs 43.1729639347076 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 16.5259-16.5259 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 16.5259 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 $3141.638, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1247.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+*gMO1+*hKM2+*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
84
5,354.201
0.000014
1
8
0
8
57.310946
17.554133
0
74.865077
352.425037
0.594595
0.412698
0
This drone is made up of 1 part and has 8 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 74.8650770957947 pounds in total and can lift itself and more, thanks to its strong thrust of 352.425036621094 pounds.
This drone could not hover. The drone for a payload of 84 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 0.0-20.58002 miles, evaluated over the payload range of 0-84 pounds. This configuration has a velocity range of 1.431257e-05-16.51958 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 20.58002 miles, and can reach maximum speeds up to 16.51958 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 $5354.201, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1248.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
12
5,274.138
0.208732
1
8
0
8
57.310946
16.293379
0
73.604327
328.406342
0.594595
0.380952
0
This drone is made up of 1 part and has 8 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 73.6043265167236 pounds in total and can lift itself and more, thanks to its strong thrust of 328.406341552734 pounds.
This drone could not hover. The drone for a payload of 12 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 0.0-20.76341 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 0.2087319-16.17508 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 20.76341 miles, and can reach maximum speeds up to 16.17508 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 $5274.138, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1249.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+*gMO1+*hKM2+*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
16
5,327.513
0.319329
1
8
0
8
57.310946
17.133882
0
74.444827
344.418805
0.594595
0.412698
0
This drone is made up of 1 part and has 8 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 74.444826902771 pounds in total and can lift itself and more, thanks to its strong thrust of 344.418804931641 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 0.0-20.49272 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 0.3193291-16.40708 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 20.49272 miles, and can reach maximum speeds up to 16.40708 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 $5327.513, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1250.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+*gMO1+*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
Success
0.638998
32
5,300.826
10.3956
1
8
0
8
57.310946
16.71363
0
74.024577
336.412573
0.594595
0.396825
0
This drone is made up of 1 part and has 8 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 74.0245767097473 pounds in total and can lift itself and more, thanks to its strong thrust of 336.412573242188 pounds.
This drone can fly up to 0.6389982 miles. It can carry heavy things, up to 32 pounds. Also, it can achieve a max speed of 10.3956 miles per hour, at its max payload capacity. This drone costs around $5300.826, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 0.4135039-20.64682 miles, evaluated over the payload range of 0-32 pounds. This configuration has a velocity range of 1.329309-16.33944 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 20.64682 miles, and can reach maximum speeds up to 16.33944 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 $5300.826, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1251.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1+++*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
8
5,173.514
0.047063
1
8
0
8
57.310946
14.708824
0
72.01977
298.218851
0.594595
0.349206
0
This drone is made up of 1 part and has 8 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 72.0197702667236 pounds in total and can lift itself and more, thanks to its strong thrust of 298.218850708008 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 0.0-10.59407 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.04706349-15.49545 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 10.59407 miles, and can reach maximum speeds up to 15.49545 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 $5173.514, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1252.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
68
5,247.451
0.000024
1
8
0
8
57.310946
15.873128
0
73.184076
320.40011
0.594595
0.365079
0
This drone is made up of 1 part and has 8 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 73.1840763237 pounds in total and can lift itself and more, thanks to its strong thrust of 320.400109863281 pounds.
This drone could not hover. The drone for a payload of 68 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 0.0-21.0439 miles, evaluated over the payload range of 0-68 pounds. This configuration has a velocity range of 2.419008e-05-16.16558 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 21.0439 miles, and can reach maximum speeds up to 16.16558 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 $5247.451, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1253.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
8
5,117.951
0.108489
1
8
0
8
57.310946
13.833873
0
71.144823
281.550092
0.594595
0.333333
0
This drone is made up of 1 part and has 8 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 71.1448230056763 pounds in total and can lift itself and more, thanks to its strong thrust of 281.550091552734 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 0.0-7.163639 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.1084894-14.71382 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 7.163639 miles, and can reach maximum speeds up to 14.71382 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 $5117.951, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1254.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1+*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
Success
5.639368
4
5,078.138
13.97374
1
8
0
8
57.310946
13.206939
0
70.517883
269.606332
0.594595
0.31746
0
This drone is made up of 1 part and has 8 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 70.517883152771 pounds in total and can lift itself and more, thanks to its strong thrust of 269.606332397461 pounds.
This drone can fly up to 5.639368 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 13.97374 miles per hour, at its max payload capacity. This drone costs around $5078.138, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 5.60186-5.639368 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 13.97374-13.98457 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 5.639368 miles, and can reach maximum speeds up to 13.98457 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 $5078.138, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1255.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
Success
4.016617
8
5,051.451
10.01655
1
8
0
8
57.310946
12.786688
0
70.097633
261.600101
0.594595
0.301587
0
This drone is made up of 1 part and has 8 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 70.0976329597473 pounds in total and can lift itself and more, thanks to its strong thrust of 261.600100708008 pounds.
This drone can fly up to 4.016617 miles. It can carry heavy things, up to 8 pounds. Also, it can achieve a max speed of 10.01655 miles per hour, at its max payload capacity. This drone costs around $5051.451, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 2.197945-4.73398 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 10.01655-12.81166 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 4.73398 miles, and can reach maximum speeds up to 12.81166 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 $5051.451, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1256.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2+++*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
3.252436
8
4,977.513
22.40456
1
8
0
8
57.310946
11.622383
0
68.933327
239.418842
0.594595
0.285714
0
This drone is made up of 1 part and has 8 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 68.933326902771 pounds in total and can lift itself and more, thanks to its strong thrust of 239.418841552734 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 3.252436-7.479265 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 13.58923-22.40456 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 7.479265 miles, and can reach maximum speeds up to 22.40456 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 $4977.513, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1257.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
12
4,921.951
11.23705
1
8
0
8
57.310946
10.747431
0
68.05838
222.750082
0.594595
0.269841
0
This drone is made up of 1 part and has 8 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 68.0583796417236 pounds in total and can lift itself and more, thanks to its strong thrust of 222.750082397461 pounds.
This drone could not hover. The drone for a payload of 12 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 0.0-11.47729 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 8.29006-14.83501 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 11.47729 miles, and can reach maximum speeds up to 14.83501 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 $4921.951, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1258.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++++*dLM2+*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
4.869886
4
4,882.138
18.70443
1
8
0
8
57.310946
10.120497
0
67.431444
210.806323
0.594595
0.253968
0
This drone is made up of 1 part and has 8 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 67.4314439937592 pounds in total and can lift itself and more, thanks to its strong thrust of 210.806323242188 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 4.869886-16.35326 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 14.90705-18.70443 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 16.35326 miles, and can reach maximum speeds up to 18.70443 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 $4882.138, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1259.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+++*dLM2*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
12
4,781.513
18.83657
1
8
0
8
57.310946
8.535938
0
65.846884
180.618832
0.594595
0.222222
0
This drone is made up of 1 part and has 8 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 65.8468835388184 pounds in total and can lift itself and more, thanks to its strong thrust of 180.618832397461 pounds.
This drone could not hover. The drone for a payload of 12 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 0.0-11.52123 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 5.337683-18.83657 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 11.52123 miles, and can reach maximum speeds up to 18.83657 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 $4781.513, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1260.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1++*dLM2*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
8
4,725.951
23.45051
1
8
0
8
57.310946
7.660987
0
64.971932
163.950073
0.594595
0.206349
0
This drone is made up of 1 part and has 8 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 64.9719320728302 pounds in total and can lift itself and more, thanks to its strong thrust of 163.950073242188 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 0.0-8.119262 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 6.45342-23.45051 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 8.119262 miles, and can reach maximum speeds up to 23.45051 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 $4725.951, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1261.glb?download=true
*aMM0+++++++++*bNM2++++*cMN1+*dLM2*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
2.882484
0
4,686.138
28.19757
1
8
0
8
57.310946
7.034054
0
64.345001
152.006314
0.594595
0.190476
0
This drone is made up of 1 part and has 8 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 64.3450006298065 pounds in total and can lift itself and more, thanks to its strong thrust of 152.006314086914 pounds.
This drone for the payload of 0 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 2.882484-2.882484 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 28.19757-28.19757 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 2.882484 miles, and can reach maximum speeds up to 28.19757 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 $4686.138, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1262.glb?download=true
*aMM0+++++++++*bNM2+*cMN1*dLM2*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
1.477035
0
4,490.138
16.74148
1
8
0
8
57.310946
3.947613
0
61.258557
93.206271
0.594595
0.126984
0
This drone is made up of 1 part and has 8 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 61.2585572658539 pounds in total and can lift itself and more, thanks to its strong thrust of 93.2062705993652 pounds.
This drone for the payload of 0 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 1.477035-1.477035 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 16.74148-16.74148 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 1.477035 miles, and can reach maximum speeds up to 16.74148 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 $4490.138, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1263.glb?download=true
*aMM0+++++*bNM2++*cMN1++*dLM2++*eML1++*fOM4*gMO4*hKM4*iMK4*jPM2+*kMP1+*lJM2+*mMJ1+^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
CouldNotStabilize
0
68
3,666.7
0.000043
1
8
0
12
38.89466
9.39711
0
48.291769
197.02506
0.486486
0.285714
0
This drone is made up of 1 part and has 8 engines that help it move. It also has 0 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 48.2917687187195 pounds in total and can lift itself and more, thanks to its strong thrust of 197.025059509277 pounds.
This drone could not hover. The drone for a payload of 68 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 0.0-17.06114 miles, evaluated over the payload range of 0-68 pounds. This configuration has a velocity range of 4.311527e-05-22.2221 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 17.06114 miles, and can reach maximum speeds up to 22.2221 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 $3666.6999999999994, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1264.glb?download=true
*aMM0+++++*bNM2++*cMN1++*dLM2++*eML1++*fOM4*gMO4*hKM4*iMK4*jPM2+*kMP1+*lJM2*mMJ1^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
Success
1.649702
24
3,613.325
11.73529
1
8
0
12
38.89466
8.556607
0
47.451268
181.012555
0.486486
0.269841
0
This drone is made up of 1 part and has 8 engines that help it move. It also has 0 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 47.4512683326721 pounds in total and can lift itself and more, thanks to its strong thrust of 181.012554931641 pounds.
This drone can fly up to 1.649702 miles. It can carry heavy things, up to 24 pounds. Also, it can achieve a max speed of 11.73529 miles per hour, at its max payload capacity. This drone costs around $3613.325, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 1.093414-17.40131 miles, evaluated over the payload range of 0-24 pounds. This configuration has a velocity range of 10.81244-21.95951 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 17.40131 miles, and can reach maximum speeds up to 21.95951 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 $3613.325, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1265.glb?download=true
*aMM0+++++*bNM2++*cMN1++*dLM2++*eML1+*fOM4*gMO4*hKM4*iMK4*jPM2*kMP1*lJM2*mMJ1^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
CouldNotStabilize
0
20
3,520.138
0.159016
1
8
0
12
38.89466
7.08917
0
45.983828
153.056305
0.486486
0.222222
0
This drone is made up of 1 part and has 8 engines that help it move. It also has 0 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 45.9838280937195 pounds in total and can lift itself and more, thanks to its strong thrust of 153.056304931641 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 0.0-18.18857 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 0.1590155-21.47562 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 18.18857 miles, and can reach maximum speeds up to 21.47562 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 $3520.1380000000004, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1266.glb?download=true
*aMM0+++++*bNM2++*cMN1++*dLM2++*eML1*fOM4*gMO4*hKM4*iMK4*jPM2*kMP1*lJM2*mMJ1^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
CouldNotStabilize
0
12
3,493.45
0.053714
1
8
0
12
38.89466
6.668917
0
45.563578
145.050046
0.486486
0.206349
0
This drone is made up of 1 part and has 8 engines that help it move. It also has 0 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 45.5635779006958 pounds in total and can lift itself and more, thanks to its strong thrust of 145.050045776367 pounds.
This drone could not hover. The drone for a payload of 12 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 0.0-18.29779 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 0.05371432-21.3124 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 18.29779 miles, and can reach maximum speeds up to 21.3124 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 $3493.45, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1267.glb?download=true
*aMM0+++++*bNM2++*cMN1++*dLM2++*eML1++*fOM4*gMO4*hKM4*iMK4*jPM2+*kMP1*lJM2*mMJ1^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
CouldNotStabilize
0
20
3,586.638
0.046237
1
8
0
12
38.89466
8.136355
0
47.031014
173.006323
0.486486
0.253968
0
This drone is made up of 1 part and has 8 engines that help it move. It also has 0 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 47.0310139347076 pounds in total and can lift itself and more, thanks to its strong thrust of 173.006323242188 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 0.0-17.77357 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 0.04623695-21.79666 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 17.77357 miles, and can reach maximum speeds up to 21.79666 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 $3586.6380000000004, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1268.glb?download=true
*aMM0+++++*bNM2++*cMN1++*dLM2+*eML1*fOM4*gMO4*hKM4*iMK4*jPM2*kMP1*lJM2*mMJ1^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
CouldNotStabilize
0
20
3,453.638
13.0363
1
8
0
12
38.89466
6.041984
0
44.936642
133.106287
0.486486
0.190476
0
This drone is made up of 1 part and has 8 engines that help it move. It also has 0 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 44.9366422527313 pounds in total and can lift itself and more, thanks to its strong thrust of 133.106286621094 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 0.0-18.54717 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 10.38015-21.11507 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 18.54717 miles, and can reach maximum speeds up to 21.11507 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 $3453.6380000000004, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1269.glb?download=true
*aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM4*gMO4*hKM4*iMK4*jPM2*kMP1*lJM2*mMJ1^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
HitBoundary
2.446357
12
3,293.95
19.44259
1
8
0
12
38.89466
3.527361
0
42.42202
85.200018
0.486486
0.111111
0
This drone is made up of 1 part and has 8 engines that help it move. It also has 0 wings for better flying. It has 12 links that connect everything together securely. The drone weighs 42.4220203777313 pounds in total and can lift itself and more, thanks to its strong thrust of 85.2000183105469 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 2.446357-20.17851 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 15.99657-20.28128 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 20.17851 miles, and can reach maximum speeds up to 20.28128 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 $3293.95, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1270.glb?download=true
*aMM0++++++++*bNM2+++*cMN1+++*dLM2+++*eML1^ab^ac^ad^ae
CouldNotStabilize
0
0
4,196.704
3.643111
1
4
0
4
52.257146
7.53009
0
59.787236
152.456314
0.567568
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 4 links that connect everything together securely. The drone weighs 59.7872358665466 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 3.643111-3.643111 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 3.643111 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 $4196.704, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1271.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
Success
1.164562
76
4,397.451
10.5005
1
16
0
20
38.89466
14.605478
0
53.500139
314.250073
0.486486
0.214815
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 53.500138741684 pounds in total and can lift itself and more, thanks to its strong thrust of 314.250073242188 pounds.
This drone can fly up to 1.164562 miles. It can carry heavy things, up to 76 pounds. Also, it can achieve a max speed of 10.5005 miles per hour, at its max payload capacity. This drone costs around $4397.451, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 1.014061-15.63692 miles, evaluated over the payload range of 0-76 pounds. This configuration has a velocity range of 10.5005-23.68878 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 15.63692 miles, and can reach maximum speeds up to 23.68878 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 $4397.451, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1272.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
Success
2.426365
44
4,330.951
13.09065
1
16
0
20
38.89466
13.558293
0
52.452953
294.300082
0.486486
0.214815
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 52.4529529006958 pounds in total and can lift itself and more, thanks to its strong thrust of 294.300082397461 pounds.
This drone can fly up to 2.426365 miles. It can carry heavy things, up to 44 pounds. Also, it can achieve a max speed of 13.09065 miles per hour, at its max payload capacity. This drone costs around $4330.951, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 0.360998-15.82491 miles, evaluated over the payload range of 0-44 pounds. This configuration has a velocity range of 6.973403-23.15355 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 15.82491 miles, and can reach maximum speeds up to 23.15355 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 $4330.951, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1273.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
Success
0.903466
72
4,357.638
10.61443
1
16
0
20
38.89466
13.978545
0
52.873203
302.306314
0.486486
0.214815
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 52.8732030937195 pounds in total and can lift itself and more, thanks to its strong thrust of 302.306314086914 pounds.
This drone can fly up to 0.9034659 miles. It can carry heavy things, up to 72 pounds. Also, it can achieve a max speed of 10.61443 miles per hour, at its max payload capacity. This drone costs around $4357.638, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 0.04494369-15.80507 miles, evaluated over the payload range of 0-72 pounds. This configuration has a velocity range of 2.456407-23.4428 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 15.80507 miles, and can reach maximum speeds up to 23.4428 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 $4357.638, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1274.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
Success
2.798007
40
4,291.138
13.77878
1
16
0
20
38.89466
12.93136
0
51.826021
282.356323
0.486486
0.207407
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 51.8260214576721 pounds in total and can lift itself and more, thanks to its strong thrust of 282.356323242188 pounds.
This drone can fly up to 2.798007 miles. It can carry heavy things, up to 40 pounds. Also, it can achieve a max speed of 13.77878 miles per hour, at its max payload capacity. This drone costs around $4291.138, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 0.8242078-16.25894 miles, evaluated over the payload range of 0-40 pounds. This configuration has a velocity range of 9.305578-23.25878 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 16.25894 miles, and can reach maximum speeds up to 23.25878 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 $4291.138, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1275.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
4,224.638
0.336896
1
16
0
20
38.89466
11.884175
0
50.778836
262.406332
0.486486
0.192593
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 50.778835616684 pounds in total and can lift itself and more, thanks to its strong thrust of 262.406332397461 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 0.0-16.78791 miles, evaluated over the payload range of 0-36 pounds. This configuration has a velocity range of 0.3368958-23.067 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 16.78791 miles, and can reach maximum speeds up to 23.067 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 $4224.638, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1276.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
4,104.763
1.384949
1
16
0
20
38.89466
9.996487
0
48.891145
226.443823
0.486486
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 48.8911451847076 pounds in total and can lift itself and more, thanks to its strong thrust of 226.443823242188 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 0.0-18.13342 miles, evaluated over the payload range of 0-48 pounds. This configuration has a velocity range of 1.384949-22.61115 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 18.13342 miles, and can reach maximum speeds up to 22.61115 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 $4104.763, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1277.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
3.942148
32
3,917.95
16.59028
1
16
0
20
38.89466
7.054722
0
45.949381
170.400064
0.486486
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 45.9493812187195 pounds in total and can lift itself and more, thanks to its strong thrust of 170.400064086914 pounds.
This drone for the payload of 32 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 3.942148-22.9806 miles, evaluated over the payload range of 0-32 pounds. This configuration has a velocity range of 9.487009-22.83537 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 22.9806 miles, and can reach maximum speeds up to 22.83537 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 $3917.9499999999994, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1278.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
0.535476
52
3,441.36
17.39641
1
16
0
20
31.389715
7.054722
0
38.444437
170.400064
0.432432
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 38.4444365257263 pounds in total and can lift itself and more, thanks to its strong thrust of 170.400064086914 pounds.
This drone for the payload of 52 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 0.5354762-20.26001 miles, evaluated over the payload range of 0-52 pounds. This configuration has a velocity range of 13.57183-31.1478 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 20.26001 miles, and can reach maximum speeds up to 31.1478 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 $3441.36, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1279.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
3,030.393
0.002827
1
16
0
20
24.918168
7.054722
0
31.97289
170.400064
0.378378
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 31.9728896728516 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 0.0-14.73456 miles, evaluated over the payload range of 0-60 pounds. This configuration has a velocity range of 0.002827096-41.83028 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 14.73456 miles, and can reach maximum speeds up to 41.83028 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 $3030.393, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1280.glb?download=true
*aMM0+++++++++*bNM2+++*cMN1+++*dLM2+++*eML1+++*fOM2+++*gMO1+++*hKM2+++*iMK1+++^ab^ac^ad^ae^bf^cg^dh^ei
Success
1.714248
100
5,439.951
10.21334
1
8
0
8
57.310946
18.904453
0
76.215401
378.150101
0.594595
0.444444
0
This drone is made up of 1 part and has 8 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 76.2154013237 pounds in total and can lift itself and more, thanks to its strong thrust of 378.150100708008 pounds.
This drone can fly up to 1.714248 miles. It can carry heavy things, up to 100 pounds. Also, it can achieve a max speed of 10.21334 miles per hour, at its max payload capacity. This drone costs around $5439.951, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 1.714248-20.34755 miles, evaluated over the payload range of 0-100 pounds. This configuration has a velocity range of 10.21334-16.81965 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 20.34755 miles, and can reach maximum speeds up to 16.81965 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 $5439.951, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1281.glb?download=true
*aMM0+++++++++*bNM2+++*cMN1+++*dLM2+++*eML1+++*fOM2+++*gMO1+++*hKM2+++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
4
5,317.889
0.049667
1
8
0
8
57.310946
16.982318
0
74.293264
341.531351
0.594595
0.444444
0
This drone is made up of 1 part and has 8 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 74.2932640167236 pounds in total and can lift itself and more, thanks to its strong thrust of 341.531350708008 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 0.0-0.855041 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 0.04966733-9.356902 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 0.855041 miles, and can reach maximum speeds up to 9.356902 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 $5317.889, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1282.glb?download=true
*aMM0+++++++++*bNM2+++*cMN1+++*dLM2+++*eML1+++*fOM2+++*gMO1+*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
12
5,100.451
0.140992
1
8
0
8
57.310946
13.558297
0
70.86924
276.300082
0.594595
0.365079
0
This drone is made up of 1 part and has 8 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 70.8692395957947 pounds in total and can lift itself and more, thanks to its strong thrust of 276.300082397461 pounds.
This drone could not hover. The drone for a payload of 12 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 0.0-3.506552 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 0.1409918-12.86213 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 3.506552 miles, and can reach maximum speeds up to 12.86213 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 $5100.451, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1283.glb?download=true
*aMM0+++++++++*bNM2+++*cMN1+++*dLM2+++*eML1+++*fOM2+++*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
13.50651
8
5,073.763
26.67686
1
8
0
8
57.310946
13.138045
0
70.448989
268.293851
0.594595
0.349206
0
This drone is made up of 1 part and has 8 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 70.448989402771 pounds in total and can lift itself and more, thanks to its strong thrust of 268.293850708008 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 0.2597945-13.50651 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 4.098702-26.67686 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 13.50651 miles, and can reach maximum speeds up to 26.67686 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 $5073.763, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1284.glb?download=true
*aMM0+++++++++*bNM2+++*cMN1+++*dLM2+++*eML1+++*fOM2++*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
Success
17.67469
4
5,018.201
14.82582
1
8
0
8
57.310946
12.263094
0
69.574042
251.625092
0.594595
0.333333
0
This drone is made up of 1 part and has 8 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 69.5740421417236 pounds in total and can lift itself and more, thanks to its strong thrust of 251.625091552734 pounds.
This drone can fly up to 17.67469 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 14.82582 miles per hour, at its max payload capacity. This drone costs around $5018.201, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 5.863144-17.67469 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 13.96962-14.82582 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 17.67469 miles, and can reach maximum speeds up to 14.82582 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 $5018.201, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1285.glb?download=true
*aMM0+++++++++*bNM2+++*cMN1+++*dLM2+++*eML1+++*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
3.051634
52
4,951.701
16.23648
1
8
0
8
57.310946
11.215909
0
68.526856
231.675101
0.594595
0.301587
0
This drone is made up of 1 part and has 8 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 68.5268563007355 pounds in total and can lift itself and more, thanks to its strong thrust of 231.675100708008 pounds.
This drone for the payload of 52 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 3.051634-21.6021 miles, evaluated over the payload range of 0-52 pounds. This configuration has a velocity range of 13.24815-16.23648 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 21.6021 miles, and can reach maximum speeds up to 16.23648 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 $4951.701, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1286.glb?download=true
*aMM0+++++++++*bNM2+++*cMN1+++*dLM2++*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
3.756616
8
4,774.076
15.03795
1
8
0
8
57.310946
8.418819
0
65.729768
178.387592
0.594595
0.238095
0
This drone is made up of 1 part and has 8 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 65.729767527771 pounds in total and can lift itself and more, thanks to its strong thrust of 178.387591552734 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 3.756616-12.2954 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 10.00762-15.03795 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 12.2954 miles, and can reach maximum speeds up to 15.03795 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 $4774.076, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1287.glb?download=true
*aMM0+++++++++*bNM2+++*cMN1+++*dLM2+*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
4.649418
4
4,734.263
12.7595
1
8
0
8
57.310946
7.791886
0
65.102832
166.443832
0.594595
0.222222
0
This drone is made up of 1 part and has 8 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 65.1028318798065 pounds in total and can lift itself and more, thanks to its strong thrust of 166.443832397461 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 4.649418-17.28643 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 12.7595-14.40934 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 17.28643 miles, and can reach maximum speeds up to 14.40934 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 $4734.263, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1288.glb?download=true
*aMM0+++++++++*bNM2+++*cMN1+++*dLM2*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
12
4,707.576
8.361944
1
8
0
8
57.310946
7.371634
0
64.682582
158.437573
0.594595
0.206349
0
This drone is made up of 1 part and has 8 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 64.6825816867828 pounds in total and can lift itself and more, thanks to its strong thrust of 158.437573242188 pounds.
This drone could not hover. The drone for a payload of 12 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 0.0-19.22603 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 8.361944-14.64661 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 19.22603 miles, and can reach maximum speeds up to 14.64661 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 $4707.576, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1289.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
HitBoundary
3.381756
48
4,639.701
19.78191
1
4
0
16
57.310946
9.452226
0
66.763174
189.075064
0.594595
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 16 links that connect everything together securely. The drone weighs 66.763173777771 pounds in total and can lift itself and more, thanks to its strong thrust of 189.075064086914 pounds.
This drone for the payload of 48 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 3.381756-21.38541 miles, evaluated over the payload range of 0-48 pounds. This configuration has a velocity range of 11.91729-19.78191 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 21.38541 miles, and can reach maximum speeds up to 19.78191 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 $4639.701, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1290.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
4
4,544.326
3.024191
1
4
0
16
57.310946
7.950341
0
65.261287
160.46256
0.594595
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 65.2612866638184 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 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 0.0-0.4627906 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 3.024191-6.990036 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 0.4627906 miles, and can reach maximum speeds up to 6.990036 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 $4544.326, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1291.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
4,517.638
16.28342
1
4
0
16
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 16 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 16.28342-16.28342 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 16.28342 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.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1292.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
4,462.076
17.25169
1
4
0
16
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 16 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 17.25169-17.25169 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 17.25169 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.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1293.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
Success
10.90488
12
4,584.138
13.85258
1
4
0
16
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 16 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 10.90488 miles. It can carry heavy things, up to 12 pounds. Also, it can achieve a max speed of 13.85258 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 1.785841-10.90488 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 10.43148-13.85258 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 10.90488 miles, and can reach maximum speeds up to 13.85258 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.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1294.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
3,765.951
0.000094
1
4
0
16
38.89466
14.109445
0
53.004103
277.800073
0.486486
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 53.0041029006958 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 0.0-15.05746 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 9.405207e-05-23.34694 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 15.05746 miles, and can reach maximum speeds up to 23.34694 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 $3765.951, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1295.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
3,692.013
0.175605
1
4
0
16
38.89466
12.945142
0
51.839801
255.618814
0.486486
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 16 links that connect everything together securely. The drone weighs 51.8398010486603 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 0.1756047-0.1756047 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 0.1756047 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 $3692.013, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1296.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
3,596.638
0.363674
1
4
0
16
38.89466
11.443257
0
50.337918
227.00631
0.486486
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 16 links that connect everything together securely. The drone weighs 50.3379181396484 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 0.3636741-0.3636741 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 0.3636741 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 $3596.638, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1297.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
3,569.951
7.224165
1
4
0
16
38.89466
11.023005
0
49.917664
219.000064
0.486486
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 16 links that connect everything together securely. The drone weighs 49.917663741684 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 7.224165-7.224165 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 7.224165 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 $3569.951, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1298.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
3,496.013
9.604014
1
4
0
16
38.89466
9.8587
0
48.753362
196.818805
0.486486
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 48.7533618896484 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 9.604014-9.604014 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 9.604014 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 $3496.013, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1299.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
3,383.6
0.065481
1
4
2
20
35.008228
9.452226
8.829502
53.289955
189.075064
0.459459
0.444444
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 53.289954776001 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 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 0.0-23.30968 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.06548114-10.3202 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 23.30968 miles, and can reach maximum speeds up to 10.3202 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 $3383.6, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1300.glb?download=true
*aMM0+++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1+++*hKM2+++*iMK1++^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,414.638
0.096685
1
4
0
8
38.89466
8.577275
0
47.471936
172.406319
0.486486
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 47.471935616684 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 0.09668524-0.09668524 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 0.09668524 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 $3414.638, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1301.glb?download=true
*aMM0++++*bNM4*cMN4*dLM4*eML4*fOM4*gMO4*hKM4*iMK4*jPM2+*kMP1+*lJM2+*mMJ1+^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im
HitBoundary
4.03681
8
2,841.898
30.0313
1
4
0
12
35.008228
3.444689
0
38.452918
74.625011
0.459459
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 12 links that connect everything together securely. The drone weighs 38.4529178913117 pounds in total and can lift itself and more, thanks to its strong thrust of 74.6250114440918 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 4.03681-17.7838 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 19.50866-30.0313 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 17.7838 miles, and can reach maximum speeds up to 30.0313 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 $2841.8979999999997, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1302.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2++*gMO1++*hKM2++*iMK1++^ab^ac^ad^ae^bf^cg^dh^ei
Success
0.045933
100
5,192.517
2.388351
1
8
0
8
52.257146
20.061867
0
72.319011
400.200073
0.567568
0.460317
0
This drone is made up of 1 part and has 8 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 72.319010673523 pounds in total and can lift itself and more, thanks to its strong thrust of 400.200073242188 pounds.
This drone can fly up to 0.04593268 miles. It can carry heavy things, up to 100 pounds. Also, it can achieve a max speed of 2.388351 miles per hour, at its max payload capacity. This drone costs around $5192.517, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 0.04593268-19.01115 miles, evaluated over the payload range of 0-100 pounds. This configuration has a velocity range of 2.388351-19.00909 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 19.01115 miles, and can reach maximum speeds up to 19.00909 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 $5192.516999999999, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1303.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2++*gMO1++*hKM2++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
Success
15.26991
4
5,126.017
17.63973
1
8
0
8
52.257146
19.014681
0
71.271829
380.250082
0.567568
0.460317
0
This drone is made up of 1 part and has 8 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 71.2718290374756 pounds in total and can lift itself and more, thanks to its strong thrust of 380.250082397461 pounds.
This drone can fly up to 15.26991 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 17.63973 miles per hour, at its max payload capacity. This drone costs around $5126.017, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 0.4054546-15.26991 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 6.767538-17.63973 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 15.26991 miles, and can reach maximum speeds up to 17.63973 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 $5126.017, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1304.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2++*gMO1++*hKM2+*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
Success
15.88384
4
5,086.204
17.80419
1
8
0
8
52.257146
18.387748
0
70.644889
368.306323
0.567568
0.444444
0
This drone is made up of 1 part and has 8 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 70.6448891845703 pounds in total and can lift itself and more, thanks to its strong thrust of 368.306323242187 pounds.
This drone can fly up to 15.88384 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 17.80419 miles per hour, at its max payload capacity. This drone costs around $5086.204, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 5.531667-15.88384 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 16.02792-17.80419 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 15.88384 miles, and can reach maximum speeds up to 17.80419 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 $5086.204, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1305.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2++*gMO1++*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
Success
16.05256
4
5,059.517
17.75958
1
8
0
8
52.257146
17.967498
0
70.224643
360.300092
0.567568
0.428571
0
This drone is made up of 1 part and has 8 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 70.2246431964874 pounds in total and can lift itself and more, thanks to its strong thrust of 360.300091552734 pounds.
This drone can fly up to 16.05256 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 17.75958 miles per hour, at its max payload capacity. This drone costs around $5059.517, adding up costs of all the components used to achieve this configuration.
This drone configuration has a feasible flying range of 15.78623-16.05256 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 17.75958-18.35546 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 16.05256 miles, and can reach maximum speeds up to 18.35546 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 $5059.517, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1306.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
12
4,953.204
0.112349
1
8
0
8
52.257146
16.293379
0
68.550526
328.406342
0.567568
0.380952
0
This drone is made up of 1 part and has 8 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 68.5505259124756 pounds in total and can lift itself and more, thanks to its strong thrust of 328.406341552734 pounds.
This drone could not hover. The drone for a payload of 12 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 0.0-19.78296 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 0.1123487-18.08393 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 19.78296 miles, and can reach maximum speeds up to 18.08393 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 $4953.204, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1307.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2++*gMO1+*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
12
5,019.704
0.145988
1
8
0
8
52.257146
17.340564
0
69.597708
348.356332
0.567568
0.412698
0
This drone is made up of 1 part and has 8 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 69.5977075485229 pounds in total and can lift itself and more, thanks to its strong thrust of 348.356332397461 pounds.
This drone could not hover. The drone for a payload of 12 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 0.0-3.889016 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 0.1459877-14.65869 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 3.889016 miles, and can reach maximum speeds up to 14.65869 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 $5019.704, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1308.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
72
4,926.517
0.000004
1
8
0
8
52.257146
15.873128
0
68.130276
320.40011
0.567568
0.365079
0
This drone is made up of 1 part and has 8 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 68.1302757194519 pounds in total and can lift itself and more, thanks to its strong thrust of 320.400109863281 pounds.
This drone could not hover. The drone for a payload of 72 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 0.0-20.0526 miles, evaluated over the payload range of 0-72 pounds. This configuration has a velocity range of 3.861432e-06-18.01513 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 20.0526 miles, and can reach maximum speeds up to 18.01513 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 $4926.517, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1309.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
8
4,797.017
0.045926
1
8
0
8
52.257146
13.833873
0
66.091018
281.550092
0.567568
0.333333
0
This drone is made up of 1 part and has 8 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 66.0910181964874 pounds in total and can lift itself and more, thanks to its strong thrust of 281.550091552734 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 0.0-2.756904 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.04592583-13.35612 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 2.756904 miles, and can reach maximum speeds up to 13.35612 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 $4797.017, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1310.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2+*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
12
4,561.204
14.34459
1
8
0
8
52.257146
10.120497
0
62.377643
210.806323
0.567568
0.253968
0
This drone is made up of 1 part and has 8 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 62.3776433895111 pounds in total and can lift itself and more, thanks to its strong thrust of 210.806323242188 pounds.
This drone could not hover. The drone for a payload of 12 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 0.0-13.35128 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 10.96797-16.39143 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 13.35128 miles, and can reach maximum speeds up to 16.39143 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 $4561.204, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1311.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
12
4,534.516
1.188085
1
8
0
8
52.257146
9.700244
0
61.957389
202.800092
0.567568
0.238095
0
This drone is made up of 1 part and has 8 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 61.9573889915466 pounds in total and can lift itself and more, thanks to its strong thrust of 202.800091552734 pounds.
This drone could not hover. The drone for a payload of 12 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 0.0-16.53335 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 1.188085-20.15087 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 16.53335 miles, and can reach maximum speeds up to 20.15087 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 $4534.516, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1312.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
56
3,765.951
0.000006
1
4
0
8
38.89466
14.109445
0
53.004103
277.800073
0.486486
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 53.0041029006958 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 0.0-15.05763 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 6.451606e-06-23.34731 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 15.05763 miles, and can reach maximum speeds up to 23.34731 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 $3765.951, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1313.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2++++*eML1+++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,692.013
0.175719
1
4
0
8
38.89466
12.945142
0
51.839801
255.618814
0.486486
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 51.8398010486603 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 0.1757194-0.1757194 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 0.1757194 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 $3692.013, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1314.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2++++*eML1++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,636.451
0.290404
1
4
0
8
38.89466
12.07019
0
50.96485
238.950055
0.486486
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 50.9648495826721 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 0.2904042-0.2904042 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 0.2904042 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 $3636.451, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1315.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2++++*eML1+*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,596.638
0.363658
1
4
0
8
38.89466
11.443257
0
50.337918
227.00631
0.486486
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 50.3379181396484 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 0.3636578-0.3636578 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 0.3636578 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 $3596.638, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1316.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2++++*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,569.951
7.222743
1
4
0
8
38.89466
11.023005
0
49.917664
219.000064
0.486486
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 49.917663741684 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 7.222743-7.222743 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 7.222743 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 $3569.951, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1317.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2++*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,440.45
62.96693
1
4
0
8
38.89466
8.983749
0
47.878406
180.150046
0.486486
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 47.8784062187195 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 62.96693-62.96693 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 62.96693 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 $3440.45, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1318.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,373.95
1.458098
1
4
0
8
38.89466
7.936563
0
46.831225
160.200055
0.486486
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 46.8312245826721 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 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 1.458098-1.458098 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 1.458098 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 $3373.95, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1319.glb?download=true
*aMM0+++++*bNM2++++*cMN1++++*dLM2+*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,400.638
166.3653
1
4
0
8
38.89466
8.356815
0
47.251475
168.206287
0.486486
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 47.2514747756958 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 166.3653-166.3653 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 166.3653 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 $3400.638, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1320.glb?download=true
*aMM0+++++*bNM2++++*cMN1++*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,244.45
24.4155
1
4
0
8
38.89466
5.897307
0
44.791967
121.350037
0.486486
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 44.7919670597076 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 24.4155-24.4155 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 24.4155 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 $3244.45, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1321.glb?download=true
*aMM0+++++*bNM2++++*cMN1+*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,204.638
24.35473
1
4
0
8
38.89466
5.270374
0
44.165031
109.406278
0.486486
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 44.1650314117432 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 24.35473-24.35473 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 24.35473 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 $3204.638, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1322.glb?download=true
*aMM0+++++*bNM2++*cMN1++*dLM2++*eML1+*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,208.138
0.052153
1
4
0
8
38.89466
5.325489
0
44.22015
110.456282
0.486486
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 44.2201497756958 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 0.05215316-0.05215316 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 0.05215316 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 $3208.138, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1323.glb?download=true
*aMM0+++++*bNM2++*cMN1++*dLM2++*eML1++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
2.093724
28
3,247.95
18.85672
1
4
0
8
38.89466
5.952422
0
44.847081
122.400041
0.486486
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 44.8470812187195 pounds in total and can lift itself and more, thanks to its strong thrust of 122.40004119873 pounds.
This drone for the payload of 28 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 2.093724-17.62321 miles, evaluated over the payload range of 0-28 pounds. This configuration has a velocity range of 16.03455-20.9901 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 17.62321 miles, and can reach maximum speeds up to 20.9901 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 $3247.95, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1324.glb?download=true
*aMM0+++++*bNM2++*cMN1++*dLM2+*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
3,141.638
50.22041
1
4
0
8
38.89466
4.278303
0
43.172964
90.506277
0.486486
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 43.1729639347076 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 50.22041-50.22041 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 50.22041 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 $3141.638, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1325.glb?download=true
*aMM0+++*bNM2++++*cMN1++++*dLM2++++*eML1+++^ab^ac^ad^ae
CouldNotStabilize
0
0
3,215.422
0.351574
1
4
0
4
31.389715
12.945142
0
44.334856
255.618814
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 44.3348563556671 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 0.3515744-0.3515744 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 0.3515744 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 $3215.422, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1326.glb?download=true
*aMM0+++*bNM2++++*cMN1++++*dLM2++++*eML1+^ab^ac^ad^ae
CouldNotStabilize
0
0
3,120.047
0.753676
1
4
0
4
31.389715
11.443257
0
42.832973
227.00631
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 42.8329734466553 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 0.7536755-0.7536755 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 0.7536755 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 $3120.047, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1327.glb?download=true
*aMM0+++*bNM2++++*cMN1++++*dLM2+++*eML1^ab^ac^ad^ae
CouldNotStabilize
0
0
3,019.422
0.526746
1
4
0
4
31.389715
9.8587
0
41.248417
196.818805
0.432432
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 4 links that connect everything together securely. The drone weighs 41.2484171966553 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 0.5267461-0.5267461 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 0.5267461 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 $3019.422, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1328.glb?download=true
*aMM0+++*bNM2++++*cMN1+++*dLM2*eML1^ab^ac^ad^ae
CouldNotStabilize
0
0
2,823.422
0.238723
1
4
0
4
31.389715
6.772258
0
38.161974
138.018796
0.432432
0.37037
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 38.1619738327026 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 0.2387229-0.2387229 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 0.2387229 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 $2823.422, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1329.glb?download=true
*aMM0+++*bNM2++++*cMN1+*dLM2*eML1^ab^ac^ad^ae
CouldNotStabilize
0
0
2,728.047
0.486818
1
4
0
4
31.389715
5.270374
0
36.660087
109.406278
0.432432
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 36.66008671875 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 0.4868182-0.4868182 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 0.4868182 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 $2728.047, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1330.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
2,780.227
0.000033
1
4
0
16
28.029545
9.452226
0
37.48177
189.075064
0.405405
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 16 links that connect everything together securely. The drone weighs 37.4817699947357 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 0.0-10.64498 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 3.24591e-05-25.63641 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 10.64498 miles, and can reach maximum speeds up to 25.63641 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 $2780.227, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1331.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
4
2,536.102
0.292274
1
4
0
16
28.029545
5.607953
0
33.637497
115.837537
0.405405
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 16 links that connect everything together securely. The drone weighs 33.6374974832535 pounds in total and can lift itself and more, thanks to its strong thrust of 115.837536621094 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 0.0-0.1463871 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 0.2922738-1.503329 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 0.1463871 miles, and can reach maximum speeds up to 1.503329 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 $2536.102, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1332.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
2,414.039
0.460842
1
4
0
16
28.029545
3.685817
0
31.715362
79.218773
0.405405
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 16 links that connect everything together securely. The drone weighs 31.7153622787476 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 0.4608423-0.4608423 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 0.4608423 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 $2414.039, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1333.glb?download=true
*aMM0+++++++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1+++*hKM2+++*iMK1+++^ab^ac^ad^ae^bf^cg^dh^ei
HitBoundary
3.410761
48
4,639.701
19.85613
1
4
0
8
57.310946
9.452226
0
66.763174
189.075064
0.594595
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 66.763173777771 pounds in total and can lift itself and more, thanks to its strong thrust of 189.075064086914 pounds.
This drone for the payload of 48 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 3.410761-21.34701 miles, evaluated over the payload range of 0-48 pounds. This configuration has a velocity range of 11.91731-19.85613 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 21.34701 miles, and can reach maximum speeds up to 19.85613 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 $4639.701, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1334.glb?download=true
*aMM0+++++++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1+++*hKM2+++*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
4
4,544.326
27.63196
1
4
0
8
57.310946
7.950341
0
65.261287
160.46256
0.594595
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 65.2612866638184 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 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 0.0-0.7643715 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 8.855879-27.63196 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 0.7643715 miles, and can reach maximum speeds up to 27.63196 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 $4544.326, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1335.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2++++*eML1+++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
4
4,540.579
0.052212
1
4
0
8
52.257146
12.945142
0
65.202287
255.618814
0.567568
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 65.2022871395111 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 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 0.0-0.397404 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 0.05221212-5.878891 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 0.397404 miles, and can reach maximum speeds up to 5.878891 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 $4540.579, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1336.glb?download=true
*aMM0++++++++*bNM2++++*cMN1++++*dLM2++++*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei
CouldNotStabilize
0
0
4,418.516
1.292526
1
4
0
8
52.257146
11.023005
0
63.28015
219.000064
0.567568
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 63.2801498325348 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 1.292526-1.292526 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 1.292526 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 $4418.516, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1337.glb?download=true
*aMM0++*bNM4*cMN4*dLM4*eML4*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
4
3,056.352
1.498248
1
8
0
16
28.029545
10.650977
0
38.680523
220.912578
0.405405
0.31746
0
This drone is made up of 1 part and has 8 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 38.680522926712 pounds in total and can lift itself and more, thanks to its strong thrust of 220.912577819824 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 0.0-6.731584 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 1.498248-22.24263 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 6.731584 miles, and can reach maximum speeds up to 22.24263 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 $3056.352, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1338.glb?download=true
*aMM0++*bNM4*cMN4*dLM4*eML4*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
8
3,029.664
1.816029
1
8
0
16
28.029545
10.230726
0
38.260269
212.906332
0.405405
0.31746
0
This drone is made up of 1 part and has 8 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 38.2602685287476 pounds in total and can lift itself and more, thanks to its strong thrust of 212.906332397461 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 0.0-5.943188 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 1.816029-21.21851 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 5.943188 miles, and can reach maximum speeds up to 21.21851 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 $3029.664, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1339.glb?download=true
*aMM0++*bNM4*cMN4*dLM4*eML4*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
2,936.477
1.111615
1
8
0
16
28.029545
8.763288
0
36.792832
184.950082
0.405405
0.269841
0
This drone is made up of 1 part and has 8 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 36.7928324947357 pounds in total and can lift itself and more, thanks to its strong thrust of 184.950082397461 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 1.111615-1.111615 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 1.111615 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 $2936.477, adding up costs of all the components used to achieve this configuration.
https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1340.glb?download=true
*aMM0++*bNM4*cMN4*dLM4*eML4*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
2,830.164
0.86319
1
8
0
16
28.029545
7.08917
0
35.118715
153.056305
0.405405
0.222222
0
This drone is made up of 1 part and has 8 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 35.1187152107239 pounds in total and can lift itself and more, thanks to its strong thrust of 153.056304931641 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 0.8631901-0.8631901 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 0.8631901 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 $2830.164, adding up costs of all the components used to achieve this configuration.