This paper proposed an optimized fast handoff scheme for real time applications in next generation IP based CDMA wireless networks. The idea is to utilize optimized IP multicasting handoff (based on PIM SM), which is ...This paper proposed an optimized fast handoff scheme for real time applications in next generation IP based CDMA wireless networks. The idea is to utilize optimized IP multicasting handoff (based on PIM SM), which is triggered by CDMA layer 2 functionality. An IP based cellular network model with WCDMA FDD air interface and IP based packet traffic is adopted. No special network entities and signaling for handoff are added in our network model. The simulation results show that low delay and low packet lost rate can be obtained.展开更多
针对水声无线传感器网络基于CDMA组网的需求,提出了一种支持CDMA机制的水声扩频通信系统UADSSS/CDMA(a Direct Sequence Spread Spectrum based Underwater AcousticCommunication System for CDMA based Networks)。系统采用直接序列...针对水声无线传感器网络基于CDMA组网的需求,提出了一种支持CDMA机制的水声扩频通信系统UADSSS/CDMA(a Direct Sequence Spread Spectrum based Underwater AcousticCommunication System for CDMA based Networks)。系统采用直接序列扩频方式,调制方式为BPSK/QPSK,信道编码采用RA码。为了降低接收机的相位捕获复杂度,发射机采用扩频码相位和载波相位同相的载波调制方式。接收机采用基于带通信号捕获的方法,支持码分多址访问,捕获算法为延迟相关捕获算法;采用先解扩后解调的系统结构,提高系统的通信速率。进行了基于MATLAB的仿真和基于实验系统的验证。仿真和实验结果表明,系统在抑制多径干扰和支持多用户通信方面具有良好的性能,在具有两个用户通信干扰的水池环境下,系统误码率为10-3数量级。展开更多
文摘This paper proposed an optimized fast handoff scheme for real time applications in next generation IP based CDMA wireless networks. The idea is to utilize optimized IP multicasting handoff (based on PIM SM), which is triggered by CDMA layer 2 functionality. An IP based cellular network model with WCDMA FDD air interface and IP based packet traffic is adopted. No special network entities and signaling for handoff are added in our network model. The simulation results show that low delay and low packet lost rate can be obtained.
文摘针对水声无线传感器网络基于CDMA组网的需求,提出了一种支持CDMA机制的水声扩频通信系统UADSSS/CDMA(a Direct Sequence Spread Spectrum based Underwater AcousticCommunication System for CDMA based Networks)。系统采用直接序列扩频方式,调制方式为BPSK/QPSK,信道编码采用RA码。为了降低接收机的相位捕获复杂度,发射机采用扩频码相位和载波相位同相的载波调制方式。接收机采用基于带通信号捕获的方法,支持码分多址访问,捕获算法为延迟相关捕获算法;采用先解扩后解调的系统结构,提高系统的通信速率。进行了基于MATLAB的仿真和基于实验系统的验证。仿真和实验结果表明,系统在抑制多径干扰和支持多用户通信方面具有良好的性能,在具有两个用户通信干扰的水池环境下,系统误码率为10-3数量级。
