采用三阶信噪比(signal to interference ratio,SIR)干扰谐振器作为基本谐振单元,通过调整阻抗比控制主频和第一杂散频率的位置,设计了一种新型高阻带抑制双通带滤波器.滤波器第一通带由主谐振频率产生,第二通带由第一杂散频率产生.运...采用三阶信噪比(signal to interference ratio,SIR)干扰谐振器作为基本谐振单元,通过调整阻抗比控制主频和第一杂散频率的位置,设计了一种新型高阻带抑制双通带滤波器.滤波器第一通带由主谐振频率产生,第二通带由第一杂散频率产生.运用三角耦合结构作为该滤波器的拓扑结构,使得整体滤波器呈现出带外传输零点和阻带的高抑制度.使用交指型耦合结构实现输入/输出端的强耦合,得到较高的外部品质因数.该滤波器的两个通带中心频率分别为1.57 GHz(GPS)和2.5 GHz(4G),3 d B带宽分别为4.0%和2.4%.结果表明,测量结果和仿真结果基本吻合.展开更多
Signal-to-Interference Ratio(SIR) is a very important metric of communication link quality. For wireless cellular systems, several control mechanisms, such as power control mechanisms, rate control mechanisms, and all...Signal-to-Interference Ratio(SIR) is a very important metric of communication link quality. For wireless cellular systems, several control mechanisms, such as power control mechanisms, rate control mechanisms, and allocation of radio resource, are based on SIR estimation.In previous researches, most of researchers concentrated on WCDMA systems, in which pilot symbol is time-multiplexed with data symbol; the method developed in this case is not feasible for cdma2000 systems where pilot symbol is code-multiplexed with data symbol. This paper first develops the SIR estimators based on the reverse pilot channel and then derives the approximate analytic expression for its Mean Squared Error (MSE) function, the accuracy of which is validated through simulation. It is shown that the MSE of the new SIR estimator is significantly smaller than that of other widely used SIR estimators, especially in low SIR case. Finally, the estimate quality of the proposed method is further improved by long-termly averaging the sample interference.展开更多
As the radio spectrum is a very scarce resource,the Call Admission Control (CAC) is one of the most important parts in radio resource management. The Code Division Multiple Access (CDMA) based next generation wireless...As the radio spectrum is a very scarce resource,the Call Admission Control (CAC) is one of the most important parts in radio resource management. The Code Division Multiple Access (CDMA) based next generation wireless communications systems will support the transmission of multimedia traffic,such as voice,video and data,thus the CAC,which can support the multimedia traffic and guarantee the Quality of Service (QoS) of different traffic,has gained broad attention. In this paper,a novel multimedia traffic modeling method and a corresponding dynamic QoS based CAC are proposed. The analysis and simulation results show that the proposed CAC scheme can guarantee the QoS to different traffic demand,and improve the system performance significantly.展开更多
基于CDMA(code d ivision mu ltip le access)系统接纳控制(call adm ission control,CAC)机制没有完全考虑各种多媒体业务的现状,研究了CDMA系统中剩余容量的计算方法,采用更加符合目前无线多媒体网络中业务实际情况的业务模型,给出了...基于CDMA(code d ivision mu ltip le access)系统接纳控制(call adm ission control,CAC)机制没有完全考虑各种多媒体业务的现状,研究了CDMA系统中剩余容量的计算方法,采用更加符合目前无线多媒体网络中业务实际情况的业务模型,给出了一种针对多媒体业务的基于QoS(quality of service)保证的动态CAC算法.分析与仿真结果表明,该算法在保证各种业务QoS要求的情况下,可以显著改善CDMA系统的呼叫等待延时和中断率等性能,提高系统资源的利用率.展开更多
针对正交频分复用(OFDM)系统中由频率偏移引起的子载波间干扰(ICI)的问题,提出了一种基于对称子载波的ICI自消除算法。该算法将互为相反数的发送符号映射到对称的子载波上,并在接收端将解调信号进行线性组合。为了进一步降低ICI,将基于...针对正交频分复用(OFDM)系统中由频率偏移引起的子载波间干扰(ICI)的问题,提出了一种基于对称子载波的ICI自消除算法。该算法将互为相反数的发送符号映射到对称的子载波上,并在接收端将解调信号进行线性组合。为了进一步降低ICI,将基于对称子载波的ICI自消除算法与时域加窗相结合,即在发送数据符号之前,与升余弦函数相乘。对算法进行仿真实验,相对于相邻符号自消除算法,该算法减小了子载波间的干扰系数;加窗后OFDM符号频谱的边瓣衰减速度快,最大可衰减至-40 d B;对于系统的信号干扰比性能(SIR),加窗后的算法同相邻符号自消除算法相比可提高8 d B左右;在信噪比较大的情况下,改善了系统的误码率。仿真结果表明,所提算法能够抑制ICI,提高系统抗干扰性能。展开更多
文摘采用三阶信噪比(signal to interference ratio,SIR)干扰谐振器作为基本谐振单元,通过调整阻抗比控制主频和第一杂散频率的位置,设计了一种新型高阻带抑制双通带滤波器.滤波器第一通带由主谐振频率产生,第二通带由第一杂散频率产生.运用三角耦合结构作为该滤波器的拓扑结构,使得整体滤波器呈现出带外传输零点和阻带的高抑制度.使用交指型耦合结构实现输入/输出端的强耦合,得到较高的外部品质因数.该滤波器的两个通带中心频率分别为1.57 GHz(GPS)和2.5 GHz(4G),3 d B带宽分别为4.0%和2.4%.结果表明,测量结果和仿真结果基本吻合.
文摘Signal-to-Interference Ratio(SIR) is a very important metric of communication link quality. For wireless cellular systems, several control mechanisms, such as power control mechanisms, rate control mechanisms, and allocation of radio resource, are based on SIR estimation.In previous researches, most of researchers concentrated on WCDMA systems, in which pilot symbol is time-multiplexed with data symbol; the method developed in this case is not feasible for cdma2000 systems where pilot symbol is code-multiplexed with data symbol. This paper first develops the SIR estimators based on the reverse pilot channel and then derives the approximate analytic expression for its Mean Squared Error (MSE) function, the accuracy of which is validated through simulation. It is shown that the MSE of the new SIR estimator is significantly smaller than that of other widely used SIR estimators, especially in low SIR case. Finally, the estimate quality of the proposed method is further improved by long-termly averaging the sample interference.
基金Supported in part by the SWJTU Funding under Grant 2003B006.
文摘As the radio spectrum is a very scarce resource,the Call Admission Control (CAC) is one of the most important parts in radio resource management. The Code Division Multiple Access (CDMA) based next generation wireless communications systems will support the transmission of multimedia traffic,such as voice,video and data,thus the CAC,which can support the multimedia traffic and guarantee the Quality of Service (QoS) of different traffic,has gained broad attention. In this paper,a novel multimedia traffic modeling method and a corresponding dynamic QoS based CAC are proposed. The analysis and simulation results show that the proposed CAC scheme can guarantee the QoS to different traffic demand,and improve the system performance significantly.
文摘基于CDMA(code d ivision mu ltip le access)系统接纳控制(call adm ission control,CAC)机制没有完全考虑各种多媒体业务的现状,研究了CDMA系统中剩余容量的计算方法,采用更加符合目前无线多媒体网络中业务实际情况的业务模型,给出了一种针对多媒体业务的基于QoS(quality of service)保证的动态CAC算法.分析与仿真结果表明,该算法在保证各种业务QoS要求的情况下,可以显著改善CDMA系统的呼叫等待延时和中断率等性能,提高系统资源的利用率.
文摘针对正交频分复用(OFDM)系统中由频率偏移引起的子载波间干扰(ICI)的问题,提出了一种基于对称子载波的ICI自消除算法。该算法将互为相反数的发送符号映射到对称的子载波上,并在接收端将解调信号进行线性组合。为了进一步降低ICI,将基于对称子载波的ICI自消除算法与时域加窗相结合,即在发送数据符号之前,与升余弦函数相乘。对算法进行仿真实验,相对于相邻符号自消除算法,该算法减小了子载波间的干扰系数;加窗后OFDM符号频谱的边瓣衰减速度快,最大可衰减至-40 d B;对于系统的信号干扰比性能(SIR),加窗后的算法同相邻符号自消除算法相比可提高8 d B左右;在信噪比较大的情况下,改善了系统的误码率。仿真结果表明,所提算法能够抑制ICI,提高系统抗干扰性能。