Deep Neural Networks in a Mathematical Framework

Anthony L. Caterini, Dong Eui Chang

Informasi Dasar

21.21.1726
006.3
Buku - Elektronik (E-Book)
4

This SpringerBrief describes how to build a rigorous end-to-end mathematical framework for deep neural networks. The authors provide tools to represent and describe neural networks, casting previous results in the field in a more natural light. In particular, the authors derive gradient descent algorithms in a unified way for several neural network structures, including multilayer perceptrons, convolutional neural networks, deep autoencoders and recurrent neural networks. Furthermore, the authors developed framework is both more concise and mathematically intuitive than previous representations of neural networks.

This SpringerBrief is one step towards unlocking the black box of Deep Learning. The authors believe that this framework will help catalyze further discoveries regarding the mathematical properties of neural networks.This SpringerBrief is accessible not only to researchers, professionals and students working and studying in the field of deep learning, but also to those outside of the neutral network community.

Subjek

NETWORK
 

Katalog

Deep Neural Networks in a Mathematical Framework
9783319753041
95p.: pdf file.; 1 MB
English

Sirkulasi

Rp. 0
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Tidak

Pengarang

Anthony L. Caterini, Dong Eui Chang
Perorangan
 
 

Penerbit

Springer International Publishing
New York
2018

Koleksi

Kompetensi

 

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