Theoretical and numerical simulation analyses for the radome refraction effect on stability and induced miss distance of missiles guided by proportional navigation are presented. Quantitative stability conditions are derived with respect to linear and nonlinear radome error. A novel neural network compensation scheme for radome error is also presented. It is shown that the proposed neural compensator can effectively reduce the influence resulting from radome error. Preliminary results indicate encouraging improvement in the miss distance and magnitude of the acceleration command.
Stability analysis of radome error and calibration using neural networks
IEEE Transactions on Aerospace and Electronic Systems ; 37 , 4 ; 1442-1450
2001-10-01
240323 byte
Article (Journal)
Electronic Resource
English
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