存在障碍物时电波传播抛物线方程分析及其验证  被引量：4

作　　者：魏乔菲 尹成友[1] 范启蒙 

机构地区：[1]电子工程学院脉冲功率激光国家重点实验室,合肥230037

出　　处：《物理学报》2017年第12期115-122,共8页Acta Physica Sinica

基　　金：总装备部预研基金(批准号:51333020201)资助的课题~~

摘　　要：双向抛物线方法主要用于起伏地形下电波传播问题的计算,该算法本身无法处理地面存在障碍物,尤其是真实环境下障碍物与地面为不同媒质的情况.因此本文提出一种用于存在障碍物时电波传播计算的抛物线方程新算法.该方法采用区域分解,对不同障碍物区域的场值进行分区计算,并对计算结果进行相位修正,从而实现该情况下空间中场值的计算.在此基础上,使用矩量法来精确验证抛物线方法的计算精度.通过实例分析,证明了存在障碍物时新算法的精确性,为之后求解真实环境下的电波传播问题提供了参考.In recent years, the two-way parabolic equation method （2WPE） has been widely utilized for studying the tropo-spheric ground-wave propagation under the irregular terrain. This algorithm can deal with the influences of the irregular terrain characteristic and the different electromagnetic parameters of the surface structure on wave propagation. How-ever, there are still some defects in 2WPE method. Firstly, the method considers the irregular terrain and obstacles as a whole, so it cannot deal with the situation where the medium parameters of obstacles and the ground are different. Secondly, its calculation precision is limited with the inclination of the undulating terrain： if there are obstacles the upper bound of the inclination is easily broken through. Therefore, in this paper, a novel two-way parabolic equation method is proposed for analyzing the radio wave propagation in obstacle environment. According to the principle of domain decomposition, the obstacle zones are divided into two domains in the new algorithm, and the two subdomains are calculated, respectively. Meanwhile, in order to avoid the calculation error caused by the abrupt truncation of the obstacle zone, the field at the upper boundary of obstacles is modified to ensure the continuity of tangential field. To further improve the accuracy of the new algorithm, according to the historical transmission paths, we exactly retrieve the phases of each forward and backward wave, especially when stepping in and out of the obstacles. Furthermore, the method of moment （MoM） is used to verify the calculation accuracy of the new algorithm in obstacle environment. Although the accuracy of the MoM is very high, it also requires a great deal of calculation resources： it can only be employed to compute the fields in short distance. To overcome the difficulty, we use the image principle in the obstacle environment and do not subdivide the ground into segments; therefore the verification accuracy can be improved. On this basis, to unify the source sett

关 键 词：抛物线方程 电波传播 区域分解 矩量法 

分 类 号：TN011[电子电信—物理电子学]