Prediction of fish location by combining fisheries data and sea bottom temperature forecasting

Matthieu Ospici, Klaas Sys, Sophie Guegan-Marat
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引用次数: 1

Abstract

This paper combines fisheries dependent data and environmental data to be used in a machine learning pipeline to predict the spatio-temporal abundance of two species (plaice and sole) commonly caught by the Belgian fishery in the North Sea. By combining fisheries related features with environmental data, sea bottom temperature derived from remote sensing, a higher accuracy can be achieved. In a forecast setting, the predictive accuracy is further improved by predicting, using a recurrent deep neural network, the sea bottom temperature up to four days in advance instead of relying on the last previous temperature measurement.
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结合渔业资料及海底温度预测鱼类位置
本文将渔业相关数据和环境数据结合起来,用于机器学习管道,以预测北海比利时渔业通常捕获的两种物种(鲽和比目鱼)的时空丰度。将渔业相关特征与遥感获得的环境数据、海底温度相结合,可以获得更高的精度。在预报设置中,通过使用循环深度神经网络预测最多4天的海底温度,而不是依赖于上次的温度测量,进一步提高了预测精度。
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