Title :
Identification of radiating trace configuration using finite element method and neural networks
Author :
Nalina, T.A. ; Bharathidasan, J. ; Subbarao, B.
Author_Institution :
Commun. Syst., Kumaraguru Coll. of Technol., Coimbatore, India
Abstract :
The PCB traces produce electromagnetic field when excited by a signal source. The trace acts as a source of emission when impedance mismatch or a discontinuity along the length of the trace occurs which may interfere with other equipments placed in its closer proximity. In this paper a two stage feed forward neural network using Back Propagation algorithm is used to identify the radiating trace. The input parameters used for training the neural network is extracted from the thinned result of the spectrum obtained by Finite Element Analysis on the radiating structure. The thinned Pattern of type original radiating trace is compared with the trained pattern for correct identification of the radiating trace.
Keywords :
backpropagation; feedforward neural nets; finite element analysis; impedance matching; printed circuits; PCB traces; back propagation algorithm; electromagnetic field; feed forward neural network; finite element analysis; finite element method; impedance mismatch; neural networks; radiating structure; radiating trace configuration; signal source; Educational institutions; Electromagnetic compatibility; Electromagnetic fields; Electromagnetic measurements; Finite element methods; Head; Impedance; Neural networks; Probes; Shape; Back Propagation algorithm; Finite Element Method (FEM); Neural Networks; PCB Configurations; Parameter extraction; Thinning Process; near field measurements;
Conference_Titel :
Electromagnetic Interference & Compatibility, 2008. INCEMIC 2008. 10th International Conference on
Conference_Location :
Bangalore
Print_ISBN :
978-81-903575-1-7
