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Florent CROZET

Extreme Learning Machine pour réseau de neurones embarqué

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Keywords: Vision sensor, CNN, ELM, Random matrices, software optimization

Abstract: The main objective of this thesis is to study the benefits that can be derived from extreme learning machines techniques and random matrices to facilitate the integration of neural networks on intelligent vision sensors.
Based on the literature, this work will study the possibilities of deriving from an existent network an approximate one with a set of learned parameters and a set of pseudo-random parameters in the intermediate layers.
The proximity to the sensors and the specifics of the intended application will be essential assets for meet the constraints of memory, computing power and consumption while preserving the better detection or classification performance.
This point is important as the methodology put in place should facilitate the adaptation of the network to different sensors or to development databases. The effectiveness of the solution will be evaluated, not only in terms of the number of MAC operations, but also in terms of suitability for the architecture of the sensors.

Informations

Thesis director: Stéphane MANCINI (TIMA - CDSI)
Thesis supervisor: Stefanie HAHMANN (LJK)
Thesis started on: Aug. 2020
Thesis defence: 24/10/2024
Doctoral school: MSTII

Submitted on January 12, 2022

Updated on October 1, 2024