We use six linear equally spaced antenna arrays to simulate SVM algorithm for treating with the incident plane wave. 本文仿真采用6元直线等距阵列天线对于平面波入射的处理情形。
In order to build up WSN beamforming theory, we take up the research of randomly spaced antenna arrays again and make a synthesis theory of randomly spaced arrays for WSN. 由于WSN波束合成研究的需要,本文重新拾起对随机分布天线阵理论的研究,并根据WSN节点任意分布的特点建立了一套适用于WSN的随机分布天线阵综合技术。
Since the WSN nodes are arbitrarily distributed, the WSN beamforming problem is actually a synthesis problem of randomly spaced antenna arrays with arbitrary distribution. 由于WSN节点在空间上的位置具有随机性且概率分布是任意的,因此WSN波束合成实际上是一个任意分布的随机分布天线阵综合问题。
Design of Non-equally Spaced Antenna(SA) Array on the Basis of Coding Theory 基于编码理论的非等间距天线阵设计
Some insights are revealed. Finally, DDE / BoR / 1 / bin and another new PSO algorithm, namely, effectively informed Gaussian particle swarm ( EIGPS ), are applied to unequally spaced antenna array synthesis to minimize the peak sidelobe level ( PSLL ). 最后,本文将DDE/BoR/1/bin与另一种新的改进PSO算法,即利用有效信息的高斯粒子群(EIGPS)算法,应用于非等间距线性天线阵列综合,最小化天线阵的峰值旁瓣电平(PSLL)。