Ad hoc网络带宽测量研究进展

随着Ad hoc网络的不断发展和应用,Ad hoc网络带宽测量已成为非常重要的研究问题之一。首先对Ad hoc网络带宽测量的难点进行了分析;并将Ad hoc网络带宽测量的内容分为路径容量测量和可用带宽测量;在介绍了常见的Ad hoc网络带宽测量方法之后,对Ad hoc网络带宽测量的现状进行了介绍,并分析了各种测量方案的不足;最后对Ad hoc网络带宽测量未来的研究方向进行了讨论。     

基于NS2的Ad hoc网络仿真研究

Ad hoc网络是一种不需要任何通信基础设施的典型的自组织网络,运用ns2对Ad hoc网络尤其是对其路由协议的研究成了广大网络研究者的一种重要手段.本文首先介绍了Ad hoc网络和ns2.然后给出了在ns2下进行Ad hoc网络仿真的步骤和方法.最后给出了AODV路由协议的仿真实例,结果说明了运用ns2研究Ad hoc网络的可行性和有效性.     

移动Ad hoc网络安全路由协议综述

Ad hoc网络的安全性问题越来越引起人们的关注,如何确保Ad hoc网络路由协议的安全成为Ad hoc研究的一项关键技术.本文介绍了安全协议的目标以及针对Ad hoc网络路由协议的恶意攻击,接着详细分析了目前比较典型的几种Adhoc网络安全路由的研究现状,在对他们进行综合比较的基础上指出了存在的问题.     

Ad hoc网络中的RREQ洪泛攻击及其防御

RREQ洪泛攻击会大量消耗Ad hoc网络的带宽、能量等资源,影响网络的连通性,致使控制报文和数据报文无法正常传输,已经成为Ad hoc网络的主要威胁之一.文章在介绍RREQ洪泛攻击的基本概念基础上,分析了该攻击行为对Ad hoc网络的影响,研究了一种将邻节点监听和节点信誉评价相结合的机制,模拟结果表明该机制能够较好的防御Ad hoc网络中的RREQ洪泛攻击.     

移动Ad hoc网络安全路由协议综述

Ad hoc网络的安全性问题越来越引起人们的关注,如何确保Ad hoc网络路由协议的安全成为Ad hoc研究的一项关键技术。本文介绍了安全协议的目标以及针对Ad hoc网络路由协议的恶意攻击,接着详细分析了目前比较典型的几种Ad hoc网络安全路由的研究现状,在对他们进行综合比较的基础上指出了存在的问题。     

Ad hoc传感网络及其关键问题

Ad hoc传感网络是一种利用了Ad hoc网络技术的传感网络，首先简单介绍了Ad hoc传感网络的概念、特点和种类，然后讨论了Ad hoc传感网络的体系结构，详细阐述和分析了Ad hoc传感网络设计中的一些关键问题和相关协议，最后对全文进行了小结。     

认知无线Ad hoc网络的认知体系结构研究

对认知无线Ad hoc网络进行了阐述。对于认知无线Ad hoc网络,要考虑到无线Ad hoc网络的整体特点,来研究网络级认知结构。而由于认知无线Ad hoc网络是基于无线Ad hoc网络体系结构,同时鉴于无线Ad hoc网络本身特点,因此网络体系参数和网络本身特性参数共同被定义为认知信息,并在与跨层设计结合基础上进行节点级认知结构设计。认知信息的获取与传输方式将认知无线Ad hoc网络网络级与节点级结构有机地联合起来,使整个认知体系成为完整有机体。     

Ad hoc网络的扩频多址接入协议的研究与展望

Ad hoc网络将成为未来网络体系的基本组成部贩而扩频通信技术因其具有频带利用率高、抗干扰能力强等特点,被确认为移动通信系统首选的多址接入方式.鉴于此,本文介绍了扩频技术、Ad hoc网络以及其所面临的问题,对几种能有效解决Ad hoc网络存在的问题的扩频多址接入控制协议进行了分析比较,给出了研究过程中得出的结论.     

移动Ad hoc网络中路由协议的研究

移动Ad hoc网络由无线移动节点在没有任何现存的网络基础设施的情况下组成的自治系统,成为一个具有任意通信拓扑图模型的通信网络.由于网络节点的多跳性、有限的传输带宽、高速移动性、能量受限等特点,使路由协议成为Ad hoc网络设计的关键.主要介绍了Ad hoc网络的路由协议设计策略及分类原则,并对现有的具有代表性的路由协议性能进行了比较分析,为进一步研究提出新的课题.     

Ad hoc网络安全性分析

Ad hoc网络是一种特殊的多跳移动无线网络，具有广泛的应用场合。介绍了Ad hoc网络的脆弱性和安全威胁，然后在探讨Ad hoc网络安全目标的基础上。集中讨论了移动Ad hoc网络的路由安全、密钥管理等关键问题。     

无线自组织网中VoIP性能研究

目前,VoIP技术及其业务迅速发展,在无线自组织网络中有广泛的应用,有必要对于VoIP在无线自组网中的传输进行分析研究。利用NS-2作为仿真工具对G.711编码标准下多跳无线自组织网中VoIP的传输进行仿真,使用802.11MAC层协议和AODV路由层协议。实验结果表明,无线自组织网络环境下VoIP系统性能(包括丢包率、时延等)受到多跳影响。     

无线白组织网中VoIP性能研究

目前,VoIP技术及其业务迅速发展,在无线自组织网络中有广泛的应用,有必要对于VoIP在无线自组网中的传输进行分析研究。利用NS-2作为仿真工具对G.711编码标准下多跳无线自组织网中VoIP的传输进行仿真,使用802．11MAC层协议和AODV路由层协议。实验结果表明,无线自组织网络环境下voIP系统性能（包括丢包率、时延等）受到多跳影响。     

Extending Global IP Connectivity for Ad Hoc Networks

Ad hoc networks have thus far been regarded as stand-alone networks without assumed connectivity to wired IP networks and the Internet. With wireless broadband communications and portable devices with appropriate CPU, memory and battery performance, ad hoc connectivity will become more feasible and demand for global connectivity through ad hoc networking is likely to rapidly grow. In this paper we propose an algorithm and describe a developed prototype for connectivity between an ad hoc network running the ad hoc on-demand distance-vector protocol and a wired IP network where mobile IP is used for mobility management. Implementation issues and performance metrics are also discussed.     

Calculation and Analysis of Destination Buffer for Multimedia Service in Mobile Ad Hoc Network

Jitter is one of the most important issues for multimedia real time services in future mobile ad hoc networks（MANET）. A thorough theoretical analysis of the destination buffer for smoothing the jitter of the real time service in MANET is given. The theoretical results are applied in moderate populated ad hoc networks in our simulation, the simulation results show that by predicting and adjusting destination buffer in our way, Jitter will be alleviated in large part and this will contribute much to the quality of service （QOS） in MANET.     

Integrating Heterogeneous Wireless Technologies: A Cellular Aided Mobile Ad Hoc Network (CAMA)

A mobile ad hoc network is a collection of wireless terminals that can be deployed rapidly. Its deficiencies include limited wireless bandwidth efficiency, low throughput, large delays, and weak security. Integrating it with a well-established cellular network can improve communication and security in ad hoc networks, as well as enrich the cellular services. This research proposes a cellular-aided mobile ad hoc network (CAMA) architecture, in which a CAMA agent in the cellular network manages the control information, while the data is delivered through the mobile terminals (MTs). The routing and security information is exchanged between MTs and the agent through cellular radio channels. A position-based routing protocol, the multi-selection greedy positioning routing (MSGPR) protocol, is proposed. At times due to the complicated radio environment, the position information is not precise. Even in these cases, the MT can still find its reachable neighbors (the association) by exchanging hello messages. This association is used in complement with the position information to make more accurate routing decisions. Simulation results show that the delivery ratio in the ad hoc network is greatly improved with very low cellular overhead. The security issues in the proposed architecture and the corresponding solutions are addressed. The experimental study shows that CAMA is much less vulnerable than a pure ad hoc network.     

Security in wireless sensor networks

With sensor networks on the verge of deployment, security issues pertaining to the sensor networks are in the limelight. Though the security in sensor networks share many characteristics with wireless ad hoc networks, the two fields are rapidly diverging due to the fundamental differences between the make‐up and goals of the two types of networks. Perhaps the greatest dividing difference is the energy and computational abilities. Sensor nodes are typically smaller, less powerful, and more prone to failure than nodes in an ad hoc network. These differences indicate that protocols that are valid in the context of ad‐hoc networks may not be directly applicable for sensor networks. In this paper, we survey the state of art in securing wireless sensor networks. We review several protocols that provide security in sensor networks, with an emphasis on authentication, key management and distribution, secure routing, and methods for intrusion detection. Copyright © 2006 John Wiley & Sons, Ltd.     

On-Demand Multicast Routing Protocol in Multihop Wireless Mobile Networks

An ad hoc network is a dynamically reconfigurable wireless network with no fixed infrastructure or central administration. Each host is mobile and must act as a router. Routing and multicasting protocols in ad hoc networks are faced with the challenge of delivering data to destinations through multihop routes in the presence of node movements and topology changes. This paper presents the On-Demand Multicast Routing Protocol (ODMRP) for wireless mobile ad hoc networks. ODMRP is a mesh-based, rather than a conventional tree-based, multicast scheme and uses a forwarding group concept; only a subset of nodes forwards the multicast packets via scoped flooding. It applies on-demand procedures to dynamically build routes and maintain multicast group membership. ODMRP is well suited for ad hoc wireless networks with mobile hosts where bandwidth is limited, topology changes frequently, and power is constrained. We evaluate ODMRP performance with other multicast protocols proposed for ad hoc networks via extensive and detailed simulation.     

基于L-hop路由策略的无线mesh网络的吞吐量

无线mesh网络是最后一英里宽带互联网的可选技术之一。类似于ad hoe网络。在mesh网络中，每个用户节点既是通信终端又提供路由功能；用户节点以ad hoe多跳方式实现与网关的链接，通过网关可以访问因特网。无线mesh网络的吞吐量受到网关带宽的限制。为了捷高mesh网络网关频带的利用效率，现提出基于节点组织ad hoe通信方式和L-hop路由策略。在新的路由策略下，将给出对mesh网络的吞吐量的研究。     

Ad hoc网络时钟同步研究

由于ad hoc网络应用环境的多样性且不同的应用具有不同的同步要求，没有一种时钟同步协议可以适应各种情况。在分析了网络时钟同步困难的基础上，结合不同的ad hoc网络应用，探讨了不同应用环境下时钟同步协议的特殊性，并介绍了现有典型的ad hoc网络时钟同步协议。最后，针对ad hoc网络时钟同步中值得进一步研究的几个问题做了初步的分析。     

Virtual Private Ad Hoc Networking

The fact that a lot of applications require secure communication to take place only between a dynamic subset of distributed devices sharing a common context, is, from a network point of view, very challenging and demanding. Existing technologies such as VPN, P2P overlays or VLANs can only partially respond to these requirements. This observation is the key factor that has driven the proposal of the virtual private ad hoc network concept. Virtual private ad hoc networks (VPAN) are secure and self-organizing overlay networks on top of existing IP infrastructure that use ad hoc networking techniques to enable network connectivity. The underlying IP infrastructure can be the Internet, cellular networks, ad hoc networks, mesh networks … or combinations thereof. A virtual private ad hoc overlay network creates a transparent, shielded and trusted environment for the applications and services running on the participants' devices. The overlay uses internal addressing and ad hoc routing, thereby forming a virtual network on top of the physical infrastructure. In addition, the overlay must be self-organizing and self-maintaining upon member mobility or membership changes. This paper gives an overview of the potential applications, a high-level network architecture and the network challenges emerging from the novel concept of virtual private ad hoc networking. Jeroen Hoebeke was born in Ghent, Belgium in 1979. In 2002 he received the Masters degree in engineering (Computer Science) from the University of Ghent. In August 2002, he joined the Broadband Communications Networks Group. His PhD research includes the development of adaptive routing protocol techniques for mobile ad hoc networks. His main research interests are in ad hoc wireless communications and, more generally, in broadband wireless communications. Within the European MAGNET project, he is actively involved in the development of a network architecture and demonstrator for Personal Networks, with a prime focus on routing and connectivity. Gerry Holderbeke was born in Zottegem, Belgium in 1982. He graduated in Informatics at the University of Ghent in 2004. In August 2004 he joined the Broadband Communications Networks Group where he is currently working as a project developer. His research currently includes the development of an emulator for mobile ad hoc networks. His main research interests are in ad hoc networks and broadband wireless communications and involve routing, addressing and more generally, communication within mobile ad hoc networks and infrastructured networks. Within the European MAGNET project, he is actively involved in the development of a network architecture for Personal Networks, with a prime focus on the implementation of the routing architecture. Ingrid Moerman was born in Gent, Belgium in 1965. She received the degree in Electro-technical Engineering and the Ph.D degree from the Ghent University, Gent, Belgium in 1987 and 1992, respectively. Since 1987, she has been with the Interuniversity Micro-Electronics Centre (IMEC) at the Department of Information Technology (INTEC) of the Ghent University, where she conducted research in the field of optoelectronics. In 1997, she became a permanent member of the Research Staff at IMEC. Since 2000 she is part-time professor at the Ghent University. Since 2001 she has switched her research domain to broadband communication networks. She is currently involved in the research and education on broadband mobile & wireless communication networks and on multimedia over IP. The main research topics related to mobile & wireless communication networks are: wireless access to vehicles (high bandwidth & driving speed), adaptive QoS routing in wireless ad hoc networks, body area networks, protocol boosting on wireless links, design of fixed access/metro part, traffic engineering and QoS support in the wireless access network. Ingrid Moerman is author or co-author of more than 300 publications in the field of optoelectronics and communication networks. Bart Dhoedt received a degree in Engineering from the Ghent University in 1990. In September 1990, he joined the Department of Information Technology of the Faculty of Applied Sciences, University of Ghent. His research, addressing the use of micro-optics to realize parallel free space optical interconnects, resulted in a PhD degree in 1995. After a 2 year post-doc in opto-electronics, he became professor at the Faculty of Applied Sciences, Department of Information Technology. Since then, he is responsible for several courses on algorithms, programming and software development. His research interests are software engineering and mobile & wireless communications. Bart Dhoedt is author or co-author of approximately 70 papers published in international journals or in the proceedings of international conferences. His current research addresses software technologies for communication networks, peer-to-peer networks, mobile networks and active networks. Piet Demeester received the Masters degree in Electro-technical engineering and the Ph.D degree from the Ghent University, Gent, Belgium in 1984 and 1988, respectively. In 1992 he started a new research activity on broadband communication networks resulting in the IBCN-group (INTEC Broadband communications network research group). Since 1993 he became professor at the Ghent University where he is responsible for the research and education on communication networks. The research activities cover various communication networks (IP, ATM, SDH, WDM, access, active, mobile), including network planning, network and service management, telecom software, internetworking, network protocols for QoS support, etc. Piet Demeester is author of more than 300 publications in the area of network design, optimization and management. He is member of the editorial board of several international journals and has been member of several technical program committees (ECOC, OFC, DRCN, ICCCN, IZS, &).