Adaptive Threshold Clipper Combining Receiver for Fast Frequency Hopping Systems during Partial-Band Noise Jamming

Diversity combining technologies are analyzed for fast frequency-hopping spread spectrum systems during partial-band noise jamming to develop a novel combining receiver called an Adaptive Threshold Clipper Combining Receiver (ATCCR). The optimal clipping level for an ATCCR is analyzed, computed, and compared with several other diversity combining technologies. Since the ATCCR can estimate the power of the jamming and the number of jammed frequency cells to adaptively adjust the clipper's threshold, the system performance using the adaptive threshold clipper combining technique can be greatly improved.

乘积合并接收的差分跳频通信系统在瑞利衰落信道上抗部分频带干扰的性能分析

该文介绍了一种新型短波跳频通信技术——差分跳频,频率转移函数设计和信号的检测方法是差分跳频中的关键技术。在瑞利衰落信道上,在有部分频带干扰和加性高斯白噪声共存的条件下,采用乘积合并接收的方法,对差分跳频通信系统的误符号性能进行了理论分析,同时做出相应的计算机仿真。结果证实了,在瑞利衰落信道上差分跳频通信系统采用乘积合并接收的方法要比采用线性合并接收的方法具备更好的抗部分频带干扰的性能。

Nakagami衰落信道下NNC-DFH接收机抗部分频带干扰性能分析

该文提出了一种噪声归一化合并(NNC)差分跳频(DFH)接收机模型以提高差分跳频系统抗部分频带干扰能力。给出了Nakagami衰落信道下NNC-DFH接收机在部分频带干扰及背景热噪声下误符号率边界的闭式表达式,并采用矩生成函数法进一步求得了衰落指数m为整数时的简化性能边界。仿真结果表明:在非最坏部分频带干扰下,仅在衰落较弱且干扰能量较为分散的特殊情况下,线性合并(LC)DFH接收机性能略优于NNC-DFH接收机,其它情况下NNC-DFH接收机总是优于LC-DFH接收机,且干扰越集中性能优势越显著;在最坏部分频带干扰下,NNC-DFH接收机的抗部分频带干扰性能优于LC-DFH接收机,与信道衰落程度及干扰带宽因子取值无关。