Reprint

Innovative Topologies and Algorithms for Neural Networks

Edited by
April 2021
198 pages
  • ISBN978-3-0365-0284-7 (Hardback)
  • ISBN978-3-0365-0285-4 (PDF)

This is a Reprint of the Special Issue Innovative Topologies and Algorithms for Neural Networks that was published in

Computer Science & Mathematics
Summary

The introduction of new topologies and training procedures to deep neural networks has solicited a renewed interest in the field of neural computation. The use of deep structures has significantly improved state-of-the-art applications in many fields, such as computer vision, speech and text processing, medical applications, and IoT (Internet of Things). The probability of a successful outcome from a neural network is linked to selection of an appropriate network architecture and training algorithm. Accordingly, much of the recent research on neural networks has been devoted to the study and proposal of novel architectures, including solutions tailored to specific problems. This book gives significant contributions to the above-mentioned fields by merging theoretical aspects and relevant applications.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
facial image analysis; facial nerve paralysis; deep convolutional neural networks; image classification; Chinese text classification; long short-term memory; convolutional neural network; Arabic named entity recognition; bidirectional recurrent neural network; GRU; LSTM; natural language processing; word embedding; CNN; object detection network; attention mechanism; feature fusion; LSTM-CRF model; elements recognition; linguistic features; POS syntactic rules; action recognition; fused features; 3D convolution neural network; motion map; long short-term-memory; tooth-marked tongue; convolutional neural network; gradient-weighted class activation maps; ship identification; fully convolutional network; embedded deep learning; scalability; gesture recognition; human computer interaction; alternative fusion neural network; deep learning; sentiment attention mechanism; bidirectional gated recurrent unit; convolutional neural network; Internet of Things; convolutional neural networks; graph partitioning; distributed systems; resource-efficient inference; pedestrian attribute recognition; graph convolutional network; multi-label learning; autoencoders; long-short-term memory networks; convolution neural Networks; object recognition; sentiment analysis; text recognition; gesture recognition; IoT (Internet of Thing) systems; medical applications