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Wireless Mesh Networks and their Applications in Homeland Security: Market and Technologies

Published by: Practel, Inc.

Published: Nov. 1, 2006


Table of Contents


1.0 Introduction

1.1General

1.2 Definition

1.2.1 Ad-Hoc and Mesh

1.3 Scope

1.4 Research Methodology

1.5 Target Audience




2.0 Mesh Networks: Standards

2.1 General

2.2 IEEE 802.11s


2.2.1 Standardization Process




3.0 Radio Technologies

3.1 IEEE 802.11n


3.1.1 Advanced Technologies: MIMO and Others


3.1.1.1 General

3.1.1.2 Spatial Multiplexing

3.1.1.3 OFDM


3.1.2 Directions

3.1.3 Standard


3.1.3.1 Ratification


3.1.3.1.1 EWC



3.1.4 Details: Technology

3.1.5 Market


3.1.5.1 General

3.1.5.2 Market Forecast


3.1.5.2.1 Model Assumptions

3.1.5.2.2 Estimate


3.1.5.2.2.1 Chipsets

3.1.5.2.2.2 Platforms




3.1.6 802.11n Industry Players


Atheros

Belkin

Broadcom

Intel

Ruckus

Linksys

Marvell

Metalink

NEC

Netgear

SiGe



3.2 ZigBee


3.2.1 General

3.2.2 Device Types

3.2.3 Protocol Stack


3.2.3.1 Physical and MAC layers - IEEE802.15.4


3.2.3.1.1 Frame



3.2.4 Upper Layers

3.2.5 Interoperability

3.2.6 Security

3.2.7 Platform Considerations


3.2.7.1 Battery Life


3.2.8 Technology Benefits and Limitations

3.2.9 Standardization Process


3.2.9.1 Zigbee Alliance

3.2.9.2 Objectives

3.2.9.3 802.15.4- ZigBee Basis

3.2.9.4 IEEE 802.15.4 Radio

3.2.9.5 Application Specifics


3.2.10 ZigBee Role

3.2.11 Market


3.2.11.1 Expectations

3.2.11.2 Segments

3.2.11.3 Forecast


3.2.12 Industry


Airbee (Software)

Amber (RF Systems)

Atmel (Chipsets)

Chipcon -TI (Chipsets)

Cirronet (Modules Industrial Automation)

Duolog (Transceivers)

Eazix (Modules)

Ember (Chipsets)

Falcom (Modules)

Helicomm (Modules)

Jennic (Chipsets-Modules)

Freescale (Chipsets)

Luxoft Labs (Integration)

M&R Lawugger GmbH (Software)

Maxstream (WSN Modules)

Nanotron (Chipsets)

Oki (Chipsets)

Renesas (Platforms)

Silicon Laboratories (Chipsets, Modules)

Telegesis (Integrator)

Uniband (Chipsets)

ZMD (Chipsets)



3.3 UWB


3.3.1 General

3.3.2 Obstacles

3.3.3 Benefits

3.3.4 Definition

3.3.5 Rates

3.3.6 Spectrum Allocation

3.3.7 Choices

3.3.8 Major Features

3.3.9 Standards and Regulations


3.3.9.1 Multiband OFDM

3.3.9.2 DS-UWB

3.3.9.3 Groups


3.3.10 Major Applications

3.3.11 Market Estimate


3.3.11.1 General

3.3.11.2 Geographical Segmentation

3.3.11.3 Forecast


3.3.12 Industry


Aether (localization devices)

Alereon (chipsets)

Artimi (chipsets)

BBN (radio, first responders applications)

Camero (radar, equipment for first responders)

decaWave (chipsets)

Focus Enhancement (chipsets)

Freescale (chipsets, systems)

General Atomics (chipsets)

Multispectral (RFID and others)

Parco (RFID)

Pulse~ Link (chipsets)

Staccato (chipsets)

TriQuint (chipsets - homeland security applications)

Time Domain (chipsets-fusion of communications & radar)

Tzero (chipsets)

Ubisense (RFID-tracking)

Wisair (chipsets)

WiQuest (chipsets)





4.0 Technology: Mesh Networks Specifics

4.1 Features

4.2 Benefits and Limitations

4.3 Architectures

4.4 Routing Protocols


4.4.1 Too Many


4.4.1.1. Lack of Standardization

4.4.1.2 Applications Variety


4.4.2 Protocols


4.5 Security Issues


4.5.1 General

4.5.2 802.11

4.5.3 UWB

4.5.4 ZigBee




5.0 Market: Mesh Networks

5.1 Major Applications

5.2 Market Estimate


5.2.1 Market Leaders

5.2.2 Forecast




6.0 Major WMN Vendors and their Products

Atheros (chipsets)

BelAir (Nodes)

Cisco (Protocols, Nodes)

Crossbow (nodes)

Dust Networks (WMN Nodes)

Ember (ZigBee chips for WMN)

Intel (Nodes)

IWT(Network Solution)

IPMobileNet (WMN)

FireTide (Mesh network-Public safety applications)

Foxboro-Invensys (MN for Industrial Automation)

MeshDynamics (Nodes)

Millennial Net (SW and Systems)

Moteiv (Nodes and SW)

MeshNetworks (Motorola)

Mitre (protocols)

Motorola (Nodes-Public Safety Communications)

NexGen City (Mesh-Public Safety)

Northrop Grumman (Nodes)

Nortel (WMN Systems)

NovaRoam (Public Safety Communications -WMN)

Octave Technologies (SW)

PacketHop (WMN SW)

Proxim (WMN Nodes)

Rajant (WMN-Military, First Responders)

Sensoria (WMN for Public Safety Communications)

Sensicast (WMN for Industrial Automation)

SIAE (WMN for IA)

SkyPilot Networks (WMN Nodes)

Strix (Nodes)

Qorvus (WMN for IA)

Tropos (routers, OS)

Ubiwave (Mesh Network)




7.0 WMN and First Responders




8.0 Conclusions

Abstract

This report addresses technological and marketing issues of wireless mesh networks (WMN). Such networks allow building self-organized and self-healing architectures where all nodes are equally involved in the transport of video, voice and data, making decisions based on information received from neighbors. The network responds on each failure, and because it has in-built redundancy, re-routes traffic from a place of failure.

The report analyzes WMN structures, and deals with:
  • Radio technologies utilized by WMN
  • Routing protocols.
In discussion of radio technologies for WMN, we emphasize the importance of three forward
  • looking wireless protocols: IEEE802.11n, ZigBee and Ultra Wideband (UWB). Though the majority of WMNs, at the present time use slower IEEE802.11b, g technologies, it is our perception that these three protocols will be building blocks of WMN in the near future. Except ZigBee, these technologies allow transmission with a rate of hundreds Mb/s and support greater coverage. ZigBee
  • structured WMNs are already a today reality in spite of a fact that their speed of transmission cannot exceed a couple of hundreds Kb/s.


    • All discussed technologies have features that are useful in the WMN environment:
    • Extremely low power consumption
    • Inherent security features
    • Low sensitivity to mutipath problems.
    The report analyzes technological benefits and limitations of each radio technology and standardization process as well as presents the marketing analysis and forecast.

    The report also addresses the standardization process for WMN, and discusses a status of the IEEE802.11s standard. It shows that, so far, almost every manufacturer of WMN nodes uses proprietary routing protocols, and this situation slows WMN development. Some of the most popular routing protocols in use by WMNs are discussed in the report.

    WMN architectures found already many applications in the commercial market, though initially they were the military prerogative. Among the most popular applications, we addressed:
    • Municipalities
    • Public safety communications
    • Industrial automation
    • Consumers.
    Note that WMNs are perfect choice for first responders. These networks can be easily deployed in a very short period of time (for example, in the emergency situations), and each node may be associated with a first responder, as per an ad
  • hoc network scenario. More than that, due to the fact that some routing protocols are agnostic to the radio protocols, interoperability between different agencies communications can be achieved. Some technologies, such as UWB, may be used for dual purposes being a building block not only for communications devices, but for extremely precise radar as well.


    • The report provides market characteristics of WMN, and shows that the industry already has created a strong basis for future WMN expansion. We envision that in several years 802.11n and UWB will prevail in WMN applications required high
  • speed transmission, and they will successfully compete with wired technologies, such as Fast Ethernet. ZigBee and 802.11a, b, g will be left for applications that do not require high speed transmission, such as, for example, industrial automation, or home networks.


    • Research Methodology

    Considerable research was done using the Internet. Information from various Web sites was studied and analyzed. Evaluation of publicly available marketing and technical publications was conducted. Telephone conversations and interviews were held with industry analysts, technical experts and executives. In addition to these interviews and primary research, secondary sources were used to develop a more complete mosaic of the market landscape, including industry and trade publications, conferences and seminars.

    The overriding objective throughout the work has been to provide valid and relevant information. This has led to a continual review and update of the information content.

    Target Audience

    This report is important to a wide population of researches, technical and sales staff involved in the developing of mesh networks services and products. It is recommended for both service providers and vendors that are working with related technologies. The report also helps to understand issues associated with relationship between WMN and other technologies.

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