Evolutionary Algorithms for Convolutional Neural Network Visualisation

Bernard, Nicolas; Leprévost, Franck

Reference : Evolutionary Algorithms for Convolutional Neural Network Visualisation


	Document type :	Scientific congresses, symposiums and conference proceedings : Paper published in a book
	Discipline(s) :	Engineering, computing & technology : Computer science
	To cite this reference:	http://hdl.handle.net/10993/40854

Title :	Evolutionary Algorithms for Convolutional Neural Network Visualisation
Language :	English
Author, co-author :	Bernard, Nicolas [University of Luxembourg > Faculty of Science, Technology and Communication (FSTC) > Computer Science and Communications Research Unit (CSC)]
	Leprévost, Franck [University of Luxembourg > Faculty of Science, Technology and Communication (FSTC) > Computer Science and Communications Research Unit (CSC)]
Publication date :	2018
Main document title :	High Performance Computing -- 5th Latin American Conference, CARLA 2018, Piedecuesta, Colombia
Editor :	Meneses, Esteban
	Castro, Harold
	Barrios Hernández, Carlos Jaime
	Ramos-Pollan, Raúl
Publisher :	Springer
Collection and collection volume :	Communications in Computer and Information Science
Peer reviewed :	Yes
ISBN :	978-3-030-16204-7
Event name :	CARLA 2018 - 5th Latin America High Performance Computing Conference
Event date :	from 23-09-2018 to 28-09-2018
Event place (city) :	Piedecuesta
Event country :	Colombia
Abstract :	[en] Deep Learning is based on deep neural networks trained over huge sets of examples. It enabled computers to compete with ---~or even outperform~--- humans at many tasks, from playing Go to driving vehicules. Still, it remains hard to understand how these networks actually operate. While an observer sees any individual local behaviour, he gets little insight about their global decision-making process. However, there is a class of neural networks widely used for image processing, convolutional networks, where each layer contains features working in parallel. By their structure, these features keep some spatial information across a network's layers. Visualisation of this spatial information at different locations in a network, notably on input data that maximise the activation of a given feature, can give insights on the way the model works. This paper investigates the use of Evolutionary Algorithms to evolve such input images that maximise feature activation. Compared with some pre-existing approaches, ours seems currently computationally heavier but with a wider applicability.
Research centres :	University of Luxembourg: High Performance Computing - ULHPC
Permalink :	http://hdl.handle.net/10993/40854

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