A NEW ANALYZING APPROACH TO MODELING SLOTTED MULTIPLE ACCESS SYSTEMS

In this paper, the analyzing approaches proposed by Zhao Dongfeng, et al.(1997) have been extensively studied. The average cyclic times of the slotted multiple access systems are analyzed by using the average cycle method. Analytic formulae for mean values of a successful period and a colliding period and an idle period are derived. The upper bounds of the system throughput with capture effect and collision resolution are provided. Finally, the simulation results of the slotted multiple access channels are given.

HYBRID ORTHOGONAL/RANDOM MULTIPLE ACCESS SCHEME WITH IMPROVED PERFORMANCE FOR DOWNLINK CDMA SYSTEMS

In this paper, a hybrid orthogonal and random multiple access scheme with improved performance for capacity-enhanced downlink Code-Division Multiple-Access (CDMA) systems is presented, which is in fact a combination of the conventional orthogonal spreading scheme and the synchronous Interleave Division Multiple Access (IDMA) scheme. The proposed scheme can achieve near single user performance for very large number of users by the iterative turbo like detection. Analysis and simulation results show that the proposed scheme performs better than the synchronous IDMA scheme for the same time complexity. Meanwhile, larger capacity can be provided compared with the conventional orthogonal schemes.

A NEW DECODER OF SYNCHRONOUS OPTICAL CODE DIVISION MULTIPLE ACCESS SYSTEMS USING SEGMENTED CORRELATION

A new segmented correlating decoder of synchronous optical CDMA using modified prime sequence codes is proposed. The performance of the proposed system is analyzed under the assumption of Poisson shot noise model for the receiver photodetector. The decoder technique is shown to be more effective to improve the bit error probability performance than the method using an optical hard-limiter.

Combinatory Spread－Spectrum Multiple－Access Based on Residue Number System：System and Performance

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User Assisted Cooperative Relaying in Beamspace Massive MIMO NOMA Based Systems for Millimeter Wave Communications

A novel scheme‘user assisted cooperative relaying in beamspace massive multiple input multiple output(M-MIMO)non-orthogonal multiple access(NOMA)system’has been proposed to improve coverage area,spectrum and energy efficiency for millimeter wave(mmWave)communications.A downlink system for M users,where base station(BS)is equipped with beamforming lens antenna structure having NRF radio frequency(RF)chains,has been considered.A dynamic cluster of users is formed within a beam and the intermediate users(in that cluster)between beam source and destination(user)act as relaying stations.By the use of successive interference cancellation(SIC)technique of NOMA within a cluster,the relaying stations relay the symbols with improved power to the destination.For maximizing achievable sum rate,transmit precoding and dynamic power allocation for both intra and inter beam power optimization are implemented.Simulations for performance evaluation are carried out to validate that the proposed system outperforms the conventional beamspace M-MIMO NOMA system for mmWave communications in terms of spectrum and energy efficiency.

Optimum Transmitter Power Control in WCDMA Cellular Systems

Power control is an important technique in WCDMA mobile systems for both increasing system capacity and guaranteeing the required QoS (time delay and wireless link transmission quality) of multimedia services. The optimum power control for narrow band CDMA cellular systems is a problem of single threshold optimization. Because these systems have only one type of traffic and have the same QoS requirement. However, WCDMA mobile system should provide multimedia services and different types of traffic have different QoS requirements. Thus, the power control in WCDMA mobile systems isn't a problem of single threshold optimizing, but turns into the optimizing problem of multi-threshold. We analyze the power control problem in WCDMA cellular mobile systems and propose the optimum transmitter power control algorithm. Three criteria to optimize transmitter power levels of multi-thresholds based on grading the priority orders of multimedia services are proposed. Simulation results show that the proposed algorithms are more effective than conventional algorithms and can provide better performance for WCDMA cellular mobile systems.

2-Dimension Interleaver Design for IDMA Systems

A new design method interleavers, 2-dimension interleavers, are proposed for interleave division multiple access （IDMA） systems. With a same interleaving rule named I＇, the row indices and column indices of a traditional block interleaving matrix are scrambled to obtain an interleaver, which is marked as the master interleaver. F is produced by a loworder PN sequence generator. Two ways are provided for generating different interleavers. One is that all interleavers are generated by the circular shifting master interleaver. The other is that different inter leavers are generated by different Ts. Besides, we prove that the minimum distance between two adjacent bits resulted from 2-dimension interleaves is much larger than that of other schemes, such as random interleavers, power interleavers, and shiffting interleaves. The simulation results show that 2-dimension interleavers can achieve much better performance with much less resource consumption than random interleavers in IDMA systems.

不相关多子集零相关区序列集的构造

在多小区环境下的准同步码分多址(quasi-synchronous code-division multiple-access,QS-CDMA)系统中,不相关多子集零相关区(zero correlation zone,ZCZ)序列集不仅可以消除一定时延内来自相同小区的信号干扰,而且可以完全消除来自相邻小区的信号干扰。针对如何基于仿酉矩阵构造多子集ZCZ序列集的问题,设计了两种构造方法。具体地,通过构造具有一定特性的多个初始矩阵,再结合仿酉矩阵,进而利用不同的初始矩阵产生不同的ZCZ序列集,且序列集间互不相关。所提方法的核心是多个初始矩阵的设计,方法1通过对离散傅里叶变换(discrete Fourier transform,DFT)矩阵进行分块与叠加实现,方法2利用已有的不相关多子集ZCZ序列集实现。由两种方法得到的构造结果,其参数趋近于最优,为解决多小区环境下的干扰抑制问题提供了新的序列设计方法。

具有无线携能技术的MIMO-NOMA系统

用户干扰降低了毫米波大规模多输入多输出(MIMO)非正交多址接入(NOMA)系统的频谱效率和能量效率,针对这一问题,提出将无线携能技术(SWIPT)引入基于混合预编码(HP)的MIMO-NOMA系统,并设计了用户分组、混合预编码以及功率分配方案。首先,提出了簇头选择算法,以设计模拟预编码,基于等效信道相关性进行用户分组,并最大化等效信道增益设计数字预编码;其次,为追求用户间的公平性,提出一种基于二分的功率分配方案,以实现最小可达速率最大化。理论分析和仿真结果表明,信噪比(SNR)为5dB时,相较于现有的具有无限携能的正交多址方案,所提方案在全连接架构下频谱效率提升约24.8%,在子连接架构下能量效率提升约24.6%。

有源RIS辅助速率分割多址系统的资源分配方案

针对无源智能反射面(Passive Reconfigurable Intelligent Surface,PRIS)所带来的“双衰落”效应及传统多址接入方案在干扰管理上的缺陷,提出了一种有源智能反射面(Active Reconfigurable Intelligent Surface,ARIS)辅助速率分割多址(Rate Splitting Multiple Access,RSMA)的系统方案。该方案中,构建了一个以最大化用户最小速率为目标的优化问题。该问题是一个多变量耦合的非凸问题,为此提出了一种具有公平性的资源分配算法,在ARIS硬件约束、公共信息速率约束等条件下,将原优化问题拆分为基站波束赋形矢量和速率分割因子的联合优化、ARIS的预编码矩阵优化两个子问题,随后使用逐次凸逼近、半正定松弛和凸差函数对非凸约束进行转换,并利用交替优化方法迭代求解。理论分析和仿真结果表明,在系统总功率为30 dBm的情况下,所提方案的用户最小速率相比传统PRIS辅助RSMA方案提升了18.6%。

基于深度学习的6G可见光通信多址接入解调方法

发光二极管的调制带宽较窄,导致可见光通信系统的容量受限,通过多址接入技术可提高频谱效率和终端用户数量。然而,可见光通信系统多址接入的用户间存在较强的干扰。针对此问题,利用可见光通信系统接收信号间的相关性,提出一种基于深度神经网络的多址接入多用户检测与信号还原方法。基于稀疏码多址接入给出了可见光通信系统的发送端模型与接收端模型,采用时域卷积网络学习长序列的信号间时域相关性,再传入密集层学习信号序列的空间域映射关系,最终在可见光通信系统的接收端还原所有用户的信号。实验结果表明,该方法有效提高了可见光通信系统多址接入的通信性能,在不同通信距离、信噪比、发送速率下均能发挥积极作用。

海上无线SDMA接入的波束指向切换技术研究

针对海上用户稀疏且呈现独立动态小型局域网分布特点的通信场景,提出了一种基于相控阵天线的海上无线通信系统,其反向链路基于中心站相控阵天线单个点波束动态波束指向切换实现小站在特定空间方向的波束覆盖,从而实现SDMA接入,具有覆盖范围广、组网灵活等特点,适合于海上动态稀疏的通信场景。主要研究了实现SDMA接入的波束指向切换技术,提出了基于位置信息和时隙分配的波束指向切换方法,该方法根据中心站和小站的实时位置信息解算出波束指向信息并在每个时隙的起始时刻调整波束指向。基于系统级现场可编程门阵列芯片实现了该方法,并通过测试证明了基于位置信息可实现点波束指向对准,且所提方法可在1μs内完成波束指向切换并实现多路高速业务同时回传。

不完美串行干扰消除下多RIS辅助的NOMA系统中断性能

考虑到实际通信应用中不能实现完美的串行干扰消除(SIC,serialinterferencecancellation),研究了不完美SIC情况下多个智能反射面(RIS,reconfigurableintelligentsurface)辅助的非正交多址接入(NOMA,non-orthogonal multiple access)系统的中断性能和吞吐量。联合考虑直射链路和反射链路,利用Gamma分布近似表征多RIS辅助NOMA系统的信道系数,推导出用户中断概率的近似闭合表达式,并通过Monte-Carlo仿真进行验证,分析系统中断性能与不完美SIC、RIS个数及反射单元数等因素的关系。仿真结果表明,与单RIS辅助的NOMA系统和传统NOMA系统相比,在给定中断概率要求下,多RIS辅助系统所需的信噪比(SNR,signal-to-noise ratio)降低了14.2 dBm,说明了采用多个RIS可以有效地提升用户的中断性能和系统吞吐量,从而补偿不完美SIC带来的性能损失。

SAC-OCDMA系统三分支信号检测方案

为了解决三分支信号检测(TBSD)方案的上界表达式不精确的问题,提出了一种频谱-振幅编码光码分多址(SAC-OCDMA)系统TBSD方案,建立了一个严谨的数学模型,并对该方案进行了数值评估和仿真。仿真结果表明,该方案在传输速率为500 Mb/s、1 Gb/s时能够完全消除多用户干扰(MUI),而在传输速率为5 Gb/s时则可以消除大部分MUI,证明了数学模型的精确性。

IRS-NOMA辅助多用户协作中继系统性能分析

随着第五代(The Fifth Generation,5G)通信技术的大规模应用,在网设备的数量迅速增长,带来了巨大的数据流量和连接需求。尽管5G通信技术已经显著提高了传输速率和网络容量,但随着物联网(Internet of Things,IoT)设备的普及和高速数据业务的增加,现有的频段资源已经难以满足未来的需求。预测显示,第六代(The Sixth Generation,6G)通信技术的峰值传输速率将提升到1太比特每秒,约为5G的100倍。这种大幅度的速率提升将进一步加剧对带宽的需求,使得现有频段无法满足新型高速业务及大规模物联网终端的需求。因此,未来通信技术向更高频段拓展成为必然。在这种背景下,本文提出了一种将智能反射面(Intelligent Reflecting Surface,IRS)技术引入到非正交多址接入(Non-Orthogonal Multiple Access,NOMA)中继网络的新型多用户中继系统的方案,将IRS控制器与中继器整合,构建一个新的中继节点,实现对信号的中继转发,并发挥IRS的辅助通信作用,重构中继节点,使其不仅能够进行信号放大和转发,还可以通过IRS对信号质量和系统容量进一步提升。本文对下行侧的理论分析和仿真结果表明,加入IRS后系统性能平均提升了30%。这一显著的性能提升证明了IRS技术在NOMA中继网络中的应用潜力,为未来智能反射面的推广应用提供了新的思路和方法。随着6G时代的到来,智能反射面技术有望在更高频段的通信系统中发挥更大的作用,进一步推动无线通信技术的发展与进步。

基于深度强化学习的IRS辅助NOMA-MEC通信资源分配优化

为了解决无法与边缘服务器建立直连通信链路的盲区边缘用户卸载任务的问题,设计了一个基于深度强化学习(deep reinforcement learning, DRL)的智能反射面(intelligent reflecting surface, IRS)辅助非正交多址(non-orthogonal multiple access, NOMA)通信的资源分配优化算法,以获得由系统和速率和能源效率(energy efficiency, EE)加权的最大系统收益,从而实现绿色高效通信。通过深度确定性策略梯度(deep deterministic policy gradient, DDPG)算法联合优化传输功率分配和IRS的反射相移矩阵。仿真结果表明,使用DDPG算法处理移动边缘计算(mobile edge computing, MEC)的通信资源分配优于其他几种对比实验算法。

一种无线机控器复示器及其调车作业系统

在广泛调研当前铁路中间站使用本务机车进行调车作业情况基础上,针对中间站本务机调车作业中司机劳动强度大、作业效率低,以及存在较大安全隐患的问题,设计出一种无线机控器复示器和调车作业系统。详细阐述无线机控器复示器的构成、功能、基本工作原理,以及空中接口通信可靠性和时序控制等关键技术;介绍基于机控器复示器的调车作业系统作业流程。现场试验和对试验结果的分析表明,基于机控器复示器的平面调车作业系统,能够大大降低司机的劳动强度,提高调车作业效率,有效保障调车作业安全,对保障铁路安全生产具有积极意义。

NetLinx开放网络关键技术研究

研究了DeviceNet,ControlNet和EtherNet/IP的特点、应用背景及其基本技术 ,介绍了NetLinx中CIP协议的功能、组成及其实现 ,阐述了NetLinx各层网络的媒体访问控制机制MAC :DeviceNet的带冲突检测的载波侦听多路访问 /仲裁报文优先权CSMA/AMP机制 ,ControlNet的隐性令牌传递机制 ,EtherNet/IP的带冲突检测的载波侦听多路访问CSMA/CD仲裁机制 .NetLinx是解决不同工业控制网络互连 ,实现各层网络间高效、快速。

ControlNet现场总线MAC层控制方法分析

ControlNet现场总线是一种高速的、确定性的网络,它在控制级设备中得到了广泛的应用.在对比了几种常用MAC控制方法的基础上,对ControlNet的核心技术——CTDMA进行了深入的分析与探讨,总结了ControlNet的优缺点,提出了在组态时应遵守的规则.

有效支持智能天线在移动Ad Hoc网络中应用的多址接入协议

对智能天线在移动AdHoc网络(MANET)中的应用进行了研究.提出了自适应波束形成CSMA/CA(ABF CSMA/CA)协议.该协议利用RTS/CTS短分组对话实现信道预约,在RTS与CTS分组前设置了训练序列,收发节点的智能天线基于训练序列进行波束形成以传输数据分组与ACK.提出改进的"虚拟载波监测"机制进行冲突避免(CA).每个节点中设置两类网络分配矢量(NAV),用一个oNAV记录邻节点以全向模式占用信道的时间,用多个bNAV分别记录各邻节点以波束形成模式传输分组的时间.推导了信道利用率的近似计算公式并进行了仿真.结果表明,ABF CSMA/CA协议与智能天线的结合能够有效实现信道的空分复用(SDMA),显著提高网络的信道利用率.