Joint channel estimation and activity detection for multiuser communication systems

Gabor Hannak, M. Mayer, A. Jung, G. Matz, N. Goertz
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引用次数: 48

Abstract

We consider overloaded (non-orthogonal) code division multiple access multiuser wireless communication systems with many transmitting users and one central aggregation node, a typical scenario in e.g. machine-to-machine communications. The task of the central node is to detect the set of active devices and separate their data streams, whose number at any time instance is relatively small compared to the total number of devices in the system. We introduce a novel two-step detection procedure: the first step involves the simultaneous transmission of a pilot sequence used for identification of the active devices and the estimation of their respective channel coefficients. In the second step the payload is transmitted by all active devices and received synchronously at the central node. The first step reduces to a compressed sensing (CS) problem due to the relatively small number of simultaneously active devices. Using an efficient CS recovery scheme (approximate message passing), joint activity detection and channel estimation with high reliability is possible, even for extremely large-scale systems. This, in turn, reduces the data detection task to a simple overdetermined system of linear equations that is then solved by classical methods in the second step.
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多用户通信系统的联合信道估计和活动检测
我们考虑具有多个发送用户和一个中心汇聚节点的超载(非正交)码分多址多用户无线通信系统,这是机器对机器通信中的典型场景。中心节点的任务是检测活动设备集并分离它们的数据流,与系统中设备总数相比,中心节点在任何时间实例的数量相对较少。我们介绍了一种新的两步检测程序:第一步涉及同时传输用于识别有源设备和估计其各自信道系数的导频序列。在第二步中,有效载荷由所有活动设备传输,并在中心节点同步接收。由于同时有源设备的数量相对较少,第一步减少为压缩感知(CS)问题。使用有效的CS恢复方案(近似消息传递),即使对于超大规模的系统,也可以实现高可靠性的联合活动检测和信道估计。这反过来又将数据检测任务简化为一个简单的超定线性方程组,然后在第二步中用经典方法求解。
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