Probe Characterization Using Stochastic Search Algorithms and Radial Basis Functions Neural Networks

Within this paper, the auto-compensated electrostatic induction probe is characterized by generating its Point Spread Function (PSF) and its inverse. New approaches based on the stochastic Search Algorithms (SSA) are proposed to obtain several Point Spread Functions and their inverses. Radial Basis...

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Bibliographic Details
Main Authors: Melahi, Ahmed, Bendahmane, Boukhalfa, Neagoe, Marian Bogdan, Dascalescu, Lucian
Format: Conference Proceeding
Language:English
Subjects:
Costs
Electric potential
Electrostatic induction
Electrostatic Induction Probe
Electrostatic measurements
Performance evaluation
Point Spread Function
Prediction algorithms
Radial basis function networks
Radial Basis Functions Neural Networks
Stochastic Search Algorithms
Surface Potential
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Summary:Within this paper, the auto-compensated electrostatic induction probe is characterized by generating its Point Spread Function (PSF) and its inverse. New approaches based on the stochastic Search Algorithms (SSA) are proposed to obtain several Point Spread Functions and their inverses. Radial Basis Functions Neural Networks are used to approximate the original measures in order to have two-dimensional array representation of the potential on the surface of the material. These new approaches are tested, validated, and compared to each other in term of rapid convergence and best cost obtained. The obtained PSFs and inverse PSFs give approximations within a good accuracy in predicting the measure or the real distribution of the potential on the surface of the material.
ISSN:2474-0446
DOI:10.1109/SSD54932.2022.9955944