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Home > Communications > Access Technology > LAN/WAN Technology
Communications for High-Speed Moving Objects: IEEE 802.16e, IEEE 802.20 and 5.9 GHz DSRC
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| Published Date:
February 2007
Published By:
Practel, Inc.
Order Code:
R606-54
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- 1.0 Introduction
- 1.1 General
- 1.2 WiMAX
- 1.3 IEEE 802.20
- 1.4 5.9 GHz DSRC
- 1.5 Structure
- 1.6 Research Methodology
- 1.7 Target Audience
- 2.0 802.16e Technology
- 2.1 General
- 2.2 History of 802.16 Development
- 2.2.1 The IEEE 802.16-2004 Standard
- 2.3 IEEE 802.16e Standard Specifics
- 2.3.1 Types of Handover
- 2.3.2 Sleep Mode
- 2.3.3 IEEE 802.16e Physical Layer
- 2.3.4 OFDMA
- 2.4 Spectrum
- 2.4.1 Future Spectrum for BWA/WiMAX
- 2.4.2 Spectrum Availability for WiMAX Mobility
- 2.4.3 WiMAX Forum
- 2.5 Beginning
- 2.6 ITU Activity
- 2.7 WiMAX End to End
- 2.8 Standards Evolution
- 2.9 Competition
- 2.9.1 WiBro
- 2.9.2 WiFi and 802.16
- 2.10 802.16-2004 and 802.16e
- 2.11 Examples: Trials and Projects
- 2.11.1 General
- 2.11.2 Alcatel
- 2.11.3 KDDI
- 2.11.4 NTT
- 2.11.5 Sprint
- 2.11.6 Samsung
- 2.12 Market
- 2.12.1 Target Market
- 2.12.2 Paid Subscribers Base
- 2.12.3 Geography
- 2.12.4 Applications
- 2.12.5 Market Forecast
- 2.13 Market Players
- Adaptix (Platform)
- Aeroflex (Test equipment)
- Airspan Networks (Platform, USB)
- Alcatel
- Alvarion (Platform, Public Safety)
- Aperto Networks (Base stations, Subscriber units)
- Altera (Chipsets)
- Beceem Communications, Incorporated (Chipsets)
- Cambridge Consultants (Reference Design)
- Comsys (Processors, chipsets)
- EoNex (Wireless modem ASIC, SW)
- Intel (Chipsets)
- M/A-Com (Radio)
- Motorola (Chipsets, radios)
- Navini (Base station)
- NEC (Platforms)
- picoChip (Chipsets)
- Posdata (Base stations, chipsets, subscriber units)
- Samsung (Base stations)
- STMicroelectronics (Base station modems)
- Sequans (Chipsets, SW)
- TI (Chipsets)
- Wavesat Incorporated (Chipsets)
- Wi-LAN (Modules)
- Wintegra (SW, processors)
- 3.0 IEEE 802.20-Mobile Broadband Wireless Access
- 3.1 General
- 3.2 Technology
- 3.2.1 iBirst and History
- 3.3 IEEE 802.20 and IEEE 802.16e
- 3.4 IEEE 802.20 Technology Details - Current View
- 3.4.1 802.20 PHY Layer Overview
- 3.5 802.20 vs 2.5 and 3G Cellular Networks
- 3.6 802.22: Wireless Regional Area Networks (WRAN)
- 3.7 Comparison: WiMAX, IEEE 802.20 and IEEE 802.22
- 3.7.1 General
- 3.7.2 Details: IEEE 802.16e and IEEE 802.20 Comparison
- 4.0 5.9 GHz DSRC
- 4.1 General
- 4.2 IEEE 802.11p
- 4.2.1 General
- 4.2.2 Objectives and Status
- 4.2.3 5.9 GHz Transmission Advantages
- 4.2.4 Major Features
- 4.3 IEEE 1609
- 4.3.1 General
- 4.3.2 Overview
- 4.3.3 IEEE 1609 in Use
- 4.4 IEEE 1556
- 4.5 History
- 4.6 Equipment
- 4.7 Details: Dedicated Short Range Communications
- 4.7.1 Other Standards
- 4.7.2 Channel Designation
- 4.8 Place
- 4.9 Applications
- 4.10 5.9 GHz DSRC Characteristics (U.S.)
- 4.11 DSRC at Work
- 4.11.1 Service Categories
- 4.11.2 Requirements: DSRC
- 4.12 Regulation
- 4.12.1 Licensing
- 4.13 Comparison
- 4.14 DSRC Worldwide Standard Activity
- 4.14.1 General
- 4.14.2 Process
- ERTICO
- ETSI
- ISO
- SAE
- OmniAir Consortium
- North America
- Japan
- Korea
- Brazil
- 4.15 5.9 GHz DSRC Benefits and Limitations
- 4.15.1 General
- 4.16 Examples
- 4.16.1 Demonstration
- 4.16.2 DaimlerChrysler Builds Car-to-Car Information Bridge
- 4.17 RFID and DSRC: Similarities and Differences
- 4.18 Market
- 4.18.1 Market Drivers
- 4.18.2 Market Requirements
- 4.18.3 Data
- 4.18.4 Market Estimate
- 4.19 Vendors
- Arinc
- Cornet
- Iteris
- Kapsch
- Mark IV
- Oki
- Q-Free
- Raytheon
- Signalion
- Sirit
- TransCore
- TechnoCom
- 5.0 Conclusions
- List of Figures
- Figure 1: 700 MHz Band Allocation
- Figure 2: Standards Evolution
- Figure 3: Projection: 802.16e Subscribers Base (M)
- Figure 4: 802.16e Markets Geography
- Figure 5: 802.16e Applications
- Figure 6: Projection: 802.16e Service Providers Revenue ($B)
- Figure 7: Projection: 802.16e Sales ($B)
- Figure 8: Illustration- Wireless Standards
- Figure 9: Example-802.20 Network Architecture
- Figure 10: Communications Model
- Figure 11: 5.9 GHz DSRC: Spectrum Allocation Details
- Figure 12: Spectrum -Details
- Figure 13: Major Applications Categories
- Figure 14: Collision Detection/Avoidance System
- Figure 15: Work Zone Warning
- Figure 16: Smart Car
- Figure 17: 5.9 GHz DSRC Rate vs. Distance
- Figure 18: Flow Chart: Process
- Figure 19: DSRC Frequencies Planning
- Figure 20: Service-related Characteristics
- Figure 21: 5.9 GHz SDRC Program Schedule
- Figure 22: N.A. 5.9 GHz DSRC Program
- Figure 23: Market Estimate: 5.9 GHz DSRC Readers ($M)
- Figure 25: Market Estimate: 5.9 GHz DSRC Tags ($M)
- List of Tables
- Table 1: Frequencies
- Table 2: WiMAX Family-Major Parameters
- Table 3: Characteristics Comparison of 802.20 and 2.5/3G Cellular Networks
- Table 4: Comparison - Features of WiMAX, IEEE 802.20 and IEEE 802.22
- Table 5: Outline of DSRC Characteristics (Japan)
- Table 6: Priorities
- Table 7: Requirements
- Table 8: 915 MHz and 5.9 GHz DSRC Differences
- Table 9: Standards: Summary
- Table 10: 5.9 GHz DSRC Advantages
- Table 11: DSRC for Safety
- Table 12: Comparative Characteristics
- Table 13: Differences
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