扬州大学学报(自然科学版)
颺州大學學報(自然科學版)
양주대학학보(자연과학판)
JOURNAL OF YANGZHOU UNIVERSITY(NATURAL SCIENCE EDITION)
2009年
3期
47-52
,共6页
雷达%压制干扰%探测区域
雷達%壓製榦擾%探測區域
뢰체%압제간우%탐측구역
radar%suppressing jamming%detection zone
在研究雷达天线方向图模型的基础上,推导出无干扰、SSJ(self screening jamming,自卫式干扰)、单SOJ(stand-off jammer,远距离支援干扰)、多SOJ情况下常规雷达、频率捷变雷达的最大探测距离计算公式,针对不同情况给出不同的计算机仿真方法,可有效地对雷达在干扰条件下进行效能评估.利用该方法对多种情况下的雷达探测区域进行仿真,得到雷达探测区域分布图和盲区系数,对仿真结果进行分析,得到如下结论:SSJ条件下雷达探测区域减小严重,基本无法正常探测,但形状规则;SOJ条件下雷达探测区域不规则,在干扰方向上探测距离减小显著,在其他方向上仍可达到较大的探测距离,频率捷变雷达可有效对抗压制性干扰.由多干扰条件下雷达探测区域的研究和仿真可见,干扰布局不同盲区系数差别明显.
在研究雷達天線方嚮圖模型的基礎上,推導齣無榦擾、SSJ(self screening jamming,自衛式榦擾)、單SOJ(stand-off jammer,遠距離支援榦擾)、多SOJ情況下常規雷達、頻率捷變雷達的最大探測距離計算公式,針對不同情況給齣不同的計算機倣真方法,可有效地對雷達在榦擾條件下進行效能評估.利用該方法對多種情況下的雷達探測區域進行倣真,得到雷達探測區域分佈圖和盲區繫數,對倣真結果進行分析,得到如下結論:SSJ條件下雷達探測區域減小嚴重,基本無法正常探測,但形狀規則;SOJ條件下雷達探測區域不規則,在榦擾方嚮上探測距離減小顯著,在其他方嚮上仍可達到較大的探測距離,頻率捷變雷達可有效對抗壓製性榦擾.由多榦擾條件下雷達探測區域的研究和倣真可見,榦擾佈跼不同盲區繫數差彆明顯.
재연구뢰체천선방향도모형적기출상,추도출무간우、SSJ(self screening jamming,자위식간우)、단SOJ(stand-off jammer,원거리지원간우)、다SOJ정황하상규뢰체、빈솔첩변뢰체적최대탐측거리계산공식,침대불동정황급출불동적계산궤방진방법,가유효지대뢰체재간우조건하진행효능평고.이용해방법대다충정황하적뢰체탐측구역진행방진,득도뢰체탐측구역분포도화맹구계수,대방진결과진행분석,득도여하결론:SSJ조건하뢰체탐측구역감소엄중,기본무법정상탐측,단형상규칙;SOJ조건하뢰체탐측구역불규칙,재간우방향상탐측거리감소현저,재기타방향상잉가체도교대적탐측거리,빈솔첩변뢰체가유효대항압제성간우.유다간우조건하뢰체탐측구역적연구화방진가견,간우포국불동맹구계수차별명현.
The antenna pattern of radar is studied and the maximal detection range equations of general radar, frequency agility radar are derived in the condition of no jamming, SSJ, single SOJ, multi-SOJ respectively. Then, different simulation methods are given under different conditions, with which the radar efficiency in the environment of suppressing jamming can be well evaluated. The simulations of many scenarios are made with the methods gotten in this paper, the radar detection zone charts are illustrated and blind coefficients are obtained. The following conclusions can be achieved: the radar detection zone under SSJ is a circle which is much less than that without SSJ. However, the radar detection zone under SOJ is not regular, the detection range on the direction of SOJ is much less than original range, but on the other directions which can still be large. From the simulations, it is obvious that frequency agility technique can well counter suppress jamming. From the research and simulation on the radar detection zone under multi-jamming, it is known that the blind coefficients are various under different jamming arrangements.
