移动通信系统呼叫接入控制算法性能分析

在对移动系统的性能分析中，为了便于分析，通常都没有区分一个小区中切换呼叫和新 呼叫，而是假定它们的信道占用时间具有相同的分布。但在有些实际的系统中，这种假设是不合理的， 两者信道占用时间的均值往往是不同的。设计了一种适用于多业务的呼叫接入控制算法，它对语音业 务基于保护信道法而对语音和数据业务之间采取可移动边界法，并对其性能进行了分析，结果表明切换 呼叫和新呼叫的均值对语音业务和数据业务的性能都具有重要的影响。     

无线移动通信系统中的呼叫接入控制

呼叫接入控制是无线移动通信系统中无线资源管理的重要部分,它直接关系到系统中用户服务质量是否能够得到保证,同时呼叫接入控制算法的有效性决定了系统资源的利用效率。文中综述了各种呼叫接入控制算法及其特点,并指出在无线移动通信系统中它们的重要性。     

卫星通信系统中的呼叫接入控制

分析比较了地面蜂窝移动通信系统和卫星通信系统在呼叫接入控制中的差异，并在此基础上重点分析讨论了卫星通信系统在呼叫接入控制中所必须考虑的策略。     

综合业务CDMA系统的联合呼叫接入-拥塞控制

本文提出一种新的综合业务控制方案“联合呼叫接入-拥塞控制”,在保证话音业务质量的前提下最大化综合业务CDMA系统的数据吞吐量,使系统充分利用无线信道资源.文章同时提出一种简单的系统参数设计方法,可用于未来综合业务的蜂窝小区规划.     

不平衡业务下CDMA蜂窝系统的呼叫接入控制方案

针对 CDMA蜂窝系统区间业务不平衡的情况 ,文中提出了一种呼叫接入控制方案 ,在重负荷小区为邻区即将到来的呼叫预留部分资源 ,预留的大小随呼叫阻塞情况自适应地调整。仿真结果显示 :该方案能很好地解决区间业务不平衡的问题 ,而且与基于固定资源预留的呼叫接入控制方案相比 ,还能获得低的系统呼叫阻塞率     

多业务无线蜂窝网中呼叫接入策略性能分析

下一代无线蜂窝网的关键问题之一是能够提供多业务服务,这就要求呼叫接入策略能够满足各种业务的不同Qos要求,同时有效地利用带宽资源。本文采用双阈值带宽预留策略处理多种业务呼叫的接入,并利用实验仿真比较分析了基于此策略的数据业务可变模型和数据业务排队模型的性能。仿真结果表明数据业务可变模型能够减小切换语音呼叫掉话率而且提高整个系统的性能,数据业务排队模型能够明显降低数据呼叫阻塞率并提高信道利用率。     

基于多码CDMA系统的综合业务接入控制方案

结合多码CDMA随机接入系统的信道特点，针对上行链路中多速率业务并行传输的问题，提出了一套综合业务接入控制方案。     

ATM用户接入系统中呼叫接纳控制的实现

以ＡＴＭ用户接入系统为背景，介绍呼叫接纳控制（ＣＡＣ）的方法和工作过程。呼叫接纳控制是ＡＴＭ网络流量控制的基础。呼叫接纳控制模块收到呼叫接纳请求后，根据新连接的流量和业务质量要求以及现有网络资源情况，决定是否接受这一新连接。如果接受，就通知网络为新连接分配网络把新连接的流量参数送交用法接受这一新连的妆。如果接受，就通知网络为新连接网络资源，同时把新连接的流量参数送交用法参数控制（ＵＰＣ）模块进行流     

多业务无线蜂窝移动通信系统的一种呼叫允许控制策略

第三代移动通信系统要求支持宽带多媒体业务,如话音、视频、数据等多种业务,不同业务有不同的QoS要求。本文提出的多业务无线蜂窝移动通信系统中一种基于QoS的呼收允许控制策略,对不同业务的切换呼叫给予不同的优先权。本文分析了两种呼叫允许控制（CAC）算法,一种是各种业务的切控呼叫无缓冲器,不进入排队系统;另一种是各种业务的切换呼叫设置有缓冲器,进入排除系统,并且话音、视频业务的切切呼叫比数据业务的切换呼叫有更高的优先权,系统的空闲信道应首先分配给话音、视频业务的切换呼叫,再分配给数据业务的切换呼叫。在分析两种CAC算法的呼叫阻塞概率、切换失败概率以及系统吞吐量的基础上,给出了计算机仿真结果。     

LEO卫星通信系统的呼叫接入性能分析

在均匀业务模型的基础上,根据LEO卫星通信系统自身特点,提出了一种简单有效的呼叫接入控制策略,这种策略能在非均匀业务下较好地工作,此时系统新呼叫阻塞率和切换呼叫失败率能达到更好的平衡。在分析随机接入（RANDOM）算法和预留保护信道（GC）算法的基础上,进行了计算机仿真,并给出了相应的仿真结果。     

Call admission control with opportunistic scheduling scheme

In this paper, a rate‐based admission control scheme for a single shared wireless base station with opportunistic scheduling and adaptive modulation and coding (AMC) is proposed. The proposed admission scheme maintains minimum average rates of the admitted users, i.e., new users will be admitted if the base station has enough resources to support the required minimum average transmission rates of all users. The proposed scheme relies on an analytical model for the average per‐user rates of an opportunistic scheduling in an unsaturated scenario, where some queues may be empty for certain periods of time. We provide extensive simulation results to demonstrate the accuracy of the base analytical model on which our admission scheme relies. Copyright © 2009 John Wiley & Sons, Ltd.     

Call admission control scheme for real-time services in packet-switched OFDM wireless networks

A call admission control scheme is proposed for real-time services in packet-switched orthogonal frequency division multiplexing （OFDM） wireless cellular networks. The main idea of the proposed scheme is to use maximum acceptance ratio to maintain maximum channel utilization for real-time services according to the desired packet-level and call- level quality-of-service （QoS） requirements. The acceptance ratio is periodically adjusted by using a time discrete Markov chain and Wiener prediction theory according to the varying traffic load. Extensive simulation results show that this algorithm maintains high channel utilization, even as it guarantees packet-level and call-level QoS requirements for real-time services.     

Call admission control in mobile cellular networks: a comprehensive survey

Call admission control (CAC) is a key element in the provision of guaranteed quality of service (QoS) in wireless networks. The design of CAC algorithms for mobile cellular networks is especially challenging given the limited and highly variable resources, and the mobility of users encountered in such networks. This article provides a survey of admission control schemes for cellular networks and the research in this area. Our goal is to provide a broad classification and thorough discussion of existing CAC schemes. We classify these schemes based on factors such as deterministic/stochastic guarantees, distributed/local control and adaptivity to traffic conditions. In addition to this, we present some modeling and analysis basics to help in better understanding the performance and efficiency of admission control schemes in cellular networks. We describe several admission control schemes and compare them in terms of performance and complexity. Handoff prioritization is the common characteristic of these schemes. We survey different approaches proposed for achieving handoff prioritization with a focus on reservation schemes. Moreover, optimal and near‐optimal reservation schemes are presented and discussed. Also, we overview other important schemes such as those designed for multi‐service networks and hierarchical systems as well as complete knowledge schemes and those using pricing for CAC. Finally, the paper concludes on the state of current research and points out some of the key issues that need to be addressed in the context of CAC for future cellular networks. Copyright © 2005 John Wiley & Sons, Ltd.     

Integration of voice/data services over PACS systems using a movable boundary slot allocation scheme

The integration of voice and data services over PACS systems using a movable boundary scheme is studied. First, we use the theory of discrete‐time Markov chain to analyse the system; then, an approximate analysis using the continuous‐time Markov chain model is conducted. For the initial access of voice calls we consider two distinct schemes: at most one idle slot being marked available, and all the idle slots being marked available. Numerical results show that the performance difference for voice calls between both schemes is trivial, but the former scheme offers a performance advantage for data calls over the latter scheme. Besides, the performance obtained by the continuous‐time Markov model is very close to that obtained by the discrete‐time Markov model. This finding suggests the effectiveness of the usage of the continuous‐time Markov model, which can dramatically simplify the analysis. Copyright © 2000 John Wiley & Sons, Ltd.     

Performance evaluation of priority based adaptive multiguard channel call admission control for multiclass services in mobile networks

The CAC (call admission control), which can guarantee call services to meet their QoS (Quality of Service) requirements, plays a significant role in providing QoS in wireless mobile networks. In this paper, an adaptive multiguard channel scheme‐based CAC strategy is proposed to prioritize traffic types and handoff calls. The major aim of the study is to develop the analytical model of the priority traffic and handoff calls based adaptive multiguard channel scheme and examining the performance through setting the value of the adaptive ratio parameters. Our proposed scheme tries to mediate the advantages and drawbacks of the static and dynamic CAC schemes. The proposed scheme is quite different from previous studies because multithreshold values have been considered for multiclass traffic by adaption parameters, and a closed form analytical model is developed The numerical results show that this scheme can be used to keep the targeted QoS requirement by suitably setting the adaptive ratio parameters. Copyright © 2011 John Wiley & Sons, Ltd.     

Call admission control scheme with normalized quality of service metric in IEEE 802.16 networks

IEEE 802.16 network introduces a multimedia data scheduling service with different quality of service (QoS) requirements. The scheduling service manages transmission resources according to data types, satisfying the requirements of different connections or users. On the basis of the data types defined in the service, we discuss a normalized QoS metric for the multimedia connections in the paper. The QoS value of a connection can be determined just by three components: the data type of the connection, its desired resources, and its allocated resources. Then, we propose an optimum bandwidth allocation solution, which can maximize the utility of base station. Next, we propose a call admission control scheme utilizing the bandwidth allocation solution. In the scheme, the occupied resource of ongoing connections will be regulated for the entry admission of a new connection, without degrading the network performance and the QoS of ongoing connections. Finally, the simulation results confirm that the proposed scheme with the normalized QoS can achieve better trade‐off between ongoing connections and new connections.Copyright © 2012 John Wiley & Sons, Ltd.     

Quality of service‐aware coordinated dynamic spectrum access: prioritized Markov model and call admission control

In this paper, we propose a heterogeneous‐prioritized spectrum sharing policy for coordinated dynamic spectrum access networks, where a centralized spectrum manager coordinates the access of primary users (PUs) and secondary users (SUs) to the spectrum. Through modeling the access of PUs and multiple classes of SUs as continuous‐time Markov chains, we analyze the overall system performance with consideration of a grade‐of‐service guarantee for both the PUs and the SUs. In addition, two new call admission control (CAC) strategies are devised in our models to enhance the maximum admitted traffic of SUs for the system. Numerical results show that the proposed heterogeneous‐prioritized policy achieves higher maximum admitted traffic for SUs. The trade‐off between the system's serving capability and the fairness among multiple classes of SUs is also studied. Moreover, the proposed CAC strategies can achieve better performance under max‐sum, proportional, and max‐min fairness criteria than the conventional CAC strategies. Copyright © 2011 John Wiley & Sons, Ltd.     

蜂窝无线通信网络呼叫允许控制分析

无线网络中由于用户的移动性、频谱资源的缺乏以及信道的衰落,使无线网络的服务质量的供给成为一个日益严峻的问题。呼叫允许控制(CAC)是无线资源管理中的重要组成部分,是一种保证服务质量和网络资源利用率的重要机制。总结了CAC领域的研究成果,对蜂窝无线通信网络的CAC方案进行了分析,指出了目前CAC研究中存在的问题,并探讨了今后的研究方向。     

多业务蜂窝CDMA系统中的呼叫接纳控制策略

基于码分多址(CDMA)技术的第三代(3G)移动通信系统将支持多种业务传输,有效的呼叫接纳控制策略将使系统在满足各类业务不同QoS要求的同时,能够为更多的用户提供服务,该文首先分析了多业务蜂窝CDMA系统的剩余容量与QoS约束间的关系,接着提出了适用于任意多类业务环境、基于信号干扰比(SIR)测量的两种呼叫接纳控制策略,局部策略与全局策略,并通过大量计算机仿真研究了两种策略在业务均匀分布和非均匀分布环境下的性能,仿真结果表明,在两种业务分布情况下,全局策略的性能部优于局部策略。