一种多约束QoS多播路由算法

提出了带宽时延约束、代价最小的QoS多播路由模型,并提出了一种启发式算法求解该问题,分析了算法的复杂度。仿真试验证明,该算法是稳定有效的。它能够在满足两种约束的情况下,使多播树的代价优化。     

时延和时延抖动约束的低费用多播路由算法

为了有效支持交互式实时组播业务,不仅要考虑时延约束,而且要考虑时延抖动约束,同时还需高效管理网络资源,以降低多播费用。本文提出了一种新的时延和时延抖动约束的低费用我播路由启发式算法,仿真结果表明该算法复杂度较低,时延抖动较小,又降低了网络费用,是一种快速有效的多播路由算法。     

基于时延约束的改进型实时QoS多播路由算法

多播技术是将特定数据选择性地传送至多个客户端的方法,因而其服务质量是评价其优劣的关键.结合FLSPT算法和贪婪法思想,提出一种基于时延约束的改进型实时QoS多播路由算法,它利用启发式策略,使得节点在多播树时能满足时延约束的条件下建立最小代价路径.测试结果表明,采用该算法可获得较小的端到端时延,能改善网络服务质量,适用于成员数目变化频繁的多播应用.     

基于可用带宽满足时延和时延差别 约束的实时多播路由算法

实时多播路由中具有可加性的代价(Cost)不能确切反映网络本质特性,尤其不能反映路径带宽的凹性(Concave).已有基于代价的算法不能很好适应多播应用,需要新的模型和算法.本文采用可用带宽代替代价作为主要度量,并满足实时多播中二个重要约束度量:时延和时延差别.同时基于此三个度量,本文提出二种新的具有多项式复杂性的实时多播路由算法并比较其性能.新算法通过分析得到每路径时延和二约束之间的关系,有效降低涉及时延和时延差别此类问题的复杂性.新算法采用度量反映实时多播本质特性而具有实际推广性.     

加权的基于多播节点的多播路由算法

在许多多播应用中,降低多播树网络费用非常重要.本文提出了加权的基于多播节点的多播路由算法（WDDMC算法）.由于改变了DDMC（Destination-Driven routing for low-cost Multicast ）算法中的指示函数,适当降低了多播节点作为中间节点的优先级,提高非多播节点作为中间节点的优先级,从而使得多播树更接近最小Steiner树.在随机网络上的仿真结果表明,WDDMC算法的多播树网络费用优于DDMC算法.该算法的复杂度与DDMC算法完全相同.     

基于关键节点和多播节点的多播路由算法

在视频会议等多播应用中，降低多播树网络费用非常重要。本文提出了基于关键节点和目的节点的多播路由KDDMC算法。由于在算法中优先考虑采用关键节点，实现更多链路的共享，从而降低网络费用。在随机网络上的仿真结果表明，KDDMC算法的多播树网络费用优于SPH算法。同时证明了KDDMC算法的复杂度为O(n^3)，且利用所提出的路由表算法易于分布式实现。     

多媒体通信的多播路由算法

在多媒体通信网的实际应用中,多播(multicasting)技术日显重要,在实际网络中,网络节点具备不同的多播能力,有些节点不具备多播能力,而具备多播能力的节点要限制其复制信息的数量,即节点多播能力受限,该文用节点的度约束来表示每个节点的多播能力;此外网络中的很多业务要求信息从源节点传送到目的节点的时延受限;因此该文研究带度约束和时延约束的多播路由问题,给出了一种Lagrange松弛法,能够较好地解决这类问题。     

一种基于拉格朗日松弛的时延约束多播路由算法

提出了一种基于拉格朗日松弛方法的时延约束最小代价多播路由算法(LR-DLMA)。该算法充分利用拉格朗日松弛方法的特点，通过构建封闭图，对封闭图进行拉格朗日松弛求得满足条件的多播树。仿真实验结果表明本算法性能稳定，其代价性能接近性能最好的BSMA算法，并具有快速、低时延的特点。     

支持延时约束的覆盖多播路由协议的研究

研究有度和延时约束的覆盖多播路由问题,提出了一个新的覆盖多播路由协议-延时受限的树协议(DBTP)。该协议采用分布式和树优先的策略,使多播组成员之间能自组织地构建一棵基于源的覆盖多播树。DBTP协议采用了一种新的启发式局部优化算法,通过调节启发因子,能灵活地在延时和代价之间进行折衷。仿真实验表明,无论在静态还是动态节点模型下,选择适当的启发参数,DBTP都能获得较高的节点接纳率。     

带宽预留的成组多播快速路由算法

本文在现有成组多播路由算法的基础上,通过最大限度地使用原有的计算结果、以存储空间换取计算时间两种策略,获得了计算效率很高的带宽预留的成组多播快速路由算法FGMRA(Fast Group Multicast Routing Algorithm).使用FGMRA得到的多播生成树总费用与C.P.Low和N.Wang算法(一种总代价和路由分配失败概率较低的成组多播路由算法)基本相同,计算效率大为提高.随机网络模型的仿真结果表明:FGMRA算法快速、稳定,是一种值得推广使用的高效算法.     

Dynamic Host-Group/Multi-Destination Routing for Multicast Sessions

Multicast routing research efforts have mostly focused on supporting the host-group model in which multicast packets are addressed to a host (or multicast) group. Another multicast routing approach uses multi-destination addressing, where a multicast packet carries a list of the unique (unicast) addresses of all the group members. This form of routing can be accomplished using limited or no additional state beyond the existing unicast routing tables. It, therefore, scales well with the number of multicast sessions but does not scale well with the size of the multicast group and, in fact, requires the size of the multicast group to be below a certain threshold. In this paper, we envision a future scenario in which both host-group and multi-destination addressing routing approaches coexist within the Internet. We develop a dynamic routing context for this future scenario wherein a multicast session can adapt among different routing configurations depending on the number of multicast group members and how this number changes over time. We consider three routing options: (1) A single multi-destination addressed flow – suitable for small-group sessions, (2) multiple multi-destination addressed flows – suitable for medium-group sessions and (3) a single host-group addressed flow – suitable for large-group sessions. For multicast sessions that vary in group membership over time, different routing protocols may be best at different points in time. Our work is concerned with the development and evaluation of protocols that allow a multicast session to dynamically switch among these three routing options as the size of the session changes.     

基于带宽约束和负载均衡的显式路由技术研究

传统IP网络的SPF路由机制在保证宽带业务的带宽需求和负载均衡方面遇到了困难。首先从理论上阐述主要的基于带宽约束和负载均衡的显式路由技术的原理,其次通过实验给出详细的数据,最后对实验数据进行分析和总结,从而验证不同条件下这些路由技术的优劣。     

费用非对称通信网络上的群播路由算法

文中考虑了费用非对称通信网络上的群播路由问题,提出了一种接近最小成本的启发式算法--NEW-GM算法.该算法以FMPH(Fast Minimum Path Cost HouriStic)为基础,可以有效的降低成本.数值实验表明:这种算法是有效的,且所获得问题解的总费用几乎总是小于或等于由GTM算法所获得的解的总费用.NEW-GM算法的时间复杂度与GTM算法的相同,为O(p3n2).     

基于遗传算法的QoS组播路由算法的改进

QoS组播路由技术在网络技术发展中占有很重要的地位,是一种关键的技术。在分析网络模型的基础上,建立了组播问题的数学模型。遗传算法是一种经典的寻优算法,应用广泛,提出了改进的算法。并且结合改进Dijkstra算法,使算法能很好地体现实际组播路由问题的特点。试验表明,这种新的算法可靠性更高,适应了当今网络性能优化的需要。     

一种组播路由算法

随着组播业务的急剧增多,组播技术(Multicast)日益重要.在组播技术中组播路由算法是一项关键技术.主要介绍了两种组播路由算法,一种是适用于任意网络拓扑的启发式路由算法(RST),另一种是基于Mesh网络拓扑的启发式路由算法.     

Adaptive Core Multicast Routing Protocol

The Adaptive Core Multicast Routing Protocol (ACMRP) is proposed for multicast routing in ad hoc networks. ACMRP is on demand core-based multicast routing protocol that is based on a multicast mesh. In ACMRP, a core is not well-known and it adapts to the current network topology and group membership. The enhanced adaptivity minimizes the core dependency and, accordingly, improves performance and robustness of ACMRP. A multicast mesh is created and maintained by the periodic flooding of the adaptive core. Since the flooding traffic is evenly maintained and a mesh provides rich connectivity among group members, ACMRP can achieve efficiency, scalability, and effectiveness. We evaluate scalability and performance of ACMRP via simulation.     

IP多播技术

主要叙述了ＩＰ多播技术的基本概念、多播协议以及正在发展的新协议,并简要描述了多播主干（Ｍｂｏｎｅ）和多播的前景。     

A Constraint Formulation for Minimum-Energy Multicast Routing in Wireless Multihop Ad-hoc Networks

Energy conservation is a critical issue in wireless multihop ad-hoc networks, which have nodes powered by batteries only. One major metric for energy conservation is to route a communication session along the routes that require the lowest total energy consumption. To do this, we introduce in this paper a new concept called Virtual Relay. Based on this new concept, we present a constraint formulation for the minimum-energy multicast routing problem in terms of mixed integer linear programming. Experiment results show that in a typical multihop ad-hoc network with 50 nodes, the optimal solutions can always be solved in a timely manner, and it also provides a way to evaluate the realistic performance of different heuristic algorithms. Song Guo received the B.S. degree in computer science from Huazhong University of Science and Technology, Wuhan, China, in 1995 and the M.S. degree in electrical and computer engineering from Beijing University of Posts and Telecommunications, Beijing, China, in 1998. Since 2001 he has been a Ph.D. student in the School of Information Technology and Engineering at University of Ottawa, Canada. His main research interests lie in mobile ad-hoc routing protocols and algorithms, power-aware design and optimization for ad-hoc wireless networks, and performance evaluation. Oliver Yang is a Professor in the School of Information Technology and Engineering at University of Ottawa, Ontario, Canada. Dr. Yang received his Ph.D. degree in Electrical Engineering from the University of Waterloo, Ont., Canada in 1988. He has worked for Northern Telecom Canada Ltd. and has done various consulting. His research interests are in modeling, analysis and performance evaluation of computer communication networks, their protocols, services and interconnection architectures. The CCNR Lab under his leadership has been working on various projects in the traffic control, traffic characterization, switch architecture and traffic engineering issues in both wireless and photonic networks. This has been reported in more than 200 technical papers. Dr. Yang is also interested in queuing theory, simulations, computational algorithms and their applications such as reliability and traffic analysis. Dr. Yang is currently the editor of IEEE Communication Magazine.     

Multi-Constrained Dynamic QoS Multicast Routing Design Using Ant Colony System

1IntroductionThe objective of Dynamic QoS Multicast Routing(DQMR) is to find the opti mal routing trees in the fu-ture real-ti me communication network, where informa-tion or messages are sent fromthe source nodeto all des-tination nodes , while meeting all QoS requirements forevery admitted connection and achieving global efficien-cy in resource utilization. Different applications haverather diverse QoS constraints on bandwidth, delay,delayjitter and so on. Multiple constraints often mak…     

组播路由调度的神经网络方法

本文探讨了在高速包交换计算机网络中，具有端到端时延及时延抖动限制的组播路由问题。首先给出了此类问题的网络模型及其数学描述，然后提出了基于Ｈｏｐｆｉｅｌｄ神经网络的组播路由优化算法。实验表明，本算法能根据组播应用对时延的要求，快速、有效地构造最优组播树，有较强的实时性。