Multi-level Energy Detection for Ambient Backscatter System with M-PSK Modulation

Jing Qian, Aaron N. Parks, Joshua R. Smith, F. Gao
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引用次数: 1

Abstract

Existing Ambient Backscatter systems make use of two-state ASK or PSK scattering to communicate data among low-power transceivers, where data are transferred at the rate of only one bit per symbol period. Motivated by improving data rate between two transceivers in the Internet of Things and with the low-power constraint, we investigate the situation where the backscattering device employs M-ary PSK modulation. We derive the multi-level energy detector at the receiving device from the multiple hypotheses testing and compute the closed-form expressions of thresholds and symbol error rate. Numerical simulation results are provided to verify the theoretical studies.
M-PSK调制环境后向散射系统的多级能量检测
现有的环境反向散射系统利用双态ASK或PSK散射在低功耗收发器之间进行数据通信,其中数据以每个符号周期仅1位的速率传输。为了提高物联网中两个收发器之间的数据速率,在低功耗约束下,我们研究了后向散射器件采用M-ary PSK调制的情况。我们从多个假设检验中推导出接收装置上的多级能量检测器,并计算出阈值和符号错误率的封闭表达式。数值模拟结果验证了理论研究的正确性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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