Open AccessComputational biology: deep learning
Author(s) -
William Jones,
Kaur Alasoo,
Dmytro Fishman,
Leopold Parts
Publication year - 2017
Publication title -
emerging topics in life sciences
Language(s) - English
Resource type - Journals
eISSN - 2397-8562
pISSN - 2397-8554
DOI - 10.1042/etls20160025
Subject(s) - toolbox , deep learning , artificial intelligence , computer science , machine learning , artificial neural network , computational genomics , range (aeronautics) , computational model , data science , genomics , biology , genome , engineering , biochemistry , gene , programming language , aerospace engineering
Deep learning is the trendiest tool in a computational biologist's toolbox. This exciting class of methods, based on artificial neural networks, quickly became popular due to its competitive performance in prediction problems. In pioneering early work, applying simple network architectures to abundant data already provided gains over traditional counterparts in functional genomics, image analysis, and medical diagnostics. Now, ideas for constructing and training networks and even off-the-shelf models have been adapted from the rapidly developing machine learning subfield to improve performance in a range of computational biology tasks. Here, we review some of these advances in the last 2 years.
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