Title :
A simple method for computing discrete spectrum relaxations of body of revolution targets using eigenvalue decomposition
Author :
Gabbay, Jonathan E. ; Scott, Waymond R., Jr.
Author_Institution :
Sch. of Electr. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
A conducting body´s Discrete Spectrum of Relaxation Frequencies (DSRF) is a valuable classifying characteristic that is used in the detection and discrimination of buried objects. In physical terms, the DSRF depicts the decay of eddy currents in a conducting body that is exposed to a time-varying magnetic field. An object´s DSRF can only be computed analytically for a few canonical cases. Numerical computations for bodies of revolution (BOR) have been presented using boundary-element and finite-element techniques, but these techniques are complex. In this work, a simpler approach based on eigenvalue decomposition is presented that is capable of computing the DSRF for a class of BORs. Approved for public release, distribution unlimited.
Keywords :
boundary-elements methods; buried object detection; conducting bodies; eddy currents; eigenvalues and eigenfunctions; finite element analysis; geophysical techniques; DSRF; bodies of revolution; boundary-element technique; buried objects; conducting body; discrete spectrum of relaxation frequencies; eddy currents; eigenvalue decomposition; finite-element technique; numerical computations; revolution targets; time-varying magnetic field; Conductors; Eigenvalues and eigenfunctions; Impedance; Inductance; Magnetic domains; Matrix decomposition; Wires; DSRF; EMI; Eigenvalue Decomposition; loop; sphere;
Conference_Titel :
Geoscience and Remote Sensing Symposium (IGARSS), 2012 IEEE International
Conference_Location :
Munich
Print_ISBN :
978-1-4673-1160-1
Electronic_ISBN :
2153-6996
DOI :
10.1109/IGARSS.2012.6351526
