系统工程与电子技术
繫統工程與電子技術
계통공정여전자기술
SYSTEMS ENGINEERING AND ELECTRONICS
2014年
8期
1460-1465
,共6页
自适应阵列天线%测量误差%自相关函数%码相位偏差
自適應陣列天線%測量誤差%自相關函數%碼相位偏差
자괄응진렬천선%측량오차%자상관함수%마상위편차
adaptive antenna array%measure error%correlation function%code phase error
自适应阵列天线作为全球卫星导航系统(global navigation satellite system,GNSS)抗干扰应用中的重要工具,已经得到了广泛应用。然而,自适应阵列天线在抑制干扰的过程中,破坏了 GNSS 信号的完整性,给GNSS 接收机测量引入了新的误差。首先从理论上分析测量误差的来源,然后通过仿真分析自适应阵列天线对接收机码相关函数的影响,最后提出一种码/载波相位偏差估算方法,并进行了引入测量误差大小的估算。实验结果表明,自适应阵列天线引入的测量误差具有不确定性,主要是由码相位偏差引起的,引入的伪距误差甚至达到几十米。在高精度应用中,这些误差必须被消除或补偿。
自適應陣列天線作為全毬衛星導航繫統(global navigation satellite system,GNSS)抗榦擾應用中的重要工具,已經得到瞭廣汎應用。然而,自適應陣列天線在抑製榦擾的過程中,破壞瞭 GNSS 信號的完整性,給GNSS 接收機測量引入瞭新的誤差。首先從理論上分析測量誤差的來源,然後通過倣真分析自適應陣列天線對接收機碼相關函數的影響,最後提齣一種碼/載波相位偏差估算方法,併進行瞭引入測量誤差大小的估算。實驗結果錶明,自適應陣列天線引入的測量誤差具有不確定性,主要是由碼相位偏差引起的,引入的偽距誤差甚至達到幾十米。在高精度應用中,這些誤差必鬚被消除或補償。
자괄응진렬천선작위전구위성도항계통(global navigation satellite system,GNSS)항간우응용중적중요공구,이경득도료엄범응용。연이,자괄응진렬천선재억제간우적과정중,파배료 GNSS 신호적완정성,급GNSS 접수궤측량인입료신적오차。수선종이론상분석측량오차적래원,연후통과방진분석자괄응진렬천선대접수궤마상관함수적영향,최후제출일충마/재파상위편차고산방법,병진행료인입측량오차대소적고산。실험결과표명,자괄응진렬천선인입적측량오차구유불학정성,주요시유마상위편차인기적,인입적위거오차심지체도궤십미。재고정도응용중,저사오차필수피소제혹보상。
Adaptive antenna arrays,as effective tools for interference suppression,have been widely used in the global navigation satellite system (GNSS).However,in the processing of interference suppression,the adaptive antenna arrays destroy the integrity of GNSS signals and lead to measure errors for GNSS receivers. The sources of measure errors are derived in theory firstly.Then the effect of adaptive antenna arrays on the code correlation function of the receive is analyzed by simulation.Finally,a measure method of code phase bia-ses is proposed and pseudo-range errors are evaluated.Simulation results show that the measure errors induced by adaptive antenna arrays are random values and mainly induced by code phase errors,and the pseudo-range er-rors even reach tens of meters.In precise applications,these errors must be mitigated or compensated.
