中文摘要：

为避免失真,奈奎斯特定理规定采样频率不得低于信号最高频率的两倍.随着使用带宽的不断增加,所需高速采样速率在目前的技术水平下难以实现.压缩采样能够在远低于奈奎斯特采样速率的条件下较好地保持稀疏信号的结构和信息.已有文献均对已知信号进行讨论,针对稀疏度未知的随机信号检测问题,本文将压缩采样与序贯检测技术相结合,分别提出了基于单节点非重构序贯压缩和分布式协作非重构序贯压缩的随机信号检测算法,分析了新算法检测性能.理论分析与仿真结果表明：在保证性能的前提下,本文提出的方法显著减少了所需观测值数目,而且完全避免了复杂的信号重构,节省了时间开销,提高了检测的实时性.

英文摘要：

In order to prevent signal distortion,according to the conventional Nyquist sampling theorem,the sampling rate should not be less than twice the Nyquist sampling rate.However,with the increasing use of bandwidth,high-speed sampling rate required is difficult to achieve under the current technology level.Compressive sampling can maintain the structure and information of the original sparse signal far below the Nyquist sampling rate.The existing literatures all discussed about the compressive detection of known signal.Focusing on the detection of sparse random signal,we propose a sequential compressive sensing scheme.Then we discuss the performance of detection and use it in distribute collaboration spectrum sensing.Theoretical analysis and simulation results show that sequential compressive detection can significantly save the number of measurements under a given detection performance.This algorithm reduces the detection time,and also avoids the reconstruction of original signal,of which computer complexity is very high.