Wireless Mesh Networks Myungchul Kim

Slides:



Advertisements
Similar presentations
Extended Service Set (ESS) Mesh Network Daniela Maniezzo.
Advertisements

Wide Area Wi-Fi Sam Bhoot. Wide Area Wi-Fi  Definition: Wi-Fi (Wireless Fidelity) n. – popular term for high frequency wireless local area networks operating.
CSE 6590 Department of Computer Science & Engineering York University 1 Introduction to Wireless Ad-hoc Networking 5/4/2015 2:17 PM.
802.11a/b/g Networks Herbert Rubens Some slides taken from UIUC Wireless Networking Group.
Delay and Throughput in Random Access Wireless Mesh Networks Nabhendra Bisnik, Alhussein Abouzeid ECSE Department Rensselaer Polytechnic Institute (RPI)
Kyle Mason. Mesh networks requirements have evolved from their military origins as they have moved from battlefield to the service provider, to the residential.
Wireless Mesh Networks 1. Architecture 2 Wireless Mesh Network A wireless mesh network (WMN) is a multi-hop wireless network that consists of mesh clients.
Arsitektur Jaringan Terkini
CS541 Advanced Networking 1 Wireless Mesh Networks Neil Tang 1/26/2009.
A Survey on Wireless Mesh Networks Sih-Han Chen 陳思翰 Department of Computer Science and Information Engineering National Taipei University of Technology.
IEEE Overview and Meshed Networking ELEC6076 Computer Networks Alan Ford
12/09/20041 Daniela Maniezzo, UCLA Gianluca Villa, Politecnico di Milano Mario Gerla, UCLA A “Smart” MAC-Routing Protocol for WLAN Mesh Networks.
CMPE 80N - Introduction to Networks and the Internet 1 CMPE 80N Winter 2004 Lecture 10 Introduction to Networks and the Internet.
CS541 Advanced Networking 1 Mobile Ad Hoc Networks (MANETs) Neil Tang 02/02/2009.
1 SMART ANTENNA TECHNIQUES AND THEIR APPLICATION TO WIRELESS AD HOC NETWORKS JACK H. WINTERS /11/13 碩一 謝旻欣.
Scaling Mesh for Real Ed Knightly ECE Department Rice University
Wireless Networking Overview Carey Williamson Dept. of Computer Science U. of Calgary (Original slides courtesy of David Schwab, U of S)
Enabling Large Scale Wireless Broadband: The Case for TAPs Roger Karrer, Ashu Sabharwal and Ed Knightly ECE Department Rice University Joint project with.
Members Suman Raj Adhikari Saroj Raj Regmi
Wireless Mesh Networks
Wireless Mesh Networks The notes of this talk are excerpted from the lecture notes by Prof. Akyildiz at Georgia Institute of Technology By Cunqing Hua.
Wireless MESH network Tami Alghamdi. Mesh Architecture – Mesh access points (MAPs). – Mesh clients. – Mesh points (MPs) – MP uses its Wi-Fi interface.
Doc.: IEEE leci Submission Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [Low Energy.
Wireless Mesh Networks 1. Overview 2 Wireless routers Gateways Printers, servers Mobile clients Stationary clients Intra-mesh wireless links Stationary.
Capacity of Wireless Mesh Networks: Comparing Single- Radio, Dual-Radio, and Multi- Radio Networks By: Alan Applegate.
Lecture 1 Wireless Networks CPE 401/601 Computer Network Systems slides are modified from Jim Kurose & Keith Ross All material copyright J.F.
IEEE & Priyanka Vanjani CST 554: Short Presentation ASU Id #
WIRELESS MESH NETWORKS Ian F. AKYILDIZ* and Xudong WANG** * Georgia Institute of Technology BWN (Broadband Wireless Networking) Lab ** TeraNovi Tachnologies.
1 National Research Council - Pisa - Italy Marco Conti Italian National Research Council (CNR) IIT Institute MobileMAN Architecture and Protocols 2nd MobileMAN.
Architecture and Algorithms for an IEEE based Multi-channel Wireless Mesh Network Ashish Raniwala, Tzi-cker Chiueh Stony Brook University Infocom2005.
SMUCSE 8344 Wireless Mesh. SMUCSE 8344 The Premise.
Performance Analysis of AODV and SAODV Routing Protocols in Ad-Hoc Mesh Networks- A Simulation Study Sangeeta Ghangam Division of Computing Studies, Arizona.
بسم الله الرحمن الرحيم. Wireless Mesh Network (WMN) Izzeldin Shibeika – April, UNCC -
Jason Ernst and Mieso Denko
1 Heterogeneity in Multi-Hop Wireless Networks Nitin H. Vaidya University of Illinois at Urbana-Champaign © 2003 Vaidya.
Gürkan RAKANOĞLU. Outline Overview of Wireless Mesh Networks Video Streaming over Wireless Networks Applications of Video over Wireless Networks.
Wireless Mesh Network 指導教授:吳和庭教授、柯開維教授 報告:江昀庭 Source reference: Akyildiz, I.F. and Xudong Wang “A survey on wireless mesh networks” IEEE Communications.
1 Mobile ad hoc networking with a view of 4G wireless: Imperatives and challenges Myungchul Kim Tel:
The Symbiosis of Cognitive Radio and WMNs from “Guide to WMNs” by Sudip Misra and et al, 2009 Myungchul Kim
COST289 14th MCM Towards Cognitive Communications 13 April Towards Cognitive Communications A COST Action Proposal Mehmet Safak.
IEEE &
Dilshad Haleem CST593 summer 2007 Routing In Wireless Mesh Networks CST593 Final Project by Dilshad Haleem Division of Computing Studies, ASU Polytechnic.
Ashu SabharwalRice University Capacity and Fairness in Multihop Wireless Backhaul Networks Ashu Sabharwal ECE, Rice University.
Jason Ernst, University of Guelph 1.  Introduction ◦ Background Information ◦ Motivation for Research / Current Problems  Proposed Solution ◦ Algorithm.
Ch 11. Multiple Antenna Techniques for WMNs Myungchul Kim
A Survey on Wireless Mesh Networks IAN F. AKYILDIZ, GEORGIA INSTITUTE OF TECHNOLOGY XUDONG WANG, KIYON, INC. IEEE Radio Communications September 2005.
1 Mobile ad hoc networking with a view of 4G wireless: Imperatives and challenges Myungchul Kim Tel:
AD-HOC NETWORK SUBMITTED BY:- MIHIR GARG A B.TECH(E&T)/SEC-A.
5 SECTION A 1 Network Building Blocks  Network Classifications  LAN Standards  Network Devices  Clients, Servers, and Peers  Physical Topology  Network.
Self Organizing Wireless Mesh Networks Microsoft Research March 21, 2003 Intel/Microsoft Quarterly Strategic CTO Review.
Wireless Networks Standards and Protocols & x Standards and x refers to a family of specifications developed by the IEEE for.
WiMAX Worldwide Interoperability for Microwave Access AMIT KUMAR AMIT KUMAR M TECH (ECE) M TECH (ECE)
Wireless Mesh Networks Myungchul Kim
Improving the scalability of MAC protocols in Wireless Mesh Networks Mthulisi Velempini (Mr.)
Ασύρματες και Κινητές Επικοινωνίες Ενότητα # 12: Ασύρματα Δίκτυα Πλέγματος (Wireless Mesh Networks) Διδάσκων: Βασίλειος Σύρης Τμήμα: Πληροφορικής.
Routing Metrics and Protocols for Wireless Mesh Networks Speaker : 吳靖緯 MA0G0101.
Intro Wireless vs. wire-based communication –Costs –Mobility Wireless multi hop networks Ad Hoc networking Agenda: –Technology background –Applications.
WiMAX Chapter 11. Wireless Technologies WWAN (proposed) WMAN 70 Mbps ~50 Km a/e WiMAX New standard for Fixed broadband Wireless. Trying to.
1 Wireless Networks Lecture 31 Wireless Mesh Networks Dr. Ghalib A. Shah.
A Technical Seminar Presentation on WIMAX ( Worldwide Interoperability for Microwave Access ) BY M.K.V HARSHA VARDHAN REDDY-07K81A0440.
System Architecture for C2C Communications Based on Mobile WiMAX Michiyo ASHIDA VTT Technical Research Centre of Finland
Seminar on Wireless Mesh Networking Presented By: Mankiran Kaur ( ) M.Tech(C.S.E)
1 Wireless Networks Lecture 32 Wireless Mesh Networks Part II Dr. Ghalib A. Shah.
IMPROVING OF WIRELESS MESH NETWORKS.
4G Network Architectures
Wireless Local Area Network (WLAN)
Mobility in based Multihop networks
Routing In Wireless Mesh Networks
Xiuzhen Cheng Csci332 MAS Networks – Challenges and State-of-the-Art Research – Wireless Mesh Networks Xiuzhen Cheng
Routing in Mobile Ad-hoc Networks
Presentation transcript:

Wireless Mesh Networks Myungchul Kim

Municipal Wireless Networks MetroFi Portland Wireless Mesh Backhaul –High-speed WLAN coverage across a wider area –Multi-hop, WLAN + MANET Signal fading due to “urban canyons” 2

R. Bruno, M. Conti and E. Gregori, IEEE Communications Magazine, pp. 123 – 131, March 2005 Mobile (multihop) ad hoc networks (MANETs) –Self-organization, no preexisting communication infrastructure –For over 30 years – packet radio network (1972) –For tactical networks: cost is not a main issue –Recently, low-cost wireless technologies (Bluetooth and IEEE ) and IETF MANET working group –“the network is made of users devices only and no infrastructure exists” -> move to “opportunistic ad hoc networking” –Mesh networks Mesh Networks: Commodity Multihop Ad Hoc Networks

Mesh networks –Inherit many results from MANET research but have civilian applications as the main target –Simulation (for ad hoc networks) vs real testbeds (for mesh networks) –Off-the-shelf and proprietary applications –Off-the-shelf: community networks built on , Seattle, San Francisco, Roofnet system at MIT, … –IEEE s, , a,

Intelligent transportation systems –Providing real-time travel information to passengers –300 buses in Portsmouth –Bus schedule, destination, arriving time –Address transportation congestion problems improve transportation safety and security –Fig 1 Popular commercial applications for WMN

Public safety –9/11 –How about cellular technologies? –Answer: data rate is limited and the network infra is extremely costly. –The police department in the San Francisco, employing b/g for communications Public Internet Access –Without the need for extremely costly wired network infra –Some access points are directly connected to a wired backhaul network Popular commercial applications for WMN

WMN –A fully wireless networks that employs multihop communications to forward traffic en route to and from wired Internet entry points –A hierarchy in the network architecture (e.g., wireless routers, wireless backbone, mobile users) different from flat ad hoc networks –Highly scalable and cost effective –Easy deployment of high-speed ubiquitous wireless Internet –Fig 2 System and network architectures for WMNs

Reduction of installation costs –WiFi hot spots: the downside of this solution is an unacceptable increase in the infra costs because a cabled connection to the wired backbone is needed for every access points Large-scale deployment –High data rate of IEEE a/g -> shorter distance (picocellularization of WLANs) –Multihop communications offers long distance communications via hopping through intermediate nodes –The wireless backbone can realize a high degree of spatial reuse and wireless links covering longer distance at higher speed than conventional WLAN technologies. System and network architectures for WMNs

Reliability –Multiple possible destinations Self-management –Self-configuration and self-healingness System and network architectures for WMNs

-Community networks: provide shared cost-effective broadband Internet access to a neighborhood -Nonproprietary off-the-shelf technolgies Roofnet –802.11b mesh network –50 houses –MIT –Ominidirectional antennas to reduce the per-node costs –Only the gateways with directional antennas –Multihop routing protocol –Rootnet node acts as a router Off-the-shelf solutions for building mesh networks

-Incompatible -IEEE technologies on ISM(industrial, scientific, and medical) unlicensed band (2.4 GHz) or a proprietary radio platform -Its own wireless routing protocol or AODV Proprietary solutions for building mesh networks

-Wireless personal area networks (WPAN), WLAN and wireless metropolitan area networks (WMAN) IEEE –Short-range wireless connectivity for small of groups of fixed, portable, and moving computing devices –WPAN –Power limitations of mobile devices –Ultra wideband (UWB): using shorter links significantly increases the throughput –A cluster-based network architecture, where devices are grouped in small piconets. Open standards implementing WMN techniques

IEEE s –Providing the functionality of an extended service set (ESS) mesh IEEE A –WMAN –Point-to-multipoint (PMP) –Reliable non-line-of-sight (NLOS) IEEE –Mobile broadband in a cellular architecture (e.g., macro/micro/picocells) –802.16: 2-6 GHz, : below 3.5GHz, high-speed mobility issues (up to 250Km/h) Open standards implementing WMN techniques

–Fig 3 Open standards implementing WMN techniques

–Well-known scalability limits of ad hoc networks due to the dramatic degradation of througput and delay performance as the network diameter increases [5] High-capacity and reliable radio interfaces for the wireless backbone –Multiple radio interfaces, multiple-input multiple-output (MIMO) techniques, beamforming antennas and opportunistic channel selection –Diversity techniques make the channel less fading –Smart antennas or adpative array processing to copy with inteference Key research challenges

Designing scalable and opportunistic networking functions –Random MAC protocols suffer from increased contention in the network –Several paths at the same time to reach a given access point –Cross-layer design: spatial diversity and frequency diversity –The design of scheduling policies for a multichannel, multihop, and multidestination system is extremely challenging because ? –Routing metrics –How about proactive routing such as OSPF? Key research challenges

System-wide resource management –Aimed at eliminating the spatial bias by ensuring that each user receives the same fair share of resources independent of how far it is from the Internet entry point –Exploit spatial reuse in the wireless backbone –System-wide notion of fairness Key research challenges