兵工自动化
兵工自動化
병공자동화
Ordnance Industry Automation
2015年
8期
93-96
,共4页
仿真%CFAR%RCS
倣真%CFAR%RCS
방진%CFAR%RCS
simulation%CFAR%RCS
由于雷达仿真系统设计时常存在参数设计未知和替代模型合理性验证的问题,为解决此类仿真过程存在问题,以恒虚警率(constant false alarm rate,CFAR)建模为例,提出一种全数字雷达仿真系统中恒虚警率建模解决方法.将雷达模型中未知参数的推演及估算和复杂模型的替代模型结合,进行参数分析及设计思路.通过模型边设计边验证的过程,分析并确认设计模型是否能够达到已知的关键性能指标要求,进而反向调整并确定设计的合理性.应用结果证明:这种将模型建立和模型验证同步进行的设计方法,应用于某型号反潜直升机飞行模拟器的全数字多普勒搜索雷达的仿真实现.经验证,该设计方法能具较强实用性及合理性.
由于雷達倣真繫統設計時常存在參數設計未知和替代模型閤理性驗證的問題,為解決此類倣真過程存在問題,以恆虛警率(constant false alarm rate,CFAR)建模為例,提齣一種全數字雷達倣真繫統中恆虛警率建模解決方法.將雷達模型中未知參數的推縯及估算和複雜模型的替代模型結閤,進行參數分析及設計思路.通過模型邊設計邊驗證的過程,分析併確認設計模型是否能夠達到已知的關鍵性能指標要求,進而反嚮調整併確定設計的閤理性.應用結果證明:這種將模型建立和模型驗證同步進行的設計方法,應用于某型號反潛直升機飛行模擬器的全數字多普勒搜索雷達的倣真實現.經驗證,該設計方法能具較彊實用性及閤理性.
유우뢰체방진계통설계시상존재삼수설계미지화체대모형합이성험증적문제,위해결차류방진과정존재문제,이항허경솔(constant false alarm rate,CFAR)건모위례,제출일충전수자뢰체방진계통중항허경솔건모해결방법.장뢰체모형중미지삼수적추연급고산화복잡모형적체대모형결합,진행삼수분석급설계사로.통과모형변설계변험증적과정,분석병학인설계모형시부능구체도이지적관건성능지표요구,진이반향조정병학정설계적합이성.응용결과증명:저충장모형건립화모형험증동보진행적설계방법,응용우모형호반잠직승궤비행모의기적전수자다보륵수색뢰체적방진실현.경험증,해설계방법능구교강실용성급합이성.
Because the problems of unknown parameter design and replacement model rationality test. For solving these problems in simulation process, taking constant false alarm rate (CFAR) modeling as example, put forwards CFAR modeling method in digital radar simulation system. Combine unknown parameter reasoning and evaluation of radar model with complex model replacement model, carry out parameter analysis and idea design. Through model designing and verifying, analyze and determine whether design model meets the key performance parameter requirements or not, then carry out negative setting and determine design rationality. The application results show that: the design method, which put the model designing and model verifying at the same time, can be used in digital Doppler searching radar simulation of certain type anti-submarine helicopter flight simulator. Through verification, it is proved that the design of radar simulation method has good practicability and rationality.