1 Q2 2006 Update
1.1 Baseband Architecture Requirements
1.2 VOIP may have the most influence in the Enterprise Market:
1.3 Limitations to WiMAX lie beyond any technical issues:
1.4 BPL may take potential market share from WiMAX:
1.5 UWB may require a form of smart antenna in certain use cases:
1.6 The industry’s standard-first, product-second” strategy coupled with wireless convergence
create turmoil for technology development:
1.7 Smart Antenna, Diversity Antenna, and MIMO Antenna Technology Requirement
Analysis
1.8 Market Data Shift
1.9 Smart Antenna Components for Fixed WiMAX (802.16a) Markets
1.10 Smart Antenna Components for Mobile WiMAX (802.16e) Markets
2 Executive Summary
2.1 A View Of Smart Antennas Today
2.2 FCC As A Driving Force for Smart Antenna Development
2.3 SiBeam: The Next ArrayComm?
2.4 Smart Antenna Market Penetration Model
2.5 Industry Description
2.6 Smart Antenna Benefits
2.7 Smart Antenna Mode Description
3 Strategic Market Analysis
3.1 Communications Market Analysis
3.2 Consumer Electronics Market Analysis
3.3 Enterprise Market Analysis
3.4 Transportation Market Analysis
3.5 Home Networking Market Analysis
3.6 Medical and Healthcare Market Analysis
3.7 Industrial Automation Market Analysis
3.8 Agricultural Market Analysis
3.9 Security Market Analysis
4 Smart Antenna Technology Review
4.1 Summary of Smart Antenna Technology
5 Relevant Emerging Wireless Standards Bodies
5.1 UWB Standards Bodies
5.2 Standards Bodies that Define WiMAX
5.3 Wi-Fi Standards Bodies
5.4 Standards Bodies that Define ZigBee
5.5 How a Smart Antenna Works
5.6 Smart Antenna Patent Activity
6 Wireless Technology Overviews
6.1 IEEE 802.11
6.1.1 Reliable Coverage Range for 802.11
6.2 IEEE 802.15
6.2.1 IEEE 802.15.1
6.2.1.1 Bluetooth Wireless Standard
6.2.1.2 How a Bluetooth Network Works
6.2.2 IEEE 802.15.3a
6.2.2.1 Ultrawideband Chipset Characterization
6.2.2.2 DS-CDMA vs. MB-OFDM Ultrawideband Technology - How Do You Make the
Choice?
6.2.2.3 How An Ultrawideband Network Works
6.2.3 IEEE 802.15.4
6.2.3.1 Comparison of ZigBee with RFID
6.2.3.2 How a ZigBee Network Works
6.2.4 IEEE 802.15.4a
6.2.5 IEEE 802.16
6.2.5.1 Comparison of IEEE 802.16-2004, IEEE 802.16e, WiMAX, Mobile-Fi, WRAN, WiBro,
IEEE 802.20, EVDO, and UMTS
6.2.6 IEEE 802.20
7 Issues for Equipment Manufacturers
8 Market Dynamics & Opportunity Analysis
8.1 MIMO Will Be Prevalent In WLAN Range Extension Applications
8.2 Smart Antennas Critical to 2.5 and 3G Communication
8.3 Smart Antenna Use in GPS Extends Operational Range
8.4 Why Not Bluetooth?
8.5 Smart Antenna Adoption is Geography-Agnostic
8.6 OEM Participation Likely to Bifurcate
8.6.1 Companies Developing Smart Antenna Products
9 Smart Antenna Market Forecasts
9.1 Smart Antenna Component Market Overview
9.2 Smart Antenna Components in Wide Area Communication Networks (WAN)
9.2.1 Smart Antenna Components in WAN Forecast
9.2.2 Smart Antenna Components for 3G Markets
9.2.3 Smart Antenna Components for 4G Markets
9.3 Smart Antenna Components for WiMAX Markets
9.4 Smart Antenna Components in Wireless Local Area Communication Network (WLAN)
Markets
9.4.1 Smart Antenna WLAN Component Forecast
9.4.2 802.11a/b/g Smart Antenna Component Markets
9.4.3 802.11n Smart Antenna Component Markets
9.5 Smart Antenna Components for Sensor & Location Network Markets
9.5.1 Overall Forecast
9.5.2 Smart Antenna Components in UWB Sensor Markets
10 OEM Analysis
10.1 Summary
10.2 OEM Product Focus
10.3 Manufacturing Locations
10.4 Geographic Markets Served
10.5 Market Segments Addressed
10.6 Channels of Distribution
11 Smart Antenna Corporate Overviews
11.1 Advanten
11.2 Airgo Networks, Inc.
11.3 Andrew Corporation
11.4 ArrayComm, Inc.
11.5 Bandspeed, Inc.
11.6 Broadcom
11.7 eTenna
11.8 Intel Corporation
11.9 Interdigital Communications Corporation
11.10 Lumera Corporation
11.11 Motia, Inc.
11.12 Philips Semiconductors
11.13 Symena Software & Consulting GmbH
11.14 SiBeam
