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HE-DFNETS: A Novel Hybrid Deep Learning Architecture for the Prediction of Potential Fishing Zone Areas in Indian Ocean Using Remote Sensing Images.

M SivasankariR AnandanFekadu Ashine Chamato
Published in: Computational intelligence and neuroscience (2022)
The Indian subcontinent is known for its larger coastline spanning, over 8100 km and is considered the habitat for many millions of people. The livelihood of their habitat is purely dependent upon the fishing activities. Often, the search for fish requires more time for catching and more resources, thus increasing the operational cost leading to low profitability. With the advent of artificial intelligence algorithms, designing intelligent algorithms for an effective prediction of fishing areas has reached new heights in terms of high accuracy ( A cy ) and less time. But still, predicting the location of potential fishing zones (PFZs) is always a daunting task. To reduce these issues, this work presented the novel hybrid prediction architecture of PFZs using remote sensing images. The proposed architecture integrates the deep convolutional layers and flitter bat optimized long short-term memory (FB-LSTM)-based recurrent neural networks (RNN). These convolutional layers are utilized to remove the various color features such as chlorophyll, sea surface temperature (SST), and GPS location from the satellite images, and FB-LTSM is utilized to predict the potential locations for fishing. The extensive experimentations are carried out utilizing the satellite data from Indian National Centre for Ocean Information Services (INCOIS) and implemented using TensorFlow 1.18 with Keras API. The performance metrics such as prediction A cy , precision ( P scn ), recall ( R cl ) or sensitivity ( S ty ), specificity ( S fy ), and F 1-score and compared with other existing intelligent learning models. From our observations, the proposed architecture (99% prediction A cy ) has outperformed the other existing algorithms and finds its best place in designing an intelligent system for better predicting of PFZs.
Keyphrases
  • deep learning
  • artificial intelligence
  • neural network
  • machine learning
  • convolutional neural network
  • big data
  • climate change
  • healthcare
  • primary care
  • risk assessment
  • health insurance