Airicist2
9th February 2023, 00:54
Developer - CHEN Benmei (https://www4.mae.cuhk.edu.hk/peoples/chen-benmei)
zhuanzhi.ai/paper/bd0b19f6650362f910e32ff5f83fd48b (https://www.zhuanzhi.ai/paper/bd0b19f6650362f910e32ff5f83fd48b)
zhuanzhi.ai/paper/1fb0f5ad764b5b2c389dc010583fd1bc (https://www.zhuanzhi.ai/paper/1fb0f5ad764b5b2c389dc010583fd1bc)
Airicist2
9th February 2023, 02:21
https://youtu.be/jlMDabBfJp0
Waterproof drone can fly and swim using the same four propellers
Feb 6, 2023
Mirs-X is a quadcopter that flies like a standard drone but can also swim, using the same four propellers. Researchers at the Chinese University of Hong Kong have designed the prototype to hover for six minutes in air, or around 40 minutes underwater.
They plan to develop larger versions of the device which could be used for search and rescue or carrying out engineering inspections where it can observe from high altitudes before descending into the water for a closer look.
"Diving drone can switch between flying and swimming (https://www.newscientist.com/article/2357125-diving-drone-can-switch-between-flying-and-swimming)"
A drone that can fly like a standard quadcopter but also operate underwater could be developed as a tool for engineers and search and rescue teams
by Matthew Sparkes (https://www.linkedin.com/in/matthewsparkes)
February 6, 2023
Airicist2
9th February 2023, 02:57
https://youtu.be/NhUJ9k3krCA
TJ-FlyingFish flying/aquatic drone
Feb 7, 2023
This specialized quadcopter is capable of both aerial flight and underwater exploration.
"TJ-FlyingFish drone flies through the air and "swims" underwater (https://newatlas.com/drones/tj-flyingfish-aerial-underwater-drone)"
by Ben Coxworth (https://www.linkedin.com/in/benjamin-coxworth-b9394942)
February 7, 2023
Airicist2
3rd June 2023, 00:27
https://youtu.be/EutFWW-mAUg
TJ-FlyingFish: Aerial-Aquatic Quadrotor With Tiltable Propulsion
Jun 2, 2023
"TJ-FlyingFish: Design and Implementation of an Aerial-Aquatic Quadrotor With Tiltable Propulsion Units," by Xuchen Liu, Minghao Dou, Dongyue Huang, Songqun Gao, Ruixin Yan, Biao Wang, Jinqiang Cui, Qinyuan Ren, Lihua Dou, Zhi Gao, Jie Chen, and Ben M. Chen from Shanghai Research Institute for Intelligent Autonomous Systems, Tongji University, Shanghai, China; Chinese University of Hong Kong, Hong Kong, China; Nanjing University of Aeronautics and Astronautics, Nanjing, Jiangsu, China; Peng Cheng Laboratory, Shenzhen, Guangdong, China; Zhejiang University, Hangzhou, Zhejiang, China; Beijing Institute of Technology, Beijing, China; and Wuhan University, Wuhan, Hubei, China.
Presented at the 2023 IEEE International Conference on Robotics and Automation (ICRA)
https://www.icra2023.org