A new approach for peak-to-average power ratio (PAPR) reduction in orthogonal frequency division multiplexing (OFDM) systems was proposed.This approach is based on assigning powers to the different subcarriers of OFDM...A new approach for peak-to-average power ratio (PAPR) reduction in orthogonal frequency division multiplexing (OFDM) systems was proposed.This approach is based on assigning powers to the different subcarriers of OFDM using an unequal power distribution strategy.In addition,a reduced complexity selective mapping (RC-SLM) scheme was proposed.The proposed scheme is based on partitioning the frequency domain symbol sequence into several sub-blocks,and then each sub-block is multiplied by different phase sequences whose length is shorter than that used in the conventional SLM scheme.Then,a kind of low complexity conversions is used to replace the IFFT blocks.The performance of the proposed RC-SLM scheme along with the new approach was studied with computer simulation.The obtained results show that the proposed RC-SLM scheme is able to achieve the lowest computational complexity when compared with other low complexity schemes proposed in the literature while at the same time improves the PAPR reduction performance by about 0.3 dB.展开更多
工作于高频(HF)、甚高频(VHF)和超高频(UHF)拥塞频段的宽频带雷达,面临频带使用限制以及多种无线通讯系统同频窄带干扰的问题.对此,该文以峰均功率比(peak-to-average power ratio,PAR)为约束条件,建立联合优化功率谱密度(power spectru...工作于高频(HF)、甚高频(VHF)和超高频(UHF)拥塞频段的宽频带雷达,面临频带使用限制以及多种无线通讯系统同频窄带干扰的问题.对此,该文以峰均功率比(peak-to-average power ratio,PAR)为约束条件,建立联合优化功率谱密度(power spectrum density,PSD)和积分旁瓣电平(integrated sidelobe level,ISL)的波形设计目标函数,提出了一种基于快速傅里叶变换和子空间分解的循环迭代算法求解目标函数的方法.仿真实验结果表明,经过优化的波形在提高多频段限制中频谱利用率的同时,有效地抑制了窄带干扰且具有较低的旁瓣.展开更多
降低正交频分复用系统(Orthogonal Frequency Division Multiplexing,OFDM)的峰均功率比是有效应用OFDM技术的关键。提出了一种有效降低信号峰均比的方法,大大减少了传统的降OFDM系统的峰均比计算复杂度。仿真结果表明新算法更好地降低...降低正交频分复用系统(Orthogonal Frequency Division Multiplexing,OFDM)的峰均功率比是有效应用OFDM技术的关键。提出了一种有效降低信号峰均比的方法,大大减少了传统的降OFDM系统的峰均比计算复杂度。仿真结果表明新算法更好地降低了正交频分复用系统信号的峰均比。展开更多
提出一种改进的多路电源并联结构用于多电平开关变换,并与线性调节电路结合实现快速参考跟踪性能。为使得线性调节效率最优,分别针对已知概率密度函数和已知时间函数的两种参考信号,提出多电平变换所需优化电平的确定方法。通过与等分...提出一种改进的多路电源并联结构用于多电平开关变换,并与线性调节电路结合实现快速参考跟踪性能。为使得线性调节效率最优,分别针对已知概率密度函数和已知时间函数的两种参考信号,提出多电平变换所需优化电平的确定方法。通过与等分电平的比较可知,优化电平在提升线性调节效率方面更具优越性,且参考信号的峰值平均功率比(peak-to-average power ratio,PAR)比越高,采用优化电平时的线性调节效率越高。设计了四电平实验样机,可跟踪带宽1 MHz内的任意信号,最大瞬时输出功率可达50 W。展开更多
在信号相关杂波背景下,现有方法大部分均基于频域进行雷达估计波形设计,这将引起相位信息的缺失从而导致波形变换到时域后性能降低。针对上述问题,同时兼顾放大器的非线性特性,提出了一种基于时域的低峰均比(peak-to-average power rati...在信号相关杂波背景下,现有方法大部分均基于频域进行雷达估计波形设计,这将引起相位信息的缺失从而导致波形变换到时域后性能降低。针对上述问题,同时兼顾放大器的非线性特性,提出了一种基于时域的低峰均比(peak-to-average power ratio,PAR)估计波形设计方法。首先,根据最大互信息准则在时域上构建了优化问题模型;然后,基于序列线性规划思想,将非凸的优化问题松弛为凸问题,并求得波形矩阵的近似解;最后,对该波形矩阵解进行逼近,使得新的波形矩阵满足Toeplitz结构,进而提取出波形向量解。仿真结果表明,与现有方法相比,本文方法在不增加运算量的前提下具有更好的估计性能。展开更多
文摘A new approach for peak-to-average power ratio (PAPR) reduction in orthogonal frequency division multiplexing (OFDM) systems was proposed.This approach is based on assigning powers to the different subcarriers of OFDM using an unequal power distribution strategy.In addition,a reduced complexity selective mapping (RC-SLM) scheme was proposed.The proposed scheme is based on partitioning the frequency domain symbol sequence into several sub-blocks,and then each sub-block is multiplied by different phase sequences whose length is shorter than that used in the conventional SLM scheme.Then,a kind of low complexity conversions is used to replace the IFFT blocks.The performance of the proposed RC-SLM scheme along with the new approach was studied with computer simulation.The obtained results show that the proposed RC-SLM scheme is able to achieve the lowest computational complexity when compared with other low complexity schemes proposed in the literature while at the same time improves the PAPR reduction performance by about 0.3 dB.
文摘降低正交频分复用系统(Orthogonal Frequency Division Multiplexing,OFDM)的峰均功率比是有效应用OFDM技术的关键。提出了一种有效降低信号峰均比的方法,大大减少了传统的降OFDM系统的峰均比计算复杂度。仿真结果表明新算法更好地降低了正交频分复用系统信号的峰均比。
文摘提出一种改进的多路电源并联结构用于多电平开关变换,并与线性调节电路结合实现快速参考跟踪性能。为使得线性调节效率最优,分别针对已知概率密度函数和已知时间函数的两种参考信号,提出多电平变换所需优化电平的确定方法。通过与等分电平的比较可知,优化电平在提升线性调节效率方面更具优越性,且参考信号的峰值平均功率比(peak-to-average power ratio,PAR)比越高,采用优化电平时的线性调节效率越高。设计了四电平实验样机,可跟踪带宽1 MHz内的任意信号,最大瞬时输出功率可达50 W。
文摘在信号相关杂波背景下,现有方法大部分均基于频域进行雷达估计波形设计,这将引起相位信息的缺失从而导致波形变换到时域后性能降低。针对上述问题,同时兼顾放大器的非线性特性,提出了一种基于时域的低峰均比(peak-to-average power ratio,PAR)估计波形设计方法。首先,根据最大互信息准则在时域上构建了优化问题模型;然后,基于序列线性规划思想,将非凸的优化问题松弛为凸问题,并求得波形矩阵的近似解;最后,对该波形矩阵解进行逼近,使得新的波形矩阵满足Toeplitz结构,进而提取出波形向量解。仿真结果表明,与现有方法相比,本文方法在不增加运算量的前提下具有更好的估计性能。