Title :
Poly-phase encoded waveform optimal design for space-borne MISO radar systems
Author :
Weiping Li ; Guisheng Liao ; Haihong Tao ; Ming Jin
Author_Institution :
Nat. Lab. of Radar Signal Process., Xidian Univ., Xi´an
Abstract :
The application of multiple input techniques to sparse space- borne radar offers a number of advantages, including mitigating the effect of the target scintillation and being more freedom of signal processing. A novel orthogonal poly-phase encoded waveform optimization design method is presented. It is combined the genetic algorithm (GA) with the frequency functions designed by window functions to reduce the computation complexity. For the radar system, multiple transmissions of orthogonal coding signal and single reception, the high ISL of the optimized waveforms may cause degradation of the detection performance of the ground moving target. So, there is a trade-off optimization between the orthogonality and side-lobes of the signals. Simulation results show the effect of the transmission waveforms characteristic on the system´s detection performance.
Keywords :
genetic algorithms; orthogonal codes; phase coding; radar detection; radar signal processing; spaceborne radar; waveform analysis; computation complexity; frequency functions; genetic algorithm; ground moving target performance; multiple transmissions; orthogonal coding signal detection; poly-phase encoded waveform optimal design; signal processing; single reception; space-borne MISO radar systems; target scintillation effect; window functions; Integrated side-lobe level (ISL); Poly-phase orthogonal code optimal design; Sparse space-borne MISO radar;
Conference_Titel :
Radar Conference, 2009 IET International
Conference_Location :
Guilin
Print_ISBN :
978-1-84919-010-7
