Datasets:

abhi1505

/

Dataset

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https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1041.glb?download=true

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Success

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 71.4413806602478 pounds in total and can lift itself and more, thanks to its strong thrust of 219.768804931641 pounds.

This drone can fly up to 1.786619 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 8.944645 miles per hour, at its max payload capacity. This drone costs around $4836.28, adding up costs of all the components used to achieve this configuration.

This drone configuration has a feasible flying range of 0.6604769-1.786619 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 7.409487-8.944645 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 1.786619 miles, and can reach maximum speeds up to 8.944645 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 $4836.28, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1042.glb?download=true

*aMM0++++++++*bNM2+*cMN1+*dLM2+*eML1+*fOM2+++*gNN2+++*hNL3*iMO1*jLN3*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

CouldNotStabilize

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 71.0211304672241 pounds in total and can lift itself and more, thanks to its strong thrust of 211.762573242188 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 0.05928485-0.05928485 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 0.05928485 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 $4809.593, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1043.glb?download=true

*aMM0++++++++*bNM2+*cMN1+*dLM2+*eML1+*fOM2+++*gNN2++*hNL3*iMO1*jLN3*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

CouldNotStabilize

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 70.146179001236 pounds in total and can lift itself and more, thanks to its strong thrust of 195.093814086914 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 0.0528792-0.0528792 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 0.0528792 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 $4754.03, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1044.glb?download=true

*aMM0++++++++*bNM2+*cMN1+*dLM2+*eML1+*fOM2+++*gNN2*hNL3*iMO1*jLN3*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

CouldNotStabilize

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 69.0989931602478 pounds in total and can lift itself and more, thanks to its strong thrust of 175.143823242187 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 0.05335921-0.05335921 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 0.05335921 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 $4687.53, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1045.glb?download=true

*aMM0++++++++*bNM2+*cMN1+*dLM2+*eML1+*fOM2+*gNN2*hNL3*iMO1*jLN3*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

HitBoundary

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 67.597110251236 pounds in total and can lift itself and more, thanks to its strong thrust of 146.53127746582 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 4.603838-27.02687 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 9.185707-11.64646 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 27.02687 miles, and can reach maximum speeds up to 11.64646 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 $4592.155, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1046.glb?download=true

*aMM0++++++++*bNM2+*cMN1+*dLM2+*eML1+*fOM2++*gNN2*hNL3*iMO1*jLN3*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

HitBoundary

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 68.2240416942597 pounds in total and can lift itself and more, thanks to its strong thrust of 158.475064086914 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 0.1649123-2.109586 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 5.232136-22.42588 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 2.109586 miles, and can reach maximum speeds up to 22.42588 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 $4631.968, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1047.glb?download=true

*aMM0++++++++*bNM2+*cMN1+*dLM2+*eML1*fOM2*gNN2*hNL3*iMO1*jLN3*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

CouldNotStabilize

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 66.7566056602478 pounds in total and can lift itself and more, thanks to its strong thrust of 130.518786621094 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 0.0-29.64346 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 9.131497-27.1392 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 29.64346 miles, and can reach maximum speeds up to 27.1392 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 $4538.78, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1048.glb?download=true

*aMM0++++++++*bNM2+*cMN1+*dLM2+*eML1+*fOM2*gNN2*hNL3*iMO1*jLN3*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

HitBoundary

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 67.1768558532715 pounds in total and can lift itself and more, thanks to its strong thrust of 138.525045776367 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 1.905953-29.68507 miles, evaluated over the payload range of 0-24 pounds. This configuration has a velocity range of 9.140346-10.4103 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 29.68507 miles, and can reach maximum speeds up to 10.4103 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 $4565.468, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1049.glb?download=true

*aMM0+++++++*bNM2*cMN1*dLM2*eML1*fOM2*gNN2*hNL3*iMO1*jLN3*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

CouldNotStabilize

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 60.748258265686 pounds in total and can lift itself and more, thanks to its strong thrust of 106.500022888184 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 0.0-31.26163 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 0.07498379-10.92664 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 31.26163 miles, and can reach maximum speeds up to 10.92664 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 $4157.229, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1050.glb?download=true

*aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2*gNN2*hNL3*iMO1*jLN3*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

HitBoundary

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 52.1333647853851 pounds in total and can lift itself and more, thanks to its strong thrust of 106.500022888184 pounds.

This drone for the payload of 20 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 0.7297072-36.61736 miles, evaluated over the payload range of 0-20 pounds. This configuration has a velocity range of 9.16229-19.82739 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 36.61736 miles, and can reach maximum speeds up to 19.82739 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 $3610.152, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1051.glb?download=true

*aMM0++++*bNM2*cMN1*dLM2*eML1*fOM2*gNN2*hNL3*iMO1*jLN3*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

CouldNotStabilize

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 48.2469314350128 pounds in total and can lift itself and more, thanks to its strong thrust of 106.500022888184 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 6.595184-6.595184 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 9.244251-9.244251 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 6.595184 miles, and can reach maximum speeds up to 9.244251 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 $3363.349, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1052.glb?download=true

*aMM0++*bNM2*cMN1*dLM2*eML1*fOM2*gNN2*hNL3*iMO1*jLN3*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

CouldNotStabilize

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 41.2682476974487 pounds in total and can lift itself and more, thanks to its strong thrust of 106.500022888184 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 4.986071-4.986071 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 15.8197-15.8197 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 4.986071 miles, and can reach maximum speeds up to 15.8197 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 $2920.178, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1053.glb?download=true

*aMM0+*bNM2*cMN1*dLM2*eML1*fOM2*gNN2*hNL3*iMO1*jLN3*kKM2*lLL2*mMK1^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

CouldNotStabilize

This drone is made up of 1 part and has 10 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 38.1568732395172 pounds in total and can lift itself and more, thanks to its strong thrust of 106.500022888184 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 4.651294-4.651294 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 17.68187-17.68187 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 4.651294 miles, and can reach maximum speeds up to 17.68187 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 $2722.594, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1054.glb?download=true

*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2+*gMO1+*hKM2+*iMK1+*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

HitBoundary

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 28.3628554908752 pounds in total and can lift itself and more, thanks to its strong thrust of 74.6250114440918 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 1.646806-12.0548 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 10.32127-26.08676 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 12.0548 miles, and can reach maximum speeds up to 26.08676 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 $2201.143, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1055.glb?download=true

*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2+*gMO1+*hKM2+*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 27.9426052978516 pounds in total and can lift itself and more, thanks to its strong thrust of 66.6187591552734 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 0.1268849-0.1268849 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 0.1268849 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 $2174.456, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1056.glb?download=true

*aMM0*bNM2++*cMN1++*dLM2++*eML1++*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 27.9984237844467 pounds in total and can lift itself and more, thanks to its strong thrust of 122.40004119873 pounds.

This drone could not hover. The drone for a payload of 40 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-8.263217 miles, evaluated over the payload range of 0-40 pounds. This configuration has a velocity range of 5.492704e-05-25.30056 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 8.263217 miles, and can reach maximum speeds up to 25.30056 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 $2178.0, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1057.glb?download=true

*aMM0*bNM2++*cMN1++*dLM2++*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 26.951240045929 pounds in total and can lift itself and more, thanks to its strong thrust of 102.450029754639 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 0.4258581-0.4258581 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 0.4258581 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 $2111.5, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1058.glb?download=true

*aMM0*bNM2++*cMN1++*dLM2+*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 26.3243043979645 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 0.1705627-0.1705627 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 0.1705627 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 $2071.688, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1059.glb?download=true

*aMM0*bNM2++*cMN1++*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 25.9040542049408 pounds in total and can lift itself and more, thanks to its strong thrust of 82.500025177002 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 0.0-0.07488439 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 0.06512666-0.9705824 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 0.07488439 miles, and can reach maximum speeds up to 0.9705824 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 $2045.0, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1060.glb?download=true

*aMM0*bNM2++*cMN1+*dLM2*eML1*fOM4*gMO4*hKM4*iMK4^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 25.2771206594467 pounds in total and can lift itself and more, thanks to its strong thrust of 70.5562660217285 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 0.237915-0.237915 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 0.237915 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 $2005.188, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1061.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

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 39.1592175918579 pounds in total and can lift itself and more, thanks to its strong thrust of 362.025109863281 pounds.

This drone can fly up to 0.02537731 miles. It can carry heavy things, up to 84 pounds. Also, it can achieve a max speed of 2.285478 miles per hour, at its max payload capacity. This drone costs around $3486.75, adding up costs of all the components used to achieve this configuration.

This drone configuration has a feasible flying range of 0.006794218-5.007089 miles, evaluated over the payload range of 0-84 pounds. This configuration has a velocity range of 0.8928012-22.44804 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 5.007089 miles, and can reach maximum speeds up to 22.44804 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 $3486.75, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1062.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

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 38.5322819438934 pounds in total and can lift itself and more, thanks to its strong thrust of 350.081350708008 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 0.0-5.193872 miles, evaluated over the payload range of 0-68 pounds. This configuration has a velocity range of 0.07114402-22.74746 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 5.193872 miles, and can reach maximum speeds up to 22.74746 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 $3446.938, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1063.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

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 38.1120317508698 pounds in total and can lift itself and more, thanks to its strong thrust of 342.075119018555 pounds.

This drone could not hover. The drone for a payload of 44 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-5.328138 miles, evaluated over the payload range of 0-44 pounds. This configuration has a velocity range of 0.07950754-22.94842 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 5.328138 miles, and can reach maximum speeds up to 22.94842 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 $3420.25, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1064.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

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 37.4850961029053 pounds in total and can lift itself and more, thanks to its strong thrust of 330.131359863281 pounds.

This drone could not hover. The drone for a payload of 40 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-5.51777 miles, evaluated over the payload range of 0-40 pounds. This configuration has a velocity range of 0.07588043-23.22524 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 5.51777 miles, and can reach maximum speeds up to 23.22524 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 $3380.438, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1065.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

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 37.0648459098816 pounds in total and can lift itself and more, thanks to its strong thrust of 322.125128173828 pounds.

This drone could not hover. The drone for a payload of 32 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-5.651861 miles, evaluated over the payload range of 0-32 pounds. This configuration has a velocity range of 0.07580744-23.41599 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 5.651861 miles, and can reach maximum speeds up to 23.41599 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 $3353.75, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1066.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

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 36.0176642738342 pounds in total and can lift itself and more, thanks to its strong thrust of 302.175137329102 pounds.

This drone could not hover. The drone for a payload of 44 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-6.002306 miles, evaluated over the payload range of 0-44 pounds. This configuration has a velocity range of 0.09600972-23.89822 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 6.002306 miles, and can reach maximum speeds up to 23.89822 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 $3287.251, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1067.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

This drone is made up of 1 part and has 16 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 35.3907286258698 pounds in total and can lift itself and more, thanks to its strong thrust of 290.231378173828 pounds.

This drone could not hover. The drone for a payload of 32 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-6.235469 miles, evaluated over the payload range of 0-32 pounds. This configuration has a velocity range of 0.09536872-24.17826 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 6.235469 miles, and can reach maximum speeds up to 24.17826 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 $3247.438, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1068.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

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 34.3435427848816 pounds in total and can lift itself and more, thanks to its strong thrust of 270.281359863281 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 0.3662131-0.3662131 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 0.3662131 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 $3180.938, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1069.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

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 32.8761046483994 pounds in total and can lift itself and more, thanks to its strong thrust of 242.325109863281 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 0.0-7.721205 miles, evaluated over the payload range of 0-36 pounds. This configuration has a velocity range of 0.1182762-25.99819 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 7.721205 miles, and can reach maximum speeds up to 25.99819 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 $3087.75, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1070.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

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 33.2963569438934 pounds in total and can lift itself and more, thanks to its strong thrust of 250.331369018555 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 0.3284562-0.3284562 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 0.3284562 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 $3114.438, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1071.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

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 31.8289188074112 pounds in total and can lift itself and more, thanks to its strong thrust of 222.375119018555 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 0.0-9.195287 miles, evaluated over the payload range of 0-48 pounds. This configuration has a velocity range of 0.1101107-28.57614 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 9.195287 miles, and can reach maximum speeds up to 28.57614 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 $3021.25, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1072.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

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 31.2019852619171 pounds in total and can lift itself and more, thanks to its strong thrust of 210.431332397461 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 0.0-10.23665 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 0.6659582-31.95951 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 10.23665 miles, and can reach maximum speeds up to 31.95951 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 $2981.438, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1073.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

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 30.361480670929 pounds in total and can lift itself and more, thanks to its strong thrust of 194.418841552734 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 0.0-10.86259 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 1.022672-40.55816 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 10.86259 miles, and can reach maximum speeds up to 40.55816 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 $2928.063, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1074.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

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 29.5209760799408 pounds in total and can lift itself and more, thanks to its strong thrust of 178.406323242188 pounds.

This drone could not hover. The drone for a payload of 52 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 0.0-11.2232 miles, evaluated over the payload range of 0-52 pounds. This configuration has a velocity range of 0.5501816-43.57113 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 11.2232 miles, and can reach maximum speeds up to 43.57113 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 $2874.6879999999996, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1075.glb?download=true

*aMM0++*bNM4*cMN4*dLM4*eML4*fOM2+*gMO1+*hKM2+*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei

HitBoundary

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 31.4742341537476 pounds in total and can lift itself and more, thanks to its strong thrust of 74.6250114440918 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 2.3709-14.09296 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 15.30087-25.2714 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 14.09296 miles, and can reach maximum speeds up to 25.2714 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 $2398.727, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1076.glb?download=true

*aMM0++*bNM4*cMN4*dLM4*eML4*fOM2+*gMO1+*hKM2+*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 31.0539818582535 pounds in total and can lift itself and more, thanks to its strong thrust of 66.6187591552734 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 0.09592004-0.09592004 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 0.09592004 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 $2372.039, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1077.glb?download=true

*aMM0++++++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1+++*hKM2+++*iMK1+++^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 61.709373173523 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 0.0-20.384 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 3.463693e-06-16.41116 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 20.384 miles, and can reach maximum speeds up to 16.41116 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 $4318.766, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1078.glb?download=true

*aMM0++++++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1+++*hKM2+++*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 60.2074860595703 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 0.0-0.5430546 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 0.1411235-7.593136 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 0.5430546 miles, and can reach maximum speeds up to 7.593136 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 $4223.391, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1079.glb?download=true

*aMM0++++++++*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1+++*hKM2++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 58.9122844005585 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 18.85367-18.85367 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 18.85367 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 $4141.141, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1080.glb?download=true

*aMM0+++*bNM2++++*cMN1++++*dLM2++++*eML1++*fOM2*gMO1*hKM2*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 45.2235874126434 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 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 0.2101189-0.2101189 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 0.2101189 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 $3471.86, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1081.glb?download=true

*aMM0+++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2*gMO1*hKM2*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 47.2628449356079 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 0.0-11.22398 miles, evaluated over the payload range of 0-72 pounds. This configuration has a velocity range of 1.741351e-05-25.99565 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 11.22398 miles, and can reach maximum speeds up to 25.99565 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 $3601.3599999999997, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1082.glb?download=true

*aMM0+++*bNM2++++*cMN1++++*dLM2++++*eML1+*fOM2*gMO1*hKM2*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 44.596651764679 pounds in total and can lift itself and more, thanks to its strong thrust of 269.606332397461 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 0.2681005-0.2681005 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 0.2681005 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 $3432.047, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1083.glb?download=true

*aMM0+++*bNM2++++*cMN1++++*dLM2++++*eML1*fOM2*gMO1*hKM2*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 44.1764015716553 pounds in total and can lift itself and more, thanks to its strong thrust of 261.600100708008 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 0.3051348-0.3051348 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 0.3051348 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 $3405.36, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1084.glb?download=true

*aMM0+++*bNM2++++*cMN1++++*dLM2+*eML1*fOM2*gMO1*hKM2*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 41.5102126056671 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 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 0.04067653-0.04067653 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 0.04067653 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 $3236.047, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1085.glb?download=true

*aMM0+++*bNM2++++*cMN1++++*dLM2++*eML1*fOM2*gMO1*hKM2*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 42.1371482536316 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 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 0.09582628-0.09582628 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 0.09582628 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 $3275.86, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1086.glb?download=true

*aMM0+++*bNM2++++*cMN1++++*dLM2*eML1*fOM2*gMO1*hKM2*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 41.0899582077026 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 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 0.0-3.664995 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 0.05479027-17.31557 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 3.664995 miles, and can reach maximum speeds up to 17.31557 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 $3209.36, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1087.glb?download=true

*aMM0+++*bNM2++++*cMN1+++*dLM2*eML1*fOM2*gMO1*hKM2*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 39.9256521507263 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 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 0.0938321-0.0938321 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 0.0938321 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 $3135.422, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1088.glb?download=true

*aMM0+++*bNM2++++*cMN1+*dLM2*eML1*fOM2*gMO1*hKM2*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 38.4237692417145 pounds in total and can lift itself and more, thanks to its strong thrust of 152.006314086914 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 0.1939549-0.1939549 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 0.1939549 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 $3040.047, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1089.glb?download=true

*aMM0+++*bNM2++++*cMN1*dLM2*eML1*fOM2*gMO1*hKM2*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 38.00351484375 pounds in total and can lift itself and more, thanks to its strong thrust of 144.000054931641 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 0.2184179-0.2184179 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 0.2184179 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 $3013.36, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1090.glb?download=true

*aMM0+++*bNM2++++*cMN1++*dLM2*eML1*fOM2*gMO1*hKM2*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 39.0507006847382 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 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 0.1546509-0.1546509 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 0.1546509 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 $3079.86, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1091.glb?download=true

*aMM0+++*bNM2+++*cMN1*dLM2*eML1*fOM2*gMO1*hKM2*iMK1*jPM4*kMP4*lJM4*mMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^gk^hl^im

CouldNotStabilize

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 36.8392129917145 pounds in total and can lift itself and more, thanks to its strong thrust of 121.818782043457 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 0.1255222-0.1255222 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 0.1255222 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 $2939.422, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1092.glb?download=true

*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+++*gMO1+++*hKM2+++*iMK1+++^ab^ac^ad^ae^bf^cg^dh^ei

Success

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 80.8726171417236 pounds in total and can lift itself and more, thanks to its strong thrust of 466.875109863281 pounds.

This drone can fly up to 1.60762 miles. It can carry heavy things, up to 100 pounds. Also, it can achieve a max speed of 9.984492 miles per hour, at its max payload capacity. This drone costs around $5735.701, adding up costs of all the components used to achieve this configuration.

This drone configuration has a feasible flying range of 1.60762-19.74332 miles, evaluated over the payload range of 0-100 pounds. This configuration has a velocity range of 9.984492-17.76882 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 19.74332 miles, and can reach maximum speeds up to 17.76882 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 $5735.701, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1093.glb?download=true

*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+++*gMO1+++*hKM2+++*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 79.370730027771 pounds in total and can lift itself and more, thanks to its strong thrust of 438.262591552734 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 0.0-0.5812876 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.05470645-8.275815 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 0.5812876 miles, and can reach maximum speeds up to 8.275815 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 $5640.326, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1094.glb?download=true

*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+++*gMO1+++*hKM2+++*iMK1++^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 79.9976698806763 pounds in total and can lift itself and more, thanks to its strong thrust of 450.206350708008 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 0.0-2.924366 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 0.0462115-13.52334 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 2.924366 miles, and can reach maximum speeds up to 13.52334 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 $5680.139, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1095.glb?download=true

*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+++*gMO1+++*hKM2+++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

Success

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 78.9504798347473 pounds in total and can lift itself and more, thanks to its strong thrust of 430.256359863281 pounds.

This drone can fly up to 13.71144 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 15.73819 miles per hour, at its max payload capacity. This drone costs around $5613.639, adding up costs of all the components used to achieve this configuration.

This drone configuration has a feasible flying range of 0.3221064-13.71144 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 0.3125104-15.73819 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 13.71144 miles, and can reach maximum speeds up to 15.73819 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 $5613.639, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1096.glb?download=true

*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+++*gMO1+++*hKM2++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

Success

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 78.0755325737 pounds in total and can lift itself and more, thanks to its strong thrust of 413.587600708008 pounds.

This drone can fly up to 2.636101 miles. It can carry heavy things, up to 8 pounds. Also, it can achieve a max speed of 12.54219 miles per hour, at its max payload capacity. This drone costs around $5558.076, adding up costs of all the components used to achieve this configuration.

This drone configuration has a feasible flying range of 0.1494011-2.636101 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.4623104-12.54219 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 2.636101 miles, and can reach maximum speeds up to 12.54219 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 $5558.076, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1097.glb?download=true

*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+++*gMO1+++*hKM2+*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

Success

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 77.4486011306763 pounds in total and can lift itself and more, thanks to its strong thrust of 401.643841552734 pounds.

This drone can fly up to 2.240494 miles. It can carry heavy things, up to 8 pounds. Also, it can achieve a max speed of 11.7961 miles per hour, at its max payload capacity. This drone costs around $5518.264, adding up costs of all the components used to achieve this configuration.

This drone configuration has a feasible flying range of 1.482164-6.65987 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 10.42619-15.59586 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 6.65987 miles, and can reach maximum speeds up to 15.59586 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 $5518.264, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1098.glb?download=true

*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+++*gMO1++*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 76.1533952667236 pounds in total and can lift itself and more, thanks to its strong thrust of 376.968850708008 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 0.0-4.754539 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.09120212-14.45998 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 4.754539 miles, and can reach maximum speeds up to 14.45998 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 $5436.013, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1099.glb?download=true

*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2+++*gMO1+*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 75.5264554138184 pounds in total and can lift itself and more, thanks to its strong thrust of 365.025091552734 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 0.0-2.061556 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.09903622-11.50267 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 2.061556 miles, and can reach maximum speeds up to 11.50267 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 $5396.201, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1100.glb?download=true

*aMM0+++++++++*bNM2++++*cMN1++++*dLM2++++*eML1++++*fOM2++*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

Success

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 74.2312579597473 pounds in total and can lift itself and more, thanks to its strong thrust of 340.350100708008 pounds.

This drone can fly up to 16.68525 miles. It can carry heavy things, up to 4 pounds. Also, it can achieve a max speed of 15.6635 miles per hour, at its max payload capacity. This drone costs around $5313.951, adding up costs of all the components used to achieve this configuration.

This drone configuration has a feasible flying range of 3.245832-16.68525 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 13.10406-15.6635 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 16.68525 miles, and can reach maximum speeds up to 15.6635 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 $5313.951, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1101.glb?download=true

*aMM0+++++++++*bNM2++++*cMN1++++*dLM2*eML1*fOM2*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 67.0111895957947 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 0.0-18.93183 miles, evaluated over the payload range of 0-12 pounds. This configuration has a velocity range of 3.659162-16.43575 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 18.93183 miles, and can reach maximum speeds up to 16.43575 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 $4855.451, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1102.glb?download=true

*aMM0+++*bNM3*cMN3*dLM4*eML4*fOM2+++*gMO1+++*hKM2+++*iMK1+++^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 8 links that connect everything together securely. The drone weighs 49.6714434333801 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 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 0.1090964-0.1090964 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 0.1090964 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3153.811, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1103.glb?download=true

*aMM0+++*bNM3*cMN3*dLM4*eML4*fOM2+++*gMO1+++*hKM2+++*iMK1++^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 8 links that connect everything together securely. The drone weighs 48.796491967392 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 0.3308027-0.3308027 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 0.3308027 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 $3098.249, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1104.glb?download=true

*aMM0+++*bNM3*cMN3*dLM4*eML4*fOM2+++*gMO1+++*hKM2+*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 8 links that connect everything together securely. The drone weighs 46.247423217392 pounds in total and can lift itself and more, thanks to its strong thrust of 123.843795776367 pounds.

This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2400808-0.2400808 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 0.2400808 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 $2936.374, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1105.glb?download=true

*aMM0+++*bNM2+++*cMN1+++*dLM2+++*eML1+++*fOM4*gMO4*hKM4*iMK4*jPM4*kON4*lOL4*mNO4*nMP4*oLO4*pKN4*qJM4*rKL4*sNK4*tLK4*uMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^fk^fl^gm^gn^go^hp^hq^hr^is^it^iu

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 40.841942389679 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 0.0-12.7283 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 1.367492e-05-25.10316 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 12.7283 miles, and can reach maximum speeds up to 25.10316 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 $2993.61, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1106.glb?download=true

*aMM0+++*bNM2+++*cMN1+++*dLM2++*eML1*fOM4*gMO4*hKM4*iMK4*jPM4*kON4*lOL4*mNO4*nMP4*oLO4*pKN4*qJM4*rKL4*sNK4*tLK4*uMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^fk^fl^gm^gn^go^hp^hq^hr^is^it^iu

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 38.0448536167145 pounds in total and can lift itself and more, thanks to its strong thrust of 135.787554931641 pounds.

This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.2360209-0.2360209 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 0.2360209 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 $2815.985, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1107.glb?download=true

*aMM0+++*bNM2+++*cMN1+++*dLM2+++*eML1*fOM4*gMO4*hKM4*iMK4*jPM4*kON4*lOL4*mNO4*nMP4*oLO4*pKN4*qJM4*rKL4*sNK4*tLK4*uMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^fk^fl^gm^gn^go^hp^hq^hr^is^it^iu

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 38.9198050827026 pounds in total and can lift itself and more, thanks to its strong thrust of 152.456314086914 pounds.

This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.4599866-0.4599866 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 0.4599866 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 $2871.547, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1108.glb?download=true

*aMM0+++*bNM2+++*cMN1+++*dLM2*eML1*fOM4*gMO4*hKM4*iMK4*jPM4*kON4*lOL4*mNO4*nMP4*oLO4*pKN4*qJM4*rKL4*sNK4*tLK4*uMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^fk^fl^gm^gn^go^hp^hq^hr^is^it^iu

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 36.9976677757263 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 0.0-1.503663 miles, evaluated over the payload range of 0-4 pounds. This configuration has a velocity range of 8.264526-12.80708 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 1.503663 miles, and can reach maximum speeds up to 12.80708 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 $2749.485, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1109.glb?download=true

*aMM0+++*bNM2+++*cMN1++*dLM2*eML1*fOM4*gMO4*hKM4*iMK4*jPM4*kON4*lOL4*mNO4*nMP4*oLO4*pKN4*qJM4*rKL4*sNK4*tLK4*uMJ4^ab^ac^ad^ae^bf^cg^dh^ei^fj^fk^fl^gm^gn^go^hp^hq^hr^is^it^iu

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 36.1227163097382 pounds in total and can lift itself and more, thanks to its strong thrust of 99.1687774658203 pounds.

This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.1553238-0.1553238 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 0.1553238 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 $2693.922, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1110.glb?download=true

*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++++*hKM2++++*iMK1++++^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 39.0276113548279 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 52 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 0.0-6.839852 miles, evaluated over the payload range of 0-52 pounds. This configuration has a velocity range of 1.080883e-06-23.93284 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 6.839852 miles, and can reach maximum speeds up to 23.93284 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 $2878.393, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1111.glb?download=true

*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++++*hKM2++++*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 36.3614265937805 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 1.139399-1.139399 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 1.139399 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 $2709.081, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1112.glb?download=true

*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++++*hKM2++++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 35.941172195816 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 1.305256-1.305256 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 1.305256 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 $2682.393, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1113.glb?download=true

*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++++*hKM2+++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 34.7768682413101 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 0.791967-0.791967 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 0.791967 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 $2608.456, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1114.glb?download=true

*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++++*hKM2++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 33.901916775322 pounds in total and can lift itself and more, thanks to its strong thrust of 180.150045776367 pounds.

This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.4347642-0.4347642 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 0.4347642 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 $2552.893, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1115.glb?download=true

*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++++*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 32.8547309343338 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 0.146993-0.146993 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 0.146993 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 $2486.393, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1116.glb?download=true

*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1+++*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 31.6904269798279 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 0.4396334-0.4396334 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 0.4396334 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 $2412.456, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1117.glb?download=true

*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1++*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 30.8154755138397 pounds in total and can lift itself and more, thanks to its strong thrust of 121.350036621094 pounds.

This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.7277651-0.7277651 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 0.7277651 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 $2356.893, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1118.glb?download=true

*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2++++*gMO1+*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 30.1885419683456 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 0.9216242-0.9216242 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 0.9216242 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 $2317.081, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1119.glb?download=true

*aMM0+*bNM4*cMN4*dLM4*eML4*fOM2+++*gMO1*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 8 links that connect everything together securely. The drone weighs 28.6039857183456 pounds in total and can lift itself and more, thanks to its strong thrust of 79.2187728881836 pounds.

This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.6075367-0.6075367 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 0.6075367 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $2216.456, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1120.glb?download=true

*aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4*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

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 51.6358530101776 pounds in total and can lift itself and more, thanks to its strong thrust of 172.406318664551 pounds.

This drone could not hover. The drone for a payload of 0 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-0.0 miles, evaluated over the payload range of 0-0 pounds. This configuration has a velocity range of 0.0586792-0.0586792 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 0.0586792 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3679.062, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1121.glb?download=true

*aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4*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

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 52.5108044761658 pounds in total and can lift itself and more, thanks to its strong thrust of 189.075064086914 pounds.

This drone could not hover. The drone for a payload of 56 pounds, could not accomplish a successful run, the reason being either the motors could not provide enough lift or the drone did not balance properly after flight.

This drone configuration has a feasible flying range of 0.0-18.13076 miles, evaluated over the payload range of 0-56 pounds. This configuration has a velocity range of 9.646685e-06-20.23855 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 18.13076 miles, and can reach maximum speeds up to 20.23855 mph. This means that while the drone does well in many situations, how far and fast it can fly can vary with how much payload it carries. This drone costs around $3734.6240000000003, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1122.glb?download=true

*aMM0++++++*bNM4*cMN4*dLM4*eML4*fOM4*gNN4*hNL4*iMO4*jLN4*kKM4*lLL4*mMK4*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

This drone is made up of 1 part and has 4 engines that help it move. It also has 0 wings for better flying. It has 20 links that connect everything together securely. The drone weighs 50.5886671691895 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 46.71245-46.71245 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 46.71245 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 $3612.562, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1123.glb?download=true

*aMM0+++++++++*bNM2+++*cMN1+++*dLM2+++*eML1^ab^ac^ad^ae

CouldNotStabilize

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 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 3.560654-3.560654 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 3.560654 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/1124.glb?download=true

*aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2+++*gMO1+++*hKM2+++*iMK1+++^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 50.1105654006958 pounds in total and can lift itself and more, thanks to its strong thrust of 231.675073242187 pounds.

This drone could not hover. The drone for a payload of 76 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 0.0-16.43 miles, evaluated over the payload range of 0-76 pounds. This configuration has a velocity range of 5.495633e-06-22.73717 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 16.43 miles, and can reach maximum speeds up to 22.73717 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 $3782.201, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1125.glb?download=true

*aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2+++*gMO1+++*hKM2+++*iMK1++^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 49.2356181396484 pounds in total and can lift itself and more, thanks to its strong thrust of 215.006327819824 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 0.07337287-0.07337287 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 0.07337287 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 $3726.638, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1126.glb?download=true

*aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2+++*gMO1+++*hKM2+++*iMK1+^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 48.608682491684 pounds in total and can lift itself and more, thanks to its strong thrust of 203.062568664551 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 0.1201416-0.1201416 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 0.1201416 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 $3686.825, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1127.glb?download=true

*aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2+++*gMO1+++*hKM2+++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 48.1884322986603 pounds in total and can lift itself and more, thanks to its strong thrust of 195.056323242188 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 0.1485798-0.1485798 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 0.1485798 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 $3660.138, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1128.glb?download=true

*aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2+++*gMO1+++*hKM2++*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 47.3134808326721 pounds in total and can lift itself and more, thanks to its strong thrust of 178.387564086914 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 0.07522709-0.07522709 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 0.07522709 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 $3604.575, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1129.glb?download=true

*aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2+++*gMO1+++*hKM2+*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 46.6865451847076 pounds in total and can lift itself and more, thanks to its strong thrust of 166.443804931641 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 0.0-0.9483638 miles, evaluated over the payload range of 0-8 pounds. This configuration has a velocity range of 0.049347-9.861147 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 0.9483638 miles, and can reach maximum speeds up to 9.861147 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 $3564.7630000000004, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1130.glb?download=true

*aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2+++*gMO1++*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 45.3913435256958 pounds in total and can lift itself and more, thanks to its strong thrust of 141.768786621094 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 0.0531348-0.0531348 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 0.0531348 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 $3482.513, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1131.glb?download=true

*aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2+++*gMO1+++*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 46.266294991684 pounds in total and can lift itself and more, thanks to its strong thrust of 158.437545776367 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 0.0-9.895705 miles, evaluated over the payload range of 0-16 pounds. This configuration has a velocity range of 0.3099524-19.94193 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 9.895705 miles, and can reach maximum speeds up to 19.94193 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 $3538.075, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1132.glb?download=true

*aMM0+++++*bNM2*cMN1*dLM2*eML1*fOM2+++*gMO1+*hKM2*iMK1^ab^ac^ad^ae^bf^cg^dh^ei

CouldNotStabilize

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 44.7644078777313 pounds in total and can lift itself and more, thanks to its strong thrust of 129.82502746582 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 0.08715162-0.08715162 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 0.08715162 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 $3442.7, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1133.glb?download=true

*aMM0+++++++*bNM2+++*cMN1+++*dLM2+++*eML1+++*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 65.7912816066742 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 52 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 0.0-27.8566 miles, evaluated over the payload range of 0-52 pounds. This configuration has a velocity range of 4.327445e-05-12.32703 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 27.8566 miles, and can reach maximum speeds up to 12.32703 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 $4177.479, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1134.glb?download=true

*aMM0+++++++*bNM2+++*cMN1+++*dLM2+++*eML1++*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

CouldNotStabilize

This drone is made up of 1 part and has 4 engines that help it move. It also has 2 wings for better flying. It has 16 links that connect everything together securely. The drone weighs 64.916330140686 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 0.06837641-0.06837641 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 0.06837641 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 $4121.916, adding up costs of all the components used to achieve this configuration.

https://huggingface.co/datasets/abhi1505/HUVER/resolve/main/train/glb/1135.glb?download=true

*aMM0+++++++*bNM2+++*cMN1+++*dLM2+++*eML1+*fOM4*gNN4*hNL3*iMO4*jLN3*kKM4*lLL4*mMK4^ab^ac^ad^ae^bf^bg^bh^ci^cj^dk^dl^em^cg^dj^eh^el

CouldNotStabilize