We provide notes on the design and construction of an \u27Electric Fish Finder – a self contained, portable bioamplifier for the detection and monitoring of the electric organ discharges generated by electric fish. Here we describe several improvements on a previous design, including: improved performance in waters of extremely low conductivity, extended battery life, and better waterproofing
Navigation, localization, and targeting while completely submerged in the ocean are all extremely di...
ln this test, the authors experimented to measure the distributions of the equi-potential lines whic...
This thesis details the development of a new method of fish detection and measurement that is design...
We provide notes on the design and construction of an Electric Fish Finder - a portable differential...
Haag, Michael A., Lambert, Jeffrey C., Waddell, Joseph C., Crampton, William G.R. (2019): A new and ...
Wells, Jonathan K., Crampton, William G. R. (2006): Scientific note A portable bio-amplifier for ele...
Abstract—This paper describes a customizable/extensible wire-less sensor framework for long term mon...
Fig. 3. Dipole electrodes designed for field (a) and laboratory (b, c) use. For each, positive pole ...
Crampton, William G. R., Wells, Jonathan K., Smyth, Charles, Walz, Steven A. (2007): Scientific Note...
This article presents the first results of a work which aims at designing an active sensor inspired ...
Essential to all autonomous creatures is the ability to sense the surrounding environment. Evolutio...
International audienceThis article presents the first research into designing an active sensor inspi...
Weakly electric fish produce a dual function electric signal that makes them ideal models for the st...
Autonomous electronic devices, especially micro devices, are limited by the finite energy capacities...
Biological sensory systems efficiently and reliably monitor changes in real-world environments that ...
Navigation, localization, and targeting while completely submerged in the ocean are all extremely di...
ln this test, the authors experimented to measure the distributions of the equi-potential lines whic...
This thesis details the development of a new method of fish detection and measurement that is design...
We provide notes on the design and construction of an Electric Fish Finder - a portable differential...
Haag, Michael A., Lambert, Jeffrey C., Waddell, Joseph C., Crampton, William G.R. (2019): A new and ...
Wells, Jonathan K., Crampton, William G. R. (2006): Scientific note A portable bio-amplifier for ele...
Abstract—This paper describes a customizable/extensible wire-less sensor framework for long term mon...
Fig. 3. Dipole electrodes designed for field (a) and laboratory (b, c) use. For each, positive pole ...
Crampton, William G. R., Wells, Jonathan K., Smyth, Charles, Walz, Steven A. (2007): Scientific Note...
This article presents the first results of a work which aims at designing an active sensor inspired ...
Essential to all autonomous creatures is the ability to sense the surrounding environment. Evolutio...
International audienceThis article presents the first research into designing an active sensor inspi...
Weakly electric fish produce a dual function electric signal that makes them ideal models for the st...
Autonomous electronic devices, especially micro devices, are limited by the finite energy capacities...
Biological sensory systems efficiently and reliably monitor changes in real-world environments that ...
Navigation, localization, and targeting while completely submerged in the ocean are all extremely di...
ln this test, the authors experimented to measure the distributions of the equi-potential lines whic...
This thesis details the development of a new method of fish detection and measurement that is design...