Van-Bien Pham, Weixing Sheng, Xiaofeng Ma, Hao Wang
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引用次数: 3
摘要
最近,Zhang-Liu-Wong引入了Toeplitz码,并证明了Toeplitz码在使用线性接收机、零强迫(zero-forcing, ZF)或最小均方误差(minimum mean square error, MMSE)接收机时可以实现完全分集。不幸的是,Toeplitz代码有大量的零。设计中的零导致高峰值平均功率比(PAPR),并且在发送零时关闭某些发射天线时,也对代码的硬件实现施加了严重的约束。这促使我们为线性接收器设计具有所有条目非零的全分集stbc。因此,我们提出的代码不仅具有较低的PAPR,而且比Toeplitz代码更容易实现。此外,仿真结果还表明,我们的编码在峰值功率约束下的性能优于Toeplitz编码,而在平均功率约束下的性能也优于Toeplitz编码。
No-zero-entry STBC scheme of achieving full diversity with linear receiver
Recently, Zhang-Liu-Wong introduced Toeplitz codes and showed that Toeplitz codes achieve full diversity when a linear receiver, zero-forcing (ZF) or minimum mean square error (MMSE) receiver, is used. Unfortunately, Toeplitz codes suffer from large numbers of zeros. The zeros in the design result in high peak-to-average power ratio (PAPR) and also impose a severe constraint on hardware implementation of the code when turning off some of the transmitting antennas whenever a zero is transmitted. This motivates us to design full diversity STBCs having all its entries non-zero for linear receivers. As a result, our proposed codes not only have lower PAPR, but also easier implementation than Toeplitz codes. Moreover, simulation results also show that our codes outperform Toeplitz codes under peak power constraint while performing the same under average power constraint.
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