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 Figure 1: Mesh Network Diagram Figure 2: WiMesh Stack Figure 3: Basic two-antenna MIMO system with two-stream SDM Example Figure 4: 802.11 Protocol Family MAC Frame Structure Figure 5: 802.11n IC Market Estimate ($M) Figure 6: Market Estimate: 802.11n Equipment Shipping ($B) Figure 7: ZigBee Protocol Stack Figure 8: Estimate: ZigBee Chipsets Market Worlwide ($M) Figure 9: ZigBee Market Segmentation (2006) Figure 10: ZigBee Market Segmentation (2010) Figure 11: UWB Spectrum Figure 12: Market Estimate: UWB Circuitry ($B) Figure 13: Market Estimate: Multiband OFDM UWB Circuitry ($B) Figure 14: Market Estimate: DS UWB Circuitry ($B) Figure 15: Estimate of UWB Market – Communications Applications ($B) Figure 16: Mesh Network Equipment Sale: Market Estimate ($B) Figure 17: Mesh Network Radio Technologies Figure 18: Technology Segmentation: Mesh Network Market Figure 19: Mesh Network Market Geography (2006

Summary:

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 neighbours. The network responds on each failure, and because it has in-built redundancy, re-routes traffic from a place of failure.

Companies Mentioned

Aether Alereon Artimi Airbee Amber Atheros BBN Belkin BelAir Broadcom Chipcon Cirronet Cisco Crossbow Camero decaWave Duolog Eazix Dust Networks Ember Falcom Foxboro-Invensys Focus Freescale Helicomm Jennic Intel IWT IPMobileNet Luxoft Labs FireTide Foxboro-Invensys M&R Lawugger GmbH Marvell Maxstream MeshDynamics Millennial Net Moteiv Metalink MeshNetworks Mitre Multispectral Motorola Nanotron NEC Netgear NexGen City Northrop Grumman Nortel NovaRoam Octave Technologies Oki Parco PacketHop Proxim Rajant Renesas Ruckus Linksys Sensoria Sensicast Silicon Laboratories SIAE SiGe SkyPilot Networks Staccato Strix Qorvus Telegesis Tropos TriQuint Time Domain Tzero Ubiwave Ubisense Wisair WiQuest ZMD