Industry News

Computer Vision-Based Detection of Fish from Acoustic Backscatter Time Series

ASL Environmental Sciences Inc. (ASL) is excited to announce the recent awarding of a Natural Sciences and Engineering Research Council (NSERC) Engage Grant for the development of new automated or semi-automated analysis tools for Acoustic Zooplankton Fish Profiler (AZFP) data with the University of Victoria and ASL.

This collaboration will be led by Dr. Alexandra Branzan Albu's research group from the Electrical and Computer Engineering Department of the University of Victoria along with ASL acoustic and remote sensing specialists. AZFP data will be provided by Dr. Stéphane Gauthier of the Department of Fisheries and Oceans Canada, who will also bring expertise in the areas of fisheries acoustics, data analyses and interpretation.

The AZFP provides high temporal and spatial resolution acoustic backscatter. Through this grant, efforts will focus on developing methods to automatically detect and classify fish backscatter from AZFP data. Dr. Albu and her team bring specialized knowledge to this issue with experience in computer vision and machine learning. Traditional AZFP processing techniques are dependent upon human vision and visualization methods, the application of automated techniques will be used to create unbiased classifications based on shape, structure and pattern detection. Detection algorithms will be tested and tuned on data sets containing well-defined fish schools such as the ones produced by Pacific Herring, a small pelagic coastal species abundant in British Columbia's waters.

Story by ASL Environmental Sciences

Latest Issue

Journey of an Arctic Owl

Journey of an Arctic Owl

By Cheryl Lyn Dybas

ECO Magazine is a marine science publication committed to bringing scientists and professionals the latest ground-breaking research, industry news, and job opportunities from around the world.

Newsletter Signup

Please type your full name.

Please type your full name.

Invalid email address.

All emails include an unsubscribe link. You may opt-out at any time. Clicking subscribe confirms your acceptance of our privacy policy.