Nearly all underwater vehicles and surface ships today use sonar and vision for imaging and navigation. However, sonar and vision systems face various limitations, e.g., sonar blind zones, dark or murky environments, etc. Evolved over millions of years, fish use the lateral line, a distributed linear array of flow sensing organs, for underwater hydrodynamic imaging and information extraction. We demonstrate here a proof-of-concept artificial lateral line system. It enables a distant touch hydrodynamic imaging capability to critically augment sonar and vision systems. We show that the artificial lateral line can successfully perform dipole source localization and hydrodynamic wake detection. The development of the artificial lateral line is ...
Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction...
110 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2008.This dissertation describes a...
In nature, the lateral line of fish is a peculiar and important organ for sensing the surrounding h...
Nearly all underwater vehicles and surface ships today use sonar and vision for imaging and navigati...
Fish and amphibians can sense their hydrodynamic environment via fluid flow sensing organs, called l...
Most fish have the capability of sensing flows and nearby movements even in dark or murky conditions...
Artificial lateral lines are fluid flow sensor arrays, bio-inspired by the fish lateral line organ, ...
Fish use their lateral line system to detect minute water motions. The lateral line consists of supe...
Biological sensory systems often display great performance, inspiring engineers to develop artificia...
Fish possesses a unique sensory organ called the lateral line. The lateral line provides fish with f...
Any phenomenon in nature is potential to be an inspiration for us to propose new ideas. Lateral line...
An engineered artificial lateral-line system has been recently developed, consisting of a 16-element...
Lateral line is a system of sense organs that can aid fishes to maneuver in a dark environment. Arti...
Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction...
110 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2008.This dissertation describes a...
In nature, the lateral line of fish is a peculiar and important organ for sensing the surrounding h...
Nearly all underwater vehicles and surface ships today use sonar and vision for imaging and navigati...
Fish and amphibians can sense their hydrodynamic environment via fluid flow sensing organs, called l...
Most fish have the capability of sensing flows and nearby movements even in dark or murky conditions...
Artificial lateral lines are fluid flow sensor arrays, bio-inspired by the fish lateral line organ, ...
Fish use their lateral line system to detect minute water motions. The lateral line consists of supe...
Biological sensory systems often display great performance, inspiring engineers to develop artificia...
Fish possesses a unique sensory organ called the lateral line. The lateral line provides fish with f...
Any phenomenon in nature is potential to be an inspiration for us to propose new ideas. Lateral line...
An engineered artificial lateral-line system has been recently developed, consisting of a 16-element...
Lateral line is a system of sense organs that can aid fishes to maneuver in a dark environment. Arti...
Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction...
110 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2008.This dissertation describes a...
In nature, the lateral line of fish is a peculiar and important organ for sensing the surrounding h...