针对普遍单脉冲位置调制的不足,在已有的UWB(Ultra-Wideband)脉冲位置调制研究基础上,提出了一种改进的双极性多脉冲位置调制(AMPPM:Ambipolar Multi-Pulse Position Modulation)的UWB跳时调制方案,并对其加性高斯白噪声(AWGN:Additive ...针对普遍单脉冲位置调制的不足,在已有的UWB(Ultra-Wideband)脉冲位置调制研究基础上,提出了一种改进的双极性多脉冲位置调制(AMPPM:Ambipolar Multi-Pulse Position Modulation)的UWB跳时调制方案,并对其加性高斯白噪声(AWGN:Additive white Gaussian Noise)下的信道容量,最大可靠通信距离等性能指标进行了理论分析。理论分析及实验数值结果表明,在相同的条件下,与普通的单脉冲位置调制(PPM:Pulse Position Modulation)相比,AMPPM能获得较高的容量,即在给定可实现脉冲宽度下可获得更高的通信速率。仿真结果表明,当脉冲宽度为0.5 ns时,L进制AMPPM可达到333 Mbit/s的速率,而同等条件下的L进制PPM仅能达到167 Mbit/s的速率。同时AMPPM在最大可靠通信距离指标方面也较相应的PPM及脉冲幅度调制(PAM:Pulse Amplitude Modulation)有改善,在100 Mbit/s及10-4的误码率下可达到8 m的通信距离。展开更多
A new ultra-wide band (UWB) modulation scheme called L-ary ultra-wide band time hopping multi-pulse position modulation (UWB-TH-MPPM) is proposed for high data-rate wireless application, which can provide better commu...A new ultra-wide band (UWB) modulation scheme called L-ary ultra-wide band time hopping multi-pulse position modulation (UWB-TH-MPPM) is proposed for high data-rate wireless application, which can provide better communication performance. The constant weight code is introduced to construct the MPPM signal and the comparison between MPPM and single pulse position modulation (SPPM) is done in three aspects, namely, power efficiency, bandwidth efficiency, and probability of symbol error, respectively. The theoretical analysis and the numerical results show that when the constant weight code is appropriately chosen, MPPM can achieve lower probability of symbol error and higher power efficiency than SPPM at the cost of more bandwidth under the same condition. The proposed MPPM can be a good candidate in UWB system design.展开更多
基金National Natural Science Foundation of China (60271018, 60331010) 0pen Fund of Key Lab of 0ptical Communication and Light-wave Technology (Beijing University of Posts and Telecommunications), Ministry of Education, China.
文摘A new ultra-wide band (UWB) modulation scheme called L-ary ultra-wide band time hopping multi-pulse position modulation (UWB-TH-MPPM) is proposed for high data-rate wireless application, which can provide better communication performance. The constant weight code is introduced to construct the MPPM signal and the comparison between MPPM and single pulse position modulation (SPPM) is done in three aspects, namely, power efficiency, bandwidth efficiency, and probability of symbol error, respectively. The theoretical analysis and the numerical results show that when the constant weight code is appropriately chosen, MPPM can achieve lower probability of symbol error and higher power efficiency than SPPM at the cost of more bandwidth under the same condition. The proposed MPPM can be a good candidate in UWB system design.
