Add to ORKGThis paper presents work toward the development of a novel MEMS sensing technology for AUVs. The proposed lateral line-inspired sensor system is a high-density array of pressure sensors for measuring hydrodynamic disturbances. By measuring pressure variations on a vehicle surface, a dense pressure sensor array will allow the AUV to detect, classify, and locate nearby obstacles and optimize its motion in unsteady environments. This approach is very similar to the canal lateral line system found in all fish, which allow them to function in dark or clouded environments. In order to lay the groundwork for developing the MEMS sensor and interpreting the pressure distributions, the paper also presents experiments demonstrating the discrimination...
Surface mounted ‘smart skin’ can enhance the situational and environmental awareness of marine vehic...
Fish and amphibians can sense their hydrodynamic environment via fluid flow sensing organs, called l...
Biological sensory systems often display great performance, inspiring engineers to develop artificia...
This paper presents work toward the development of a novel MEMS sensing technology for AUVs. The pro...
A novel sensory system is being developed for AUVs to augment current sensory systems for navigation...
Inspired by the lateral-line organ in fish, the ultimate objective of this project continues to be t...
Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy at the M...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2011.Cataloge...
Most fish have the capability of sensing flows and nearby movements even in dark or murky conditions...
Blind cave fish are capable of sensing flows and movements of nearby objects even in dark and murky ...
In order to perform underwater surveillance, autonomous underwater vehicles (AUVs) require flexible,...
Autonomous Underwater Vehicles are robotic vehicles that travel underwater without requiring real ti...
An engineered artificial lateral-line system has been recently developed, consisting of a 16-element...
At present, autonomous underwater vehicles (AUVs) cannot perceive local environments in complex mari...
This article reports the development of flexible arrays of soft membrane microelectromechanical syst...
Surface mounted ‘smart skin’ can enhance the situational and environmental awareness of marine vehic...
Fish and amphibians can sense their hydrodynamic environment via fluid flow sensing organs, called l...
Biological sensory systems often display great performance, inspiring engineers to develop artificia...
This paper presents work toward the development of a novel MEMS sensing technology for AUVs. The pro...
A novel sensory system is being developed for AUVs to augment current sensory systems for navigation...
Inspired by the lateral-line organ in fish, the ultimate objective of this project continues to be t...
Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy at the M...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2011.Cataloge...
Most fish have the capability of sensing flows and nearby movements even in dark or murky conditions...
Blind cave fish are capable of sensing flows and movements of nearby objects even in dark and murky ...
In order to perform underwater surveillance, autonomous underwater vehicles (AUVs) require flexible,...
Autonomous Underwater Vehicles are robotic vehicles that travel underwater without requiring real ti...
An engineered artificial lateral-line system has been recently developed, consisting of a 16-element...
At present, autonomous underwater vehicles (AUVs) cannot perceive local environments in complex mari...
This article reports the development of flexible arrays of soft membrane microelectromechanical syst...
Surface mounted ‘smart skin’ can enhance the situational and environmental awareness of marine vehic...
Fish and amphibians can sense their hydrodynamic environment via fluid flow sensing organs, called l...
Biological sensory systems often display great performance, inspiring engineers to develop artificia...