Robust blind deconvolution process for vehicle re-identification by an inductive loop detector
GUILBERT ; IENG ; LE BASTARD ; WANG
Type de document
ARTICLE A COMITE DE LECTURE REPERTORIE DANS BDI (ACL)
Langue
anglais
Auteur
GUILBERT ; IENG ; LE BASTARD ; WANG
Résumé / Abstract
A robust blind deconvolution algorithm is proposed to cancel the sensor averaging effect caused by its wide detection area. The purpose herein is to retrieve features of the 'real' signal that have been distorted by the averaging effect. The algorithm is applied to the case of an Inductive Loop Detector. To perform the proposed algorithm, speed estimation is required. Vehicle re-identification rate from both raw signals and estimated 'real' signals is compared. The sensor transfer function is calculated once from a learning phase; the estimated 'real' signal is then computed in real time for the re-identification of each vehicle. Signature, déconvolution aveugle, régularisation de Tikhonov, condition de Picard.
Source
IEEE Sensors Journal, num. 12, pp 4315-4322 p.
Editeur
INSTITUTE OF ELECTRICAL AND ELECTRONICS ENGINEERS - IEEE
