市場調査レポート

高度交通システム(ITS): ワイヤレスICT市場およびアプリケーション

Intelligent Transportation Systems: Wireless ICT Markets and Applications

発行 Practel, Inc. 商品コード 304351
出版日 ページ情報 英文 202 Pages
納期: 即日から翌営業日
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高度交通システム(ITS): ワイヤレスICT市場およびアプリケーション Intelligent Transportation Systems: Wireless ICT Markets and Applications
出版日: 2014年05月27日 ページ情報: 英文 202 Pages
概要

当レポートはワイヤレスICTに基づく高度交通システム(ITS)について採り上げ、4G世代のICTを先導するワイヤレスICT展開の最新動向ならびに将来動向を分析しています。特に当レポートでは、米国や他の諸国におけるITS開発状況、ITSを支える標準規格、またITSアーキテクチャの詳細構成について詳しく分析し、さらにITS市場とそこで使われるアプリケーションについて精査しています。また当レポートでは、5.9GHz DSRC、LTE、またWSNについてのWICT (情報通信技術ワークショップ)からITS開発に対してなされた寄与が極めて重要であることを示しています。

第1章 序論

第2章 ITS: その発展と標準規格策定

  • 概要
  • 米国におけるITSの歴史
  • 米国ITSのアーキテクチャ
  • 日本のITS
  • 韓国のITS
  • シンガポールのITS
  • 標準化
  • ITSのアプリケーション
  • 市場の特性
  • 企業例

第3章 5.9 GHz DSRC

  • 概要
  • IEEE 802.11p - 基礎
  • IEEE 1609
  • 5.9 GHz帯 DSRCの展開
  • 通信手順
  • サービス分類/QoS
  • 法的規制
  • 他方式との比較

第4章 市場分野および産業界 - 5.9 GHz DSRC

  • 市場成長促進要因
  • 市場の必要条件
  • データ
  • 市場見積
  • 産業界
    • 業界連合組織
    • 主要企業

第5章 LTEとITS

  • 移行状況
  • 必要条件
  • 代表的機能
  • 選択
  • LTE展開
  • LTEのタイムテーブル
  • ブロードバンド無線通信 - 変遷
  • LTEの標準規格化 - 業界協業
  • LTEの主要機能
  • 詳細分析
  • 市場
    • 需要: 無線ブロードバンド
    • LTE市場見通し
  • 主要企業
  • ITSに対する寄与

第6章 ワイヤレス・スマートセンサ - WSNとITS

  • インテリジェンス
  • 構造および構成
  • 動向
  • 必要条件
  • ネットワーキング
  • WSN市場の特性
  • 分類
  • WSNのアプリケーション
  • WSN機器ベンダー

第7章 結論

付録 I: ISOのITS技術標準

付録 II: ITSに関連した国別標準および国際標準

目次

The report is written for a wide audience of technical and managerial staff who are working on wireless ICT-related Intelligent Transportation Systems (ITSs) projects. The report addresses modern advanced trends in the wireless ICT developing that are leading ITS into the 4G era.

In particular, this report:

  • Analyzing ITS development in the U.S. and other countries
  • Researches standards that support ITS
  • Details ITS architectural structures
  • Addresses ITS markets and applications.

The report stresses the importance of contributions of the following WICT into the ITS development:

  • 5.9 GHz DSRC. Detailed analysis of technological and marketing trends is presented as well as comparison with other DSRC types. The survey of major vendors' portfolios is included.
  • LTE. It is shown that all major automakers are either experimenting or already incorporated in their V2V and V2I communications this rapidly evolving WICT. The analysis of LTE technologies, their standardizations, market and contributions in ITS are addressed.
  • WSN. Features, structures, technological and marketing trends in connection with WSNs applicability to the ITS development are presented. The survey of major vendors' portfolios is included.

Altogether, the report analyzes latest and near-future trends in wireless ICT development as they relate to ITS.

Table of Contents

1.0 Introduction

  • 1.1 Goal
  • 1.2 Scope
  • 1.3 Research Methodology
  • 1.4 Target Audience

2.0 ITS: Developments and Standardization

  • 2.1 General
    • 2.1.1 Structure
    • 2.1.2 Roadways: Layers and Components
    • 2.1.3 Subsystems
  • 2.2 ITS History: U.S.
  • 2.3 ITS Architecture: U.S.
    • 2.3.1 Functionalities
    • 2.3.2 Architectural Layers
    • 2.3.3 Networks
    • 2.3.4 Version 7.0
    • 2.3.5 Architecture and Standards
    • 2.3.6 Further Steps
  • 2.4 ITS in Japan
  • 2.5 ITS in South Korea
  • 2.6 Singapore ITS
  • 2.7 Standardization
    • 2.7.1 General
    • 2.7.2 GeoNetworking Protocol
      • 2.7.2.1 ETSI
    • 2.7.3 National Transportation Communications for ITS Protocol (NTCIP)
      • 2.7.3.1 Scope
      • 2.7.3.2 Family
    • 2.7.4 ISO
    • 2.7.5 Summary
  • 2.8 ITS Applications
  • 2.9 Market Characteristics
    • 2.9.1 Assumptions
    • 2.9.2 Estimate
  • 2.10 Vendors Samples
    • Huawei
    • QuickPay (LocoMobi, Inc.)

3.0 5.9 GHz DSRC

  • 3.1 General
    • 3.1.1 History
    • 3.1.2 Structure and Protocols
    • 3.1.3 Milestones
  • 3.2 IEEE 802.11p - Basis
    • 3.2.1 General
    • 3.2.2 Objectives and Status
    • 3.2.3 ASTM Contributions
    • 3.2.4 IEEE 802.11p - Major Features
    • 3.2.5 ETSI ITS-G5 - Major Features
    • 3.2.6 WAVE and GeoNetworking Protocol
    • 3.2.7 ISO and DSRC
  • 3.3 IEEE 1609
    • 3.3.1 General
    • 3.3.2 Overview
    • 3.3.3 IEEE 1609 in Use
  • 3.4 5.9 GHz DSRC Development
    • 3.4.1 General
    • 3.4.2 Components
    • 3.4.2.1 Efforts
    • 3.4.3 Place
    • 3.4.4 Major Applications
    • 3.4.5 Spectrum - DSRC
    • 3.4.6 Channel Designation
    • 3.4.7 Services
    • 3.4.8 Applications
    • 3.4.9 EPS
    • 3.4.10 Summary: DSRC (5.9 GHz) Transmission Characteristics
    • 3.4.11 Benefits and Limitations - 5.9 GHz DSRC
      • 3.4.11.1 General
      • 3.4.11.2 Toll Industry Benefits
      • 3.4.11.3 Limitations
  • 3.5 Procedures
  • 3.6 Service Categories/QoS
    • 3.6.1 Service Requirements
  • 3.7 Regulations
    • 3.7.1 Licensing
  • 3.8 Comparison
    • 3.8.1 915 MHz DSRC and 5.9 GHz DSRC
    • 3.8.2 CEN278 (5.8 GHz) DSRC and 5.9 GHz DSRC

4.0 Market Segment and Industry - 5.9 GHz DSRC

  • 4.1 Market Drivers
  • 4.2 Market Requirements
  • 4.3 Data
  • 4.4 Market Estimate
  • 4.5 Industry
    • 4.5.1 Industry Coalition
    • 4.5.2 Vendors
      • Arada
      • Arinc
      • Cohda Wireless
      • DGE
      • Kapsch
      • Oki
      • Raytheon
      • Savari
      • Sirit
      • TransCore
      • TechnoCom

5.0 LTE and ITS

  • 5.1 Transition
  • 5.2 Requirements
  • 5.3 Typical Features
  • 5.4 Choice
  • 5.5 LTE Development
  • 5.6 LTE Timetable
  • 5.7 Broadband Wireless Communications-Phases
  • 5.8 LTE Standardization-Industry Collaboration
    • 5.8.1 Industry Initiative
  • 5.9 Key Features of LTE
  • 5.10 Details
    • 5.10.1 LTE Advanced
  • 5.11 Market
    • 5.11.1 Demand: Wireless Broadband
    • 5.11.2 LTE Market Projections
  • 5.12 Vendors
    • 4M Wireless (acquired by ublox in 2012)
    • Agilent
    • Altair Semiconductor
    • Alcatel-Lucent-NEC
    • Altera
    • Aricent
    • Axis
    • Commagility
    • Ericsson
    • Fujitsu
    • Infineon
    • Huawei
    • Lime Microsystems
    • mimoON
    • Motorola Solutions
    • NEC
    • Nokia Siemens Networks
    • NXP
    • picoChip (acquired by MindSpeed in 2012)
    • Qualcomm
    • Samsung
    • Sequans
    • Signalion (acquired by NI in 2012)
    • TI
    • ZTE
  • 5.13 Contributions to ITS
    • 5.13.1 LTE - ITS-support Features
    • 5.13.2 Symbiosis - ITSC
    • 5.13.3 Right Direction
    • 5.13.4 In Car and Out
      • 5.13.4.1 Advances
        • 5.13.4.1.1 Audi
        • 5.13.4.1.2 GM
        • 5.13.4.1.3 Ford
    • 5.13.5 Products
    • 5.13.6 5.9 GHz DSRC and LTE

6.0 Wireless Smart Sensors -WSN and ITS

  • 6.1 Intelligence
  • 6.2 Structure and Components
  • 6.3 Trends
  • 6.4 Requirements
  • 6.5 Networking
  • 6.6 Market Specifics - WSN
    • 6.6.1 General
    • 6.6.2 Market Estimate
    • 6.6.3 Trends
  • 6.7 Classification
  • 6.8 Applications - WSN
    • 6.8.1 ITS and WSN
    • 6.8.1.1Traffic Control
  • 6.9 WSN Equipment Vendors
    • BAE Systems
    • BBN (RAYTHEON-BBN)
    • Dust Networks (Linear Technology)
    • Elta (SS)
    • Exensor (SS)
    • Intel (Chipsets)
    • Freescale (sensors)
    • Harris (SS)
    • IWT (Mesh)
    • L3 (SS)
    • McQ (SS)
    • MeshDynamics (Mesh)
    • Memsic175
    • Millennial Net (Mesh-SS)
    • NorthropGrumman (SS)
    • National Instruments
    • Qual-Tron (SS)
    • Rheinmetall (SS)
    • Selex Galileo (SS)
    • Spinwave (SS)
    • Strix (Mesh)
    • Telonics
    • TextRon (SS)
    • Thales (SS)
    • Trident (SS-UWB)
    • Zeltech

7.0 Conclusions

APPENDIX I: ISO ITS Standards

APPENDIX II: ITS-related National and International Standards

  • Figure 1: Wireless Communications: ITS Environment
  • Figure 2: U.S.: ITS Architecture
  • Figure 3: NTCIP Structure
  • Figure 4: TAM: Global ITS ($B)
  • Figure 5: Communications Model: WAVE
  • Figure 6: Industry Cooperation
  • Figure 7: ITS-5.9 GHz DSRC
  • Figure 8: DSRC Worldwide
  • Figure 9: DSRC: Spectrum Allocation Details
  • Figure 10: Channel Assignment - 5.9 GHz DSRC
  • Figure 11: Major Categories-DSRC Services
  • Figure 12: Collision Detection/Avoidance System
  • Figure 13: Work Zone Warning
  • Figure 14: "Smart" Car
  • Figure 15: 5.9 GHz DSRC Rate vs. Distance
  • Figure 16: Logical Flow
  • Figure 17: 5.9 GHz DSRC Frequencies Planning
  • Figure 18: TAM U.S.: 5.9 GHz DSRC Tag Value ($B)
  • Figure 19: TAM U.S.: 5.9 GHz DSRC Tags Value (Unit Mil.)
  • Figure 20: TAM U.S.: 5.9 GHz DSRC Readers & Associated Equipment Value (Unit Mil.)
  • Figure 21: TAM U.S.: 5.9 GHz DSRC Readers & Associated Equipment Value ($M)
  • Figure 22: Evolution Path
  • Figure 23: Towards Wireless Mobile Broadband
  • Figure 24: LTE -IP
  • Figure 25: LTE Network
  • Figure 26: Projection: Global Broadband Mobile Subscribers Base (Bil)
  • Figure 27: LTE Market-Subscribers' Base (Mil.)
  • Figure 28: TAM: LTE Global Equipment Sale ($B)
  • Figure 29: Service Operation Center
  • Figure 30: TIM/NCAP and IEEE 1451
  • Figure 31: WSN Node
  • Figure 32: TAM: Commercial Segment WSN Equipment Sale ($B)
  • Figure 33: TAM: Commercial Segment WSS Equipment Sale (Bil. Units)
  • Figure 34: SS Market Geographical Segmentation
  • Figure 35: SS Network Sizing
  • Figure 36: Two Groups
  • Figure 37: SS-Functions
  • Figure 38: SS Technologies
  • Figure 39: WSN Applications
  • Table 1: ETSI G5 Channels
  • Table 2: 5.9 GHz DSRC Characteristics
  • Table 3: 5.9 GHz DSRC Advantages
  • Table 4: Events Priorities
  • Table 5: Requirements
  • Table 6: Service-related Characteristics
  • Table 7: 915 MHz and 5.9 GHz DSRC Differences
  • Table 8: 3G and 4G Features
  • Table 9: 3GPP Releases
  • Table 10: Major LTE Characteristics
  • Table 11: LTE Frequency Bands
  • Table 12: Release 8 Users Equipment Categories
  • Table 13: SS Node-Price Components
  • Table 14: ITS-WSN Applications
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