Finding navigation cues near fishways
Many fish species depend on migration for various parts of their life cycle. Well‐known
examples include diadromous fish such as salmon and eels that need both fresh water and …
examples include diadromous fish such as salmon and eels that need both fresh water and …
Fish lateral line inspired flow sensors and flow-aided control: A review
Any phenomenon in nature is potential to be an inspiration for us to propose new ideas.
Lateral line is a typical example which has attracted more interest in recent years. With the …
Lateral line is a typical example which has attracted more interest in recent years. With the …
A review of artificial lateral line in sensor fabrication and bionic applications for robot fish
G Liu, A Wang, X Wang, P Liu - Applied bionics and …, 2016 - Wiley Online Library
Lateral line is a system of sense organs that can aid fishes to maneuver in a dark
environment. Artificial lateral line (ALL) imitates the structure of lateral line in fishes and …
environment. Artificial lateral line (ALL) imitates the structure of lateral line in fishes and …
A new bionic lateral line system applied to pitch motion parameters perception for autonomous underwater vehicles
Attitude perception for autonomous underwater vehicles (AUVs) is a challenging task. Most
of existing sensor systems are unable to detect the navigation attitude of AUVs while at the …
of existing sensor systems are unable to detect the navigation attitude of AUVs while at the …
Fish under pressure: Examining behavioural responses of Iberian barbel under simulated hydropeaking with instream structures
Hydropeaking is the rapid change in the water flow downstream of a hydropower plant,
driven by changes in daily electricity demand. These fluctuations may produce negative …
driven by changes in daily electricity demand. These fluctuations may produce negative …
Differential pressure sensor speedometer for autonomous underwater vehicle velocity estimation
C Meurer, JF Fuentes-Pérez… - IEEE Journal of …, 2019 - ieeexplore.ieee.org
Velocity estimation is central for the reliable navigation of autonomous underwater vehicles
(AUVs). Doppler velocity logs (DVLs), currently the leading technology for underwater …
(AUVs). Doppler velocity logs (DVLs), currently the leading technology for underwater …
Maximized hydrodynamic stimulation strategy for placement of differential pressure and velocity sensors in artificial lateral line systems
Fish can perceive the surrounding flow field using their lateral line systems, consisting of
canal neuromasts (CNs) for flow pressure gradient perception and superficial neuromasts …
canal neuromasts (CNs) for flow pressure gradient perception and superficial neuromasts …
Underwater positioning based on an artificial lateral line and a generalized regression neural network
X Zheng, Y Zhang, M Ji, Y Liu, X Lin, J Qiu… - Journal of Bionic …, 2018 - Springer
Taking advantage of the lateral line organ, fish can navigate, feed, and avoid predators and
obstacles by sensing surrounding flow fields. The lateral line organ provides an important …
obstacles by sensing surrounding flow fields. The lateral line organ provides an important …
Can vegetation provide shelter to cyprinid species under hydropeaking?
A Baladrón, MJ Costa, MD Bejarano, A Pinheiro… - Science of the Total …, 2021 - Elsevier
A novel study that focuses on the capacity of vegetation to provide shelter for fish species
under hydropeaking regimes is presented. Two artificial patches mimicking the structure and …
under hydropeaking regimes is presented. Two artificial patches mimicking the structure and …
A novel AMSS-FFN for underwater multi-source localization using artificial lateral line
The lateral line organs of fish present a promising idea for achieving near-field target
awareness. Inspired by the localization of targets by fish, a neural network approach to …
awareness. Inspired by the localization of targets by fish, a neural network approach to …