Title :
Experimental Validation of the Inverse Scattering Method for Distributed Characteristic Impedance Estimation
Author :
Loete, Florent ; Qinghua Zhang ; Sorine, Michel
Author_Institution :
GEEPS-SUPELEC, Gif-sur-Yvette, France
Abstract :
Recently published theoretic results and numerical simulations have shown the ability of inverse scattering-based methods to diagnose soft faults in electric cables, in particular, faults implying smooth spatial variations of cable characteristic parameters. The purpose of the present paper is to report laboratory experiments confirming the ability of the inverse scattering method for retrieving spatially distributed characteristic impedance from reflectometry measurements. Various smooth or stepped spatial variations of characteristic impedance profiles are tested. The tested electric cables are CAN unshielded twisted pairs used in trucks and coaxial cables.
Keywords :
cables (electric); electromagnetic wave scattering; frequency-domain analysis; reflectometry; coaxial cables; distributed characteristic impedance estimation; electric cables; frequency domain reflectometry; inverse scattering method; reflectometry measurements; Coaxial cables; Connectors; Impedance; Inverse problems; Power cables; Reflectometry; Wires; Cable health monitoring; Inverse scattering; cable health monitoring; frequency domain reflectometry; inverse scattering; soft fault diagnosis;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2015.2417215
