The current study presents a novel underwater propulsion system that is modeled after the caudal fin of fish, particularly tuna and other species that use thunniform swimming. The UUV has a robotic ...

The current study presents a novel underwater propulsion system that is modeled after the caudal fin of fish, particularly tuna and other species that use thunniform swimming. The UUV has a ...

"Improved propulsion systems can help push our underwater activities to the next level," she said. More information: Cecilia Huertas-Cerdeira et al, A 3-DOF caudal fin for precise maneuvering of ...

lead author of the study “A 3-DOF caudal fin for precise maneuvering of thunniform-inspired unmanned underwater vehicles”, which was published in Scientific Report. Huertas-Cerdeira analyzed ...

机器人鳍改善了力控制、回收和水的利用，使无人水下航行器（UUV）的机动性比传统螺旋桨提高了49%。 马里兰大学（UMD）的一个研究小组正在推进水下无人机技术，他们开发了一种受金枪鱼启发的机器人鳍。 为了提高速度和机动性，该项目旨在弥合无人水下 ...

机器人鳍改善了力控制、回收和水的利用，使无人水下航行器（UUV）的机动性比传统螺旋桨提高了49%。 马里兰大学（UMD）的一个研究小组正在推进 ...