针对UWB(u ltra-w ide band)脉冲波形的特点,提出了基于Parks-M cC lellan算法的UWB无线脉冲波形的优化设计方法,其基本思想是将UWB无线脉冲波形的优化设计等效为FIR(fin ite impu lse response)滤波器的优化设计问题.对单周脉冲采用TH(...针对UWB(u ltra-w ide band)脉冲波形的特点,提出了基于Parks-M cC lellan算法的UWB无线脉冲波形的优化设计方法,其基本思想是将UWB无线脉冲波形的优化设计等效为FIR(fin ite impu lse response)滤波器的优化设计问题.对单周脉冲采用TH(tim e hopp ing)和二进制PPM(pu lse position modu lation)处理后得到的单频带和多频带模式UWB脉冲波形可充分满足FCC(federal commun ication comm ittee)的频谱要求,相应的结果适用于单频带和多频带模式UWB系统.展开更多
为了解决认知超宽带与窄带系统共存问题,实现认知超宽带无线电自适应波形设计,采用高斯函数的加权叠加作为认知超宽带脉冲波形.通过将波形设计问题转化为线性滤波器设计问题,采用Parks-M cC lellan算法进行求解,实现了任意中心频率和带...为了解决认知超宽带与窄带系统共存问题,实现认知超宽带无线电自适应波形设计,采用高斯函数的加权叠加作为认知超宽带脉冲波形.通过将波形设计问题转化为线性滤波器设计问题,采用Parks-M cC lellan算法进行求解,实现了任意中心频率和带宽陷波的波形设计.并进一步提出了利用权重值数组控制不同频带陷波深度的方法.仿真结果表明,所设计波形的功率谱密度在WLAN频段上可以实现约-30 dB的陷波,同时也可以实现多个频段陷波的波形设计.根据实际需要选择权重值可以控制各个频段的陷波的深度.展开更多
An efficient method is proposed for the design of finite impulse response(FIR) filter with arbitrary pass band edge,stop band edge frequencies and transition width.The proposed FIR band stop filter is designed using c...An efficient method is proposed for the design of finite impulse response(FIR) filter with arbitrary pass band edge,stop band edge frequencies and transition width.The proposed FIR band stop filter is designed using craziness based particle swarm optimization(CRPSO) approach.Given the filter specifications to be realized,the CRPSO algorithm generates a set of optimal filter coefficients and tries to meet the ideal frequency response characteristics.In this paper,for the given problem,the realizations of the optimal FIR band pass filters of different orders have been performed.The simulation results have been compared with those obtained by the well accepted evolutionary algorithms,such as Parks and McClellan algorithm(PMA),genetic algorithm(GA) and classical particle swarm optimization(PSO).Several numerical design examples justify that the proposed optimal filter design approach using CRPSO outperforms PMA and PSO,not only in the accuracy of the designed filter but also in the convergence speed and solution quality.展开更多
文摘针对UWB(u ltra-w ide band)脉冲波形的特点,提出了基于Parks-M cC lellan算法的UWB无线脉冲波形的优化设计方法,其基本思想是将UWB无线脉冲波形的优化设计等效为FIR(fin ite impu lse response)滤波器的优化设计问题.对单周脉冲采用TH(tim e hopp ing)和二进制PPM(pu lse position modu lation)处理后得到的单频带和多频带模式UWB脉冲波形可充分满足FCC(federal commun ication comm ittee)的频谱要求,相应的结果适用于单频带和多频带模式UWB系统.
文摘为了解决认知超宽带与窄带系统共存问题,实现认知超宽带无线电自适应波形设计,采用高斯函数的加权叠加作为认知超宽带脉冲波形.通过将波形设计问题转化为线性滤波器设计问题,采用Parks-M cC lellan算法进行求解,实现了任意中心频率和带宽陷波的波形设计.并进一步提出了利用权重值数组控制不同频带陷波深度的方法.仿真结果表明,所设计波形的功率谱密度在WLAN频段上可以实现约-30 dB的陷波,同时也可以实现多个频段陷波的波形设计.根据实际需要选择权重值可以控制各个频段的陷波的深度.
文摘An efficient method is proposed for the design of finite impulse response(FIR) filter with arbitrary pass band edge,stop band edge frequencies and transition width.The proposed FIR band stop filter is designed using craziness based particle swarm optimization(CRPSO) approach.Given the filter specifications to be realized,the CRPSO algorithm generates a set of optimal filter coefficients and tries to meet the ideal frequency response characteristics.In this paper,for the given problem,the realizations of the optimal FIR band pass filters of different orders have been performed.The simulation results have been compared with those obtained by the well accepted evolutionary algorithms,such as Parks and McClellan algorithm(PMA),genetic algorithm(GA) and classical particle swarm optimization(PSO).Several numerical design examples justify that the proposed optimal filter design approach using CRPSO outperforms PMA and PSO,not only in the accuracy of the designed filter but also in the convergence speed and solution quality.