Using big marine data to train deep learning models is not efficient, or sometimes even possible, on local computers. In this paper, we show how distributed learning in the cloud can help more efficiently process big data and train more accurate deep learning models. In addition, marine big data is usually communicated over wired networks, which if possible to deploy in the first place, are costly to maintain. Therefore, wireless communications dominantly conducted by acoustic waves in underwater sensor networks, may be considered. However, wireless communication is not feasible for big marine data due to the narrow frequency bandwidth of acoustic waves and the ambient noise. To address this problem, we propose an optimized deep learning de...
The deep learning (DL) revolution is touching all scientific disciplines and corners of our lives as...
Deep learning, also known as deep machine learning or deep structured learning based techniques, hav...
Despite current efforts to study deep-sea life, there is a dependency on technological advancements ...
Using big marine data to train deep learning models is not efficient, or sometimes even possible, on...
Logistical and financial limitations of underwater operations are inherent in marine science, includ...
Marine scientists use remote underwater image and video recording to survey fish species in their na...
Machine and deep learning (DL) offer significant opportunities for exploring and monitoring oceans a...
Recently, human being’s curiosity has been expanded from the land to the sky and the sea. Besides se...
Uses of underwater videos to assess diversity and abundance of fish are being rapidly adopted by mar...
Fish are key members of marine ecosystems, and they have a significant share in the healthy human di...
The Internet of Underwater Things (IoUT) is an emerging technological ecosystem developed for connec...
The ocean is experiencing unprecedented rapid change, and visually monitoring marine biota at the sp...
Unlike land, the oceans, although covering more than 70% of the planet, are largely unexplored. Glob...
In the past decade, underwater communications have enabled a wide range of applications; there are, ...
Marine environment monitoring has become increasingly significant due to the excessive exploitation ...
The deep learning (DL) revolution is touching all scientific disciplines and corners of our lives as...
Deep learning, also known as deep machine learning or deep structured learning based techniques, hav...
Despite current efforts to study deep-sea life, there is a dependency on technological advancements ...
Using big marine data to train deep learning models is not efficient, or sometimes even possible, on...
Logistical and financial limitations of underwater operations are inherent in marine science, includ...
Marine scientists use remote underwater image and video recording to survey fish species in their na...
Machine and deep learning (DL) offer significant opportunities for exploring and monitoring oceans a...
Recently, human being’s curiosity has been expanded from the land to the sky and the sea. Besides se...
Uses of underwater videos to assess diversity and abundance of fish are being rapidly adopted by mar...
Fish are key members of marine ecosystems, and they have a significant share in the healthy human di...
The Internet of Underwater Things (IoUT) is an emerging technological ecosystem developed for connec...
The ocean is experiencing unprecedented rapid change, and visually monitoring marine biota at the sp...
Unlike land, the oceans, although covering more than 70% of the planet, are largely unexplored. Glob...
In the past decade, underwater communications have enabled a wide range of applications; there are, ...
Marine environment monitoring has become increasingly significant due to the excessive exploitation ...
The deep learning (DL) revolution is touching all scientific disciplines and corners of our lives as...
Deep learning, also known as deep machine learning or deep structured learning based techniques, hav...
Despite current efforts to study deep-sea life, there is a dependency on technological advancements ...