The Market for Vehicular Communications is Estimated to Be Worth Billions by 2012.DUBLIN Dublin, city, Republic of Ireland Dublin, Irish Baile Átha Cliath, county borough (1991 pop. 915,516), Leinster, capital of the Republic of Ireland, on Dublin Bay at the mouth of the Liffey River. , Ireland Ireland, Irish Eire (âr`ə) [to it are related the poetic Erin and perhaps the Latin Hibernia], island, 32,598 sq mi (84,429 sq km), second largest of the British Isles. -- Research and Markets (http://www.researchandmarkets.com/reports/c50922) has announced the addition of Communications for High-Speed high-speed adj. 1. Operated or designed for operation at high speed: a high-speed food processor. 2. Taking place at high speed: a high-speed chase. 3. Moving Objects: IEEE (Institute of Electrical and Electronics Engineers, New York, www.ieee.org) A membership organization that includes engineers, scientists and students in electronics and allied fields. 802.16e, IEEE 802.20 and 5.9 GHz DSRC (Dedicated Short Range Communications) A wireless technology for vehicular traffic. Using a modified 802.11a technology for North American cars and trucks, DSRC is designed for several applications. to their offering. Vehicular communications are becoming a reality, driven by navigation safety requirements and by the investments of car manufacturers and Public Transport Authorities to create the "open road" concept. In order to support mobility, a network infrastructure needs to be designed and implemented and this infrastructure has to provide reliable network access to objects traveling at high speeds. The access should be similar to what a person currently has at home, if not better. For cars and high-speed trains such communications should be supported for speeds not less than 200 km/h in a number of applications. These compunctions should also support Internet access See how to access the Internet. , for example, for travelers in a bus or train. The subject of this report is comparison and assessment of mobile technologies and markets for communications between high speed vehicles or between a vehicle and non-moving object. Particular, we are addressing: * Mobile WiMAX See WiMAX and 802.16. -802.16e * Technologies will be built on the evolving 802.20 standard * Technologies built on the evolving 802.11p and IEEE 1609 standards- Dedicated Short Reach Communications (WAVE-DSRC in the 5.9 GHz band). These technologies are different, but their aims are similar in several aspects: to include applications supporting effective, reliable and secure V-to-V (vehicle-to-vehicle) or V-to-S (vehicle-to- station) communications. This communications should be sustained when vehicles operate with high-speed (such as 200 km/h). These technologies are built on evolving standards, and, at the present time, only IEEE 802.16e is approved by the standard body. WAVE supports applications that require short-to-medium length communications spans, such as Electronic Toll Collection Electronic Toll Collection (ETC), an adaptation of military "identification friend or foe" technology, aims to eliminate the delay on toll roads. It is a technological implementation of a road pricing concept. , safety, Automatic Vehicle Registration and others. The IEEE started to work on the 802.20 standard before it developed the 802.16e standard, but still cannot to come to consensus. The IEEE 802.20 technology is evolving as pure mobile, and its applications will include V-to-V or V-to-S communications for longer reaches. The IEEE 802.16e technology was developed based on the IEEE 802.16-WiMAX standard, and we do not expect that V-to-V and V-to-S will be in main interest for its users. The report analyzes technological features and markets and compares these technologies applications for communications in high-speed moving objects environment. Major Findings: * The analyzed an·a·lyze tr.v. an·a·lyzed, an·a·lyz·ing, an·a·lyz·es 1. To examine methodically by separating into parts and studying their interrelations. 2. Chemistry To make a chemical analysis of. 3. technologies may find applications in communications between fast-moving objects, such as cars and trains * IEEE 802.16e is the only technology from the discussed three approved by the IEEE, though it, probably, find limited applications in the discussed by this report field * 5.9 GHz DSRC is going to be used with such applications as ETC ETC - ExTendible Compiler. Fortran-like, macro extendible. "ETC - An Extendible Macro-Based Compiler", B.N. Dickman, Proc SJCC 38 (1971). , AVR (Automatic Voltage Regulation) See voltage regulator. , safety and others * It looks like the analyzed technologies can compliment Not to be confused with Complement. Compliment may be
* The market for vehicular communications is estimated in billions in the 2010-2012 time frame. Target Audience This report is written for the IT staff of enterprises, technical and sales staff of service providers and management that needs understanding of recent trends in wireless technologies. For vendors, this report provides an opportunity to examine competitive developments in the V-to-V and V-to-S communications. Topics Covered: 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 2.3 IEEE 802.16e Standard Specifics 2.4 Spectrum 2.5 Beginning 2.6 ITU Activity 2.7 WiMAX End to End 2.8 Standards Evolution 2.9 Competition 2.10 802.16-2004 and 802.16e 2.11 Examples: Trials and Projects 2.12 Market 2.13 Market Players 3.0 IEEE 802.20-Mobile Broadband Wireless Access 3.1 General 3.3 IEEE 802.20 and IEEE 802.16e 3.4 IEEE 802.20 Technology Details - Current View 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 4.0 5.9 GHz DSRC 4.1 General 4.2 IEEE 802.11p 4.3 IEEE 1609 4.4 IEEE 1556 4.5 History 4.6 Equipment 4.7 Details: Dedicated Short Range Communications 4.8 Place 4.9 Applications 4.10 5.9 GHz DSRC Characteristics (U.S.) 4.11 DSRC at Work 4.12 Regulation 4.13 Comparison 4.14 DSRC Worldwide Standard Activity 4.15 5.9 GHz DSRC Benefits and Limitations 4.16 Examples 4.17 RFID and DSRC: Similarities and Differences 4.18 Market 4.19 Vendors 5.0 Conclusions Figures & Tables Companies Mentioned: - Adaptix - Aeroflex - Airspan Networks - Alcatel - Alvarion - Aperto Networks - Altera - Beceem Communications, Incorporated - Cambridge Consultants - Comsys - EoNex - Intel - M/A-Com - Motorola - Navini - NEC (NEC Corporation, Tokyo, www.nec.com, www.necus.com) An electronics conglomerate known in the U.S. for its monitors. In Japan, it had the lion's share of the PC market until the late 1990s (see PC 98). NEC was founded in Tokyo in 1899 as Nippon Electric Company, Ltd. - picoChip - Posdata - Samsung - STMicroelectronics - Sequans - TI - Wavesat Incorporated - Wi-LAN - Wintegra For more information visit http://www.researchandmarkets.com/reports/c50922 |
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