Automated identification system for ships data as a proxy for marine vessel related stressors

Author:

O'Hara Patrick D.,Serra-Sogas Norma,McWhinnie Lauren,Pearce Kim,Le Baron Nicole,O'Hagan Gregory,Nesdoly Andrea,Marques Tunai,Canessa Rosaline

Funder

Marine Environmental Observation Prediction and Response Network

Fisheries and Oceans Canada

Publisher

Elsevier BV

Subject

Pollution,Waste Management and Disposal,Environmental Chemistry,Environmental Engineering

Reference88 articles.

1. Object-based image analysis approach for vessel detection on optical and radar images;Aiello;J. Appl. Remote Sens.,2019

2. A preliminary study for evaluating the capacity of waters for recreational boating 1;Ashton;JAWRA J.Am.Water Resour.Assoc.,1972

3. Using RADAR & AIS to investigate ship behavior in the Chesapeake Bay ocean approach off of Virginia, USA;Barco,2012

4. Interpreting short-term behavioural responses to disturbance within a longitudinal perspective;Bejder;Anim. Behav.,2006

5. Decline in relative abundance of bottlenose dolphins exposed to long‐term disturbance;Bejder;Conserv. Biol.,2006

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