HSDPA部署策略及覆盖、容量规划

本文介绍了HSDPA的发展背景,针对HSDPA的主要技术特点,依据市场发展规划、用户需求等方面对HSDPA部署进行探讨,并对HSDPA的覆盖与容量方面进行规划分析.     

Improved aquila optimization-based parameter evaluation framework and meta-heuristic algorithm in radio-over-fiber SpatialMux multi-input multi-output long-term evolution system

In heterogeneous access network, Multiple-Input Multiple-Output (MIMO) radio-over-fiber (RoF) system is an efficient approach for multiple signal transmission with low cost and complexity. The performance of RoF fronthaul system in MIMO system will be varied with different nonlinear effects. By adjusting various transmission parameters, such as the input signal power or the laser bias current, the nonlinear impacts produced by the RoF system can be reduced. In this paper, a novel algorithm Improved Aquila Optimization (IAO) is proposed to optimize transmission circumstances of MIMO RoF system. It determines the appropriate bias current for both lasers and Radio Frequency (RF) signal power in a short period. The input signals are wavelength multiplexed with Intensity Modulation and Direct Detection (IM/DD) applied. The carrier as well as transmission frequency is governed by the MIMO-Long-Term Evolution (LTE) standard. The proposed system is implemented in MATLAB, and the performance is evaluated. The experimental results show that fast convergence and trade-off between noise and nonlinearity are obtained with varying bandwidth. In the experimental scenario, the maximum Error Vector Magnitude (EVM) of 1.88, 3.14, and signal-to-noise ratio (SNR) of 3.204, and 2.698 was attained for both quadrature phase shift keying (QPSK) and quadrature amplitude modulation (QAM) modulation. [Correction added on 24 April 2023, after first online publication: the SNR values were corrected in the preceding sentence.] For 100 iterations, the processing time was reduced to 0.137 s. When compared with the conventional state-of-the-art approaches, the accuracy and computational complexity of the proposed approach are improved.     

QPSK调制与FEC差错控制在DVB系统中的应用

在简要介绍ＤＶＢ接收系统基本结构的基础上,分析了ＤＶＢ－Ｓ标准下数字卫星接收机呆变码率的ＱＰＳＫ解调和ＦＥＣ的差错控制技术,最后结合自行开发的ＤＶＢ数字卫星接收机对包含解调与ＦＥＣ功能的两种集成电路芯片了比较。     

基于System Generator的QPSK数字调制器设计

载波同步是相干解调通信系统中必不可少的组成部分,常用锁相环技术予以实现。System Generator是一款理想的FPGA开发软件,它提供了FPGA和simulink仿真软件的接口,可以把simulink中的模型自动转换成位流文件,以便下载到FPGA中,实现FPGA硬件设计的自动化。采用数字锁相环技术,在simulink中利用System Generator建立QPSK调制系统的模型,并仿真以验证锁相环技术的性能。仿真结果表明,通过合理设置参数,数字锁相环能很好地获取同频同相的载波分量,实现通信系统的正确解调。     

Nonlinear compensation research and simulation of bandlimited QPSK digital satellite channels

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基于软件无线电的QPSK解调的设计

在无线通信系统中,调制解调技术的好坏很大程度上决定了通信的质量,QPSK调制方式具有优越的性能,在无线移动通信领域中被广泛采用.文中详细介绍了QPSK的相干解调的整体方案并重点介绍了用CORDIC算法的基本原理,以及由CORDIC算法实现数控振荡器（NCO）的方法和硬件电路的设计.     

水声通信变步长自适应多普勒补偿

针对水声通信中信号收发双方相对运动引起的多普勒效应,对于QPSK调制信号在自适应多普勒补偿的基础上提出一种变步长自适应多普勒补偿算法。该算法根据接收信号的均衡误差和相位估计,调节多普勒跟踪步长,估计出多普勒效应,通过线性插值法对接收信号进行多普勒补偿。通过计算机仿真,将其与恒定多普勒跟踪步长的自适应多普勒补偿方法进行了性能对比,结果显示该方法能够较好估计出多普勒效应,提高了接收性能。     

基于AD9910的QPSK调制技术

介绍了QPSK调制技术的工作原理、性能及AD9910的功能。重点论述了利用可编程逻辑器件FPGA控制AD9910,通过相位选择法产生QPSK调制信号的设计方案。     

HSDPA与R99/R4混合组网容量规划

对WCDMAR99/R4网络与HSDPA网络可提供的容量分别进行分析;根据HSDPA的技术特点,对HSPDA与R99/R4混合组网后提供的各类语音、数据业务做出容量规划。     

基于T/2分数间隔的不同变步长盲均衡算法

在分析分数间隔均衡器(FSE)和多模算法的基础上,针对算法固定步长存在收敛速度和剩余误差的性能要求相矛盾的问题,研究以不同变步长的T/2分数间隔多模盲均衡算法.各变步长利用与误差项或均衡输出项的非线性关系自适应调整步长.利用QPSK信号进行仿真分析,结果表明,本算法在收敛速度和稳态误差方面的性能优于固定步长,且相同实验条件下,不同步长的盲均衡算法性能也不同.