Efficiency of WLAN 802.11xx in the multi-hop topology

The article presents the research results of the performance of wireless multi-hop networks. The analysis of the decrease in performance of such networks depending on the number of hops was performed for three popular transmission techniques used in mesh networks: Hybrid Wireless Mesh Protocol (default routing protocol for 802.11s), Optimized Link State Routing Protocol and Wireless Distribution System. Based on the measurements results, mathematical models for the decreasing of network transmission parameters depending on the number of hops were developed

Performance Analysis of On-Demand Routing Protocols in Wireless Mesh Networks

Wireless Mesh Networks (WMNs) have recently gained a lot of popularity due to their rapid deployment and instant communication capabilities. WMNs are dynamically self-organizing, self-configuring and self-healing with the nodes in the network automatically establishing an adiej hoc network and preserving the mesh connectivity. Designing a routing protocol for WMNs requires several aspects to consider, such as wireless networks, fixed applications, mobile applications, scalability, better performance metrics, efficient routing within infrastructure, load balancing, throughput enhancement, interference, robustness etc. To support communication, various routing protocols are designed for various networks (e.g. ad hoc, sensor, wired etc.). However, all these protocols are not suitable for WMNs, because of the architectural differences among the networks. In this paper, a detailed simulation based performance study and analysis is performed on the reactive routing protocols to verify the suitability of these protocols over such kind of networks. Ad Hoc On-Demand Distance Vector (AODV), Dynamic Source Routing (DSR) and Dynamic MANET On-demand (DYMO) routing protocol are considered as the representative of reactive routing protocols. The performance differentials are investigated using varying traffic load and number of source. Based on the simulation results, how the performance of each protocol can be improved is also recommended.Wireless Mesh Networks (WMNs), IEEE 802.11s, AODV, DSR, DYMO

Performance analysis of on-demand routing protocols in wireless mesh networks

Wireless Mesh Networks (WMNs) have recently gained a lot of popularity due to their rapid deployment and instant communication capabilities. WMNs are dynamically self-organizing, self-configuring and self-healing with the nodes in the network automatically establishing an adiej hoc network and preserving the mesh connectivity. Designing a routing protocol for WMNs requires several aspects to consider, such as wireless networks, fixed applications, mobile applications, scalability, better performance metrics, efficient routing within infrastructure, load balancing, throughput enhancement, interference, robustness etc. To support communication, various routing protocols are designed for various networks (e.g. ad hoc, sensor, wired etc.). However, all these protocols are not suitable for WMNs, because of the architectural differences among the networks. In this paper, a detailed simulation based performance study and analysis is performed on the reactive routing protocols to verify the suitability of these protocols over such kind of networks. Ad Hoc On-Demand Distance Vector (AODV), Dynamic Source Routing (DSR) and Dynamic MANET On-demand (DYMO) routing protocol are considered as the representative of reactive routing protocols. The performance differentials are investigated using varying traffic load and number of source. Based on the simulation results, how the performance of each protocol can be improved is also recommended

An effective Denial of Service Attack Detection Method in Wireless Mesh Networks

AbstractIn order to detect the DoS attack (Denial-of-Service attack) when wireless mesh networks adopt AODV routing protocol of Ad Hoc networks. Such technologies as an end-to-end authentication, utilization rate of cache memory, two pre-assumed threshold value and distributed voting are used in this paper to detect DoS attacker, which is on the basic of hierarchical topology structure in wireless mesh networks. Through performance analysis in theory and simulations experiment, the scheme would improve the flexibility and accuracy of DoS attack detection, and would obviously improve its security in wireless mesh networks

Study of Performance of Security Protocols in Wireless Mesh Network

Wireless Mesh Networks (WMNs) represent a good solution to providing wireless Internet connectivity in a sizable geographic area; this new and promising paradigm allows for network deployment at a much lower cost than with classic WiFi networks. Standards-based wireless access takes advantage of the growing popularity of inexpensive Wi-Fi clients,enabling new service opportunities and applications that improve user productivity and responsiveness. The deployment of WMNs, are suffered by : (i) All, the communications being wireless and therefore prone to interference, present severe capacity and delay constraints, (ii) The second reason that slows down the deployment of WMNs is the lack of security guarantees. Wireless mesh networks mostly susceptible to routing protocol threats and route disruption attacks. Most of these threats require packet injection with a specialized knowledge of the routing protocol; the threats to wireless mesh networks and are summarized as (i) External attacks: in which attackers not belonging to the network jam the communication or inject erroneous information, and (ii) Internal attacks: in which attackers are internal, compromised nodes that are difficult to be detected. The MAC layers of WMN are subjected to the attacks like Eavesdropping, Link Layer Jamming Attack, MAC Spoofing Attack, and Replay Attack. The attacks in Network Layer are: Control Plane Attacks, Data Plane Attacks, Rushing attack, Wormhole attack, and Black Hole Attack. In this project work we are concern with the threats related to Network layer of WMN based upon 802.11i and analysis the performance of secure routing protocols and their performance against the intrusion detection

Traffic engineering multi-layer optimization for wireless mesh network transmission a campus network routing protocol transmission performance inhancement

This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel UniversityThe wireless mesh network is a potential network for the future due to its excellent inherent characteristic for dynamic self-healing, self-configuration and self-organization. It also has the advantage of easy interoperability networking and the ability to form multi-linked ad-hoc networks. It has a decentralized topology, is cheap and highly scalable. Furthermore, its ease in deployment and easy maintenance are other inherent networking qualities. These aforementioned qualities of the wireless mesh network bring advantages to transmission capability of heterogeneous networks. However, transmissions in wireless mesh network create comparative performance based challenges such as congestion, load-balancing, scalability over increasing networks and coverage capacity. Consequently, these challenges and problems in the routing and switching of packets in the wireless mesh network routing protocols led to a proposal on the resolution of these failures with a combination algorithm and a management based security for the network and its transmitted packets. There are equally contentious services like reliability of the network and quality of service for real-time multimedia traffic flows with other challenges such as path computation and selection in the wireless mesh network. This thesis is therefore a cumulative proposal to the resolution of the outlined challenges and open research areas posed by using wireless mesh network routing protocol. It advances the resolution of these challenges in the mesh environment using a hybrid optimization – traffic engineering, to increase the effectiveness and the reliability of the network. It also proffers a cumulative resolution of the diverse contributions on wireless mesh network routing protocol and transmission. Adaptation and optimization are carried out on the wireless mesh network designed network using traffic engineering mechanism and technique. The research examines the patterns of mesh packet transmission and evaluates the challenges and failures in the mesh network packet transmission. It develops a solution based algorithm for resolutions and proposes the traffic engineering based solution.. These resultant performances and analysis are usually tested and compared over wireless mesh IEEE802.11n or other older proposed documented solution. This thesis used a carefully designed campus mesh network to show a comparative evaluation of an optimal performance of the mesh nodes and routers over a normal IEE802.11n based wireless domain network to show differentiation by optimization using the created algorithms. Furthermore, the indexes of performance being the metric are used to measure the utility and the reliability, including capacity and throughput at the destination during traffic engineered transmission. In addition, the security of these transmitted data and packets are optimized under a traffic engineered technique. Finally, this thesis offers an understanding to the security contribution using traffic engineering resolution to create a management algorithm for processing and computation of the wireless mesh networks security needs. The results of this thesis confirmed, completed and extended the existing predictions with real measurement

A New Routing Protocol for WMNs

Opportunistic routing is an emerging research area in Wireless Mesh Networks (WMNs), which exploits the broadcast nature of wireless networks to find the optimal routing solution that maximizes throughput and minimizes packet loss. Opportunistic routing protocols mainly suffer from computational overheads, as most of the protocols try to find the best next forwarding node. In this paper we address the key issue of computational overhead by designing new routing technique without using pre-selected list of potential forwarders. We propose a novel opportunistic routing technique for WMNs. We compare it with well-known protocols, such as AODV, OLSR, and ROMER based on throughput, delivery ratio, and average end to end delay. Simulation results show that proposed protocol, gives average throughput increase up to 32%, and increase in delivery ratio (from 10% to 20%). We also analyze the performance of proposed protocol and ROMER based on various parameters, such as duplicate transmissions and network collisions, by analysis depicts that proposed protocol reduces duplicate transmissions up to 70% and network collisions up to 30% DOI: 10.17762/ijritcc2321-8169.15026

On algorithms, system design, and implementation for wireless mesh networks.

Yuan, Yan.Thesis submitted in: November 2007.Thesis (M.Phil.)--Chinese University of Hong Kong, 2008.Includes bibliographical references (leaves 84-87).Abstracts in English and Chinese.Chapter 1 --- Introduction --- p.1Chapter 1.1 --- Wireless Mesh Network --- p.3Chapter 1.1.1 --- Architecture Overview --- p.3Chapter 1.1.2 --- Routing Protocols --- p.5Chapter 1.2 --- Contribution of this Thesis --- p.7Chapter 1.3 --- Organization of this Thesis --- p.8Chapter 2 --- Background and Literature Review --- p.9Chapter 2.1 --- VoIP on Wireless Mesh Networks --- p.9Chapter 2.1.1 --- Performance of VoIP on Wireless Mesh Networks --- p.9Chapter 2.1.2 --- Optimizations for VoIP over Wireless Mesh Networks --- p.12Chapter 2.1.3 --- Path and Packet Aggregation Scheme --- p.14Chapter 2.2 --- Network Coding on Wireless Mesh Networks --- p.15Chapter 2.2.1 --- The Concept of Network Coding --- p.15Chapter 2.2.2 --- Related Work --- p.16Chapter 3 --- Adaptive Path and Packet Aggregation System --- p.19Chapter 3.1 --- Overview --- p.19Chapter 3.2 --- The Adaptive Path Aggregation Routing Algorithm --- p.20Chapter 3.2.1 --- Protocol Overview --- p.20Chapter 3.2.2 --- Data Structure --- p.21Chapter 3.2.3 --- The Concept of Link Weight and Path Weight --- p.26Chapter 3.2.4 --- APA Operations --- p.27Chapter 3.3 --- The Packet Aggregation System --- p.39Chapter 3.3.1 --- Overview --- p.39Chapter 3.3.2 --- Packet structure --- p.40Chapter 3.3.3 --- Local Compression --- p.41Chapter 3.3.4 --- Packet Aggregation/Disaggregation --- p.42Chapter 3.4 --- Performance Analysis --- p.44Chapter 3.4.1 --- Integration of the path aggregation routing protocol and the packet aggregation system --- p.46Chapter 3.5 --- Performance Evaluation --- p.48Chapter 3.5.1 --- Testbed Setup --- p.48Chapter 3.5.2 --- Packet aggregation --- p.48Chapter 3.5.3 --- Combined scenario: path and packet aggregation --- p.58Chapter 3.6 --- Summary --- p.65Chapter 4 --- Network Coding System in wireless network --- p.67Chapter 4.1 --- Overview --- p.67Chapter 4.2 --- System Architecture --- p.68Chapter 4.2.1 --- Packet Format --- p.68Chapter 4.2.2 --- Encoding and decoding --- p.69Chapter 4.3 --- Performance Evaluation --- p.71Chapter 4.3.1 --- Experiment Setup --- p.71Chapter 4.3.2 --- Performance Metric --- p.72Chapter 4.3.3 --- Experiment Results --- p.72Chapter 4.4 --- Summary --- p.79Chapter 5 --- Conclusions and Future Directions --- p.8

Security and Privacy Issues in Wireless Mesh Networks: A Survey

This book chapter identifies various security threats in wireless mesh network (WMN). Keeping in mind the critical requirement of security and user privacy in WMNs, this chapter provides a comprehensive overview of various possible attacks on different layers of the communication protocol stack for WMNs and their corresponding defense mechanisms. First, it identifies the security vulnerabilities in the physical, link, network, transport, application layers. Furthermore, various possible attacks on the key management protocols, user authentication and access control protocols, and user privacy preservation protocols are presented. After enumerating various possible attacks, the chapter provides a detailed discussion on various existing security mechanisms and protocols to defend against and wherever possible prevent the possible attacks. Comparative analyses are also presented on the security schemes with regards to the cryptographic schemes used, key management strategies deployed, use of any trusted third party, computation and communication overhead involved etc. The chapter then presents a brief discussion on various trust management approaches for WMNs since trust and reputation-based schemes are increasingly becoming popular for enforcing security in wireless networks. A number of open problems in security and privacy issues for WMNs are subsequently discussed before the chapter is finally concluded.Comment: 62 pages, 12 figures, 6 tables. This chapter is an extension of the author's previous submission in arXiv submission: arXiv:1102.1226. There are some text overlaps with the previous submissio