摘要
基于均匀矩形阵列,利用阵列接收信号及其共轭信息,推导出2维的虚拟空间平滑算法。通过构造2维虚拟子阵,消除干扰信号与期望信号之间的相关性,避免了有效阵列孔径的损失,提高了算法的空间谱分辨率。将该算法与相位补偿技术相结合,给出了一种抗跟踪式干扰的跳频通信系统。通过理论分析和模拟仿真,验证了该系统对跟踪式干扰具有较好抑制能力,在干扰方向的零陷抑制深度达50 dB以上,并且与普通跳频系统相比在-3 dB的强干扰环境下具有优良的误码率特性。
The two-dimensional virtual space smoothing algorithm is derived employing the received signals of all array elements and their conjugate data based on the rectangular array.By constructing virtual sub-array to eliminate the correlation between the interference signal and the desired signal,the array aperture loss is reduced and the spectral resolution of space is improved.A frequency-hopping communication system with inhibition of tracking interference is designed by combining this algorithm with phase compensation.The theoretical analysis and simulation results show that the new system is good on the tracking interference suppression with a-50 dB interference rejection for the tracking rejection and has a good bit error rate characteristics at-3 dB strong interference environment.
出处
《电子与信息学报》
EI
CSCD
北大核心
2011年第5期1193-1197,共5页
Journal of Electronics & Information Technology
基金
教育部博士点基金(20091102120010)
中国空间技术研究院资助课题
关键词
跳频通信
自适应波束形成
跟踪式干扰
2维虚拟空间平滑
相位补偿
信干噪比
Frequency-hopping communication
Adaptive beam-forming
Tracking interference
Two-dimensional virtual space smoothing
Phase compensation
SINR
