In this paper, the Geometric Optics (GO) method using the approximate ray paths coupled with the Computer Aided Tri-dimensional Interface Application (CATIA) meshing modeling are implemented to analyze the performance...In this paper, the Geometric Optics (GO) method using the approximate ray paths coupled with the Computer Aided Tri-dimensional Interface Application (CATIA) meshing modeling are implemented to analyze the performance of electric large three-dimensional dielectric radome-enclosed antenna of arbitrary contour shape. The surfaces of the radome are approximated by planar triangular patches, the influences of various number of patches on power transmission coefficient and Insertion Phase Delay (IPD) via an ogive and a conical radome are discussed by the hybrid method. The simulation results indicate that computational error from planar triangular patches can limit in one percent, meeting the engineering application requirements.展开更多
正在新疆奇台建设的110 m全向可动射电望远镜是一个可以接受微弱射电信号的天文设备,台址周围较大范围内存在着数量众多的干扰源会影响其观测精度与效率.本文提出了一种基于抛物方程和时域物理光学法(Parabolic Equation and Time Domai...正在新疆奇台建设的110 m全向可动射电望远镜是一个可以接受微弱射电信号的天文设备,台址周围较大范围内存在着数量众多的干扰源会影响其观测精度与效率.本文提出了一种基于抛物方程和时域物理光学法(Parabolic Equation and Time Domain Physical Optics, PE-TDPO)的混合计算方法,以110 m全向可动射电望远镜为研究对象,对台址附近大区域内干扰源信号的传播过程进行建模.在较大地理尺度上对干扰信号从台址远场至近场的电磁耦合特性进行了综合评估,为大型射电望远镜电磁干扰问题处理提供理论依据.本文以通信基站作为典型干扰源,基于数字地图建立射电望远镜台址周围的高精度地形模型,采用抛物方程对干扰信号的远场电波传播进行分析,得到从干扰源处至射电望远镜处的信号传播的路径损耗和传播因子;其次将PE方法计算得出的远场电场值代入TDPO的积分中,得到干扰信号在射电望远镜焦点处的近场耦合特性;最后讨论了远场干扰源特性对射电望远镜的远-近场耦合的影响.展开更多
基金Supported by the National Natural Science Foundation of China (No. 61172024)
文摘In this paper, the Geometric Optics (GO) method using the approximate ray paths coupled with the Computer Aided Tri-dimensional Interface Application (CATIA) meshing modeling are implemented to analyze the performance of electric large three-dimensional dielectric radome-enclosed antenna of arbitrary contour shape. The surfaces of the radome are approximated by planar triangular patches, the influences of various number of patches on power transmission coefficient and Insertion Phase Delay (IPD) via an ogive and a conical radome are discussed by the hybrid method. The simulation results indicate that computational error from planar triangular patches can limit in one percent, meeting the engineering application requirements.
文摘正在新疆奇台建设的110 m全向可动射电望远镜是一个可以接受微弱射电信号的天文设备,台址周围较大范围内存在着数量众多的干扰源会影响其观测精度与效率.本文提出了一种基于抛物方程和时域物理光学法(Parabolic Equation and Time Domain Physical Optics, PE-TDPO)的混合计算方法,以110 m全向可动射电望远镜为研究对象,对台址附近大区域内干扰源信号的传播过程进行建模.在较大地理尺度上对干扰信号从台址远场至近场的电磁耦合特性进行了综合评估,为大型射电望远镜电磁干扰问题处理提供理论依据.本文以通信基站作为典型干扰源,基于数字地图建立射电望远镜台址周围的高精度地形模型,采用抛物方程对干扰信号的远场电波传播进行分析,得到从干扰源处至射电望远镜处的信号传播的路径损耗和传播因子;其次将PE方法计算得出的远场电场值代入TDPO的积分中,得到干扰信号在射电望远镜焦点处的近场耦合特性;最后讨论了远场干扰源特性对射电望远镜的远-近场耦合的影响.