Publication: Generalized Neural Networks, Computational Differentiation, and Evolution
Introduction
Applications
Tools
Research Groups
Workshops
Publications
   List Publications
   Advanced Search
   Info
   Add Publications
My Account
About
Impress
browse all publications by   [Author] [Editor] [Title] [Year]    

Generalized Neural Networks, Computational Differentiation, and Evolution

- incollection -		 

Author(s)
David W. Juedes , Karthik Balakrishnan

Published in
Computational Differentiation: Techniques, Applications, and Tools

Editor(s)
Martin Berz, Christian Bischof, George Corliss, Andreas Griewank

Year
1996

Publisher
SIAM

Abstract
Backpropagation is a powerful and widely used procedure for training multilayer, feedforward artificial neural networks. The procedure can be seen as a special case of the reverse mode of computational differentiation. This connection between backpropagation and computational differentiation leads us to envision a scenario wherein neural networks can be trained by using gradient descent methods and computational differentiation tools like ADOL--C. The primary advantage offered by such an approach is the possibility of training networks consisting of heterogeneous functional units---a notion we refer to as generalized neural networks. This approach, in conjunction with evolutionary algorithms, can be used to produce near-optimal designs. This paper presents this approach in more detail and demonstrates its usefulness through simulation results.

Cross-References
Berz1996CDT

AD Tools
ADOL-C

BibTeX
@INCOLLECTION{
         Juedes1996GNN,
       author = "David W. Juedes and Karthik Balakrishnan",
       editor = "Martin Berz and Christian Bischof and George Corliss and Andreas Griewank",
       title = "Generalized Neural Networks, Computational Differentiation, and Evolution",
       booktitle = "Computational Differentiation: Techniques, Applications, and Tools",
       pages = "273--285",
       publisher = "SIAM",
       address = "Philadelphia, PA",
       key = "Juedes1996GNN",
       crossref = "Berz1996CDT",
       abstract = "Backpropagation is a powerful and widely used procedure for training multilayer,
         feedforward artificial neural networks. The procedure can be seen as a special case of the reverse
         mode of computational differentiation. This connection between backpropagation and computational
         differentiation leads us to envision a scenario wherein neural networks can be trained by using
         gradient descent methods and computational differentiation tools like ADOL--C. The primary advantage
         offered by such an approach is the possibility of training networks consisting of heterogeneous
         functional units---a notion we refer to as {\em generalized neural networks.} This approach, in
         conjunction with {\em evolutionary algorithms,} can be used to produce near-optimal designs.
         This paper presents this approach in more detail and demonstrates its usefulness through simulation
         results.",
       keywords = "Neural networks, genetic algorithms, evolution, ADOL--C.",
       year = "1996",
       ad_tools = "ADOL-C"
}


back
  

Contact:
autodiff.org
Username:
Password:
(lost password)