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公衆安全通信の発展:技術・マーケティング分析

Development of Public Safety Communications -Technological and Marketing Analysis

発行 Practel, Inc. 商品コード 486812
出版日 ページ情報 英文 220 Pages
納期: 即日から翌営業日
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公衆安全通信の発展:技術・マーケティング分析 Development of Public Safety Communications -Technological and Marketing Analysis
出版日: 2017年04月11日 ページ情報: 英文 220 Pages
概要

当レポートでは、公衆安全通信 (PSC) の発展および近年の標準化への取り組みについて分析しており、主要な2つの規格 - P25・TETRA - の詳細な技術・マーケティング分析、3GPP標準化、FirstNetの現況、およびLMRとLTE型PSCインフラの共存可能性などについて、考察しています。

第1章 イントロダクション

第2章 現在:「従来型」PSC技術

  • Project 25 (P25)
    • 標準化プロセス
    • Project 25/ITA 102:範囲
    • 状況
    • CAP
    • P25開発 - 第1段階
    • P25開発 - 第2段階
    • P25無線市場の分析
    • サマリー:第1段階・第2段階
    • P25産業
  • TETRA
    • 概要
    • TETRA:範囲 - リリースI
    • TETRA:リリースII
    • 市場分析
    • 産業

第3章 P25およびTETRA

  • 概要
  • TDMA:メリットと課題
  • 特徴
  • 修正点
  • 北米におけるTETRA

第4章 次世代PSC

  • 共通のメリット
  • 課題
  • 役立つ点

第5章 LTE詳細:PSC

  • 事実上の標準
  • ブロードバンドワイヤレス通信のステージ
  • LTEの主な特徴
  • 詳細
  • LTE Advanced
  • 自己組織化ネットワーク (SON)
  • 市場:LTE
  • 3GPPおよびPSC LTE
  • LTEメリットのサマリー
  • 産業
    • Alcatel-Lucent (Nokia) (PSC)
    • Aricent
    • AceAxis (PSC)
    • Cisco
    • CommAgility
    • Ericsson (PSC)
    • 富士通
    • General Dynamics (PSC)
    • Harris (PSC)
    • Huawei
    • Lime Microsystems
    • Motorola Solutions (PSC)
    • Qualcomm
    • Samsung (PSC)
    • Sequans
    • TI
    • u-blox
    • ZTE
  • サマリー

第6章 FirstNet: 特徴・構造

  • 概要
  • 始まり:計画
  • 相違:PSG通信
  • RFIおよびRFPプロセス
  • FirstNet: 詳細
  • FirstNetおよびLTEの現在の制限:3GPPリリース
  • 産業の備え
  • パイロットプロジェクト

第7章 TETRA - LTE

  • 可能性 -
  • ETSI TCCA
  • イングランド - ESMCP
  • その他の諸国

第8章 結論

付録I:3GPPリリース

付録II:参考資料

図表

目次

This report updates information on the development of Public Safety Communications (PSC) and on recent standardization efforts to support integration of commercial and private communications to provide cost efficient and feature-rich networking for first responders.

Two major groups of standards - P25 and TETRA - mainly define specifics of PSC worldwide. These LMR standards are being in the development for at least twenty-two years and they supported and continue to support voice and relatively low-speed data that first responders' communications required.

In the last several years, commercial cellular communications made a significant progress in enhancing performance and economic characteristics, such as the speed of transmission, reliability, ability to communicate with fast moving objects, the cost factor and other. 4G technologies (such as LTE and WiMAX) proved their attractiveness; and the industry, especially R&D, is looking for introduction 5G technologies in 3-4 years, though many elements of these technologies are already present.

The PSC community, which requires to enhance connectivity to support video and massive data files with high-speed reliable transmission as well as to improve other characteristics, such as network economics was investigating applicability of LTE for PSC; and this effort led to decision to adapt this commercial cellular technology that provides the economies of scales, for critical communications and to build PSC networks based on the LTE technology. One such a network - the FirstNet - is envisioned as the U.S. nationwide first responders system, the only in the country. The FirstNet development is in the evolving stage; and its implementation has begun. Other countries are also experimenting with LTE network structures built specifically for PSC (in this report, we addressed such developments in England and other countries).

The report provides detailed technical and marketing analysis of P25/TETRA LMR together with the survey of industries. Then, it is concentrating on the specifics of LTE as a commercial technology that has to be adapted to carry PSC tasks; LTE technological and marketing specifics as well as the industry as they relate to the report subject are analyzed.

The 3GPP standardization work in this area is detailed. The report shows that the industry is developing LTE-PSC equipment, though the completed PSC-LTE standards are expected to arrive from the 3GPP only in 2019-2020.

The report also provides a detailed analysis of the current status of the FirstNet - the nationwide U.S. LTE-based PSC network. The technical specifics of the network as well as the structure of its governing are analyzed. The U.S. is not alone in adapting LTE for PSC - England and other countries are also involved in the construction LTE-PSC networks.

The report concludes that LMR and LTE-based PSC infrastructures will co-exist in the foreseeable future (5-8 years), complementing each other to provide high-speed data communications with narrowband voice, making communications more reliable and cost-effective. Looking further in time, it seems that LTE-PSC will prevail (though, dynamics of telecommunications may present even better future solutions).

The report is written for a wide audience of technical and managerial staff involved in the design and implementation of PSC networks as well as for users such networks.

Table of Contents

1.0 Introduction

  • 1.1 Status - Mixed Picture
  • 1.2 Union
  • 1.3 Scope and Goals
  • 1.4 Research Methodology
  • 1.5 Target Audience

2.0 Today: "Traditional" PSC Technologies

  • 2.1 Project 25 (P25)
    • 2.1.1 Standardization Process
      • 2.1.1.1 General
      • 2.1.1.2 Process
    • 2.1.2 Project 25/TIA 102: Scope
      • 2.1.2.1 Efforts
      • 2.1.2.2 Phased Approach
        • 2.1.2.2.1 Phases
          • 2.1.2.2.1.1 Phase I
          • 2.1.2.2.1.2 Phase II
    • 2.1.3 Status
    • 2.1.4 CAP
    • 2.1.5 P25 Development-Phase I
      • 2.1.5.1 General Mission and Objectives
      • 2.1.5.2 Compliance
      • 2.1.5.3 Benefits and Issues
      • 2.1.5.4 Technical Highlights- Interfaces
        • 2.1.5.4.1 Common Air Interface
        • 2.1.5.4.2 Fixed Station Interface
        • 2.1.5.4.3 Console Sub-System Interface (CSSI)
        • 2.1.5.4.4 RF Sub-system
        • 2.1.5.4.5 Inter-system Interface (ISSI)
        • 2.1.5.4.5.1 ISSI Technology
        • 2.1.5.4.6 Telephone Interconnect Interface
        • 2.1.5.4.7 Network Management Interface
        • 2.1.5.4.8 Host and Network Data Interfaces
        • 2.1.5.4.9 Summary: Interfaces
        • 2.1.5.4.10 Frequency Spectrum
          • 2.1.5.4.10.1 700 MHz Band
      • 2.1.5.5 Security
      • 2.1.5.6 Coding
      • 2.1.5.7 Advances
      • 2.1.5.8 Services
      • 2.1.5.9 Network Scenario
      • 2.1.5.10 Summary
    • 2.1.6 Development: P25 Phase II
      • 2.1.6.1 Transition
      • 2.1.6.2 Scope
      • 2.1.6.3 Interfaces - Phase II
      • 2.1.6.4 Attributes
      • 2.1.6.5 Data Services Standards
      • 2.1.6.6 Enhancements - Details
      • 2.1.6.7 Time and Documentation
    • 2.1.7 P25 Radio Market Analysis
      • 2.1.7.1 General
      • 2.1.7.2 Geography
      • 2.1.7.3 Market Drivers
      • 2.1.7.4 Market Forecast
      • 2.1.7.4.1 Considerations
        • 2.1.7.4.1.1 P25 Way
        • 2.1.7.4.1.2 Commercial Involvement
      • 2.1.7.4.2 Model Assumptions
      • 2.1.7.4.3 Estimate
    • 2.1.8 Summary: Phase I and Phase II
    • 2.1.9 P25 Industry
      • Avtec
      • Airbus Defense and Space Communications (formerly Cassidian)
      • Codan (include P25/LTE solution)
      • Digital Voice System
      • Etherstack (include P25/LTE solution)
      • EF Johnson
      • Harris (LMR/LTE)
      • Icom America
      • Kenwood
      • Motorola Solutions (P25/LTE)
      • PowerTrunk (Sepura)
      • Relm Wireless
      • Simoco
      • Technisonic Industries
      • Tait Communications
      • Vertex Standard
      • Westel
  • 2.2 TETRA
    • 2.2.1 General
      • 2.2.1.1 TCCA
      • 2.2.1.2 Major Milestones
    • 2.2.2 TETRA: Scope-Release I
      • 2.2.2.1 General
      • 2.2.2.2 Spectrum Regulations
      • 2.2.2.3 TETRA and GSM
      • 2.2.2.4 Main Features
        • 2.2.2.4.1 Functionalities
        • 2.2.2.4.2 Technical Details
        • 2.2.2.4.3 Services
      • 2.2.2.5 Benefits
      • 2.2.2.6 Networking
      • 2.2.2.7 Release I Details
        • 2.2.2.7.1 General
        • 2.2.2.7.2 Interfaces
        • 2.2.2.7.3 Infrastructure
        • 2.2.2.7.4 Call Types
      • 2.2.2.8 Mobiles
      • 2.2.2.9 Security
      • 2.2.2.10 Summary
    • 2.2.3 TETRA Release II
      • 2.2.3.1 History
      • 2.2.3.2 Drivers
        • 2.2.3.2.1 Rational
      • 2.2.3.3 Two-track Approach
      • 2.2.3.4 Applications
      • 2.2.3.5 Trunked Mode Operation (TMO) Range Extension
      • 2.2.3.6 Mixed Excitation Liner Predictive, Enhanced (MELPe) Voice Codec
      • 2.2.3.7 Data Services Development
        • 2.2.3.7.1 TAPS
        • 2.2.3.7.2 TEDS
      • 2.2.3.9 Comparison
      • 2.2.3.10 Enhancements
    • 2.2.4 Market Analysis
      • 2.2.4.1 General
      • 2.2.4.2 Geography
      • 2.2.4.3 Market Drivers-Industries-Applications
      • 2.2.4.4 Model Assumptions
      • 2.2.4.5 Estimate
    • 2.2.5 Industry
      • Airbus DS (include TETRA/LTE)
      • DAMM Cellular
      • EtherStack
      • Hytera (include TETRA over LTE)
      • Motorola Solutions
      • Pegasus Network
      • Portalify (Sepura)
      • Rohill
      • Sepura (in a process of acquiring by Hytera)
      • Selex ES
      • Team Simoco
      • Thales

3.0 P25 and TETRA

  • 3.1 General
  • 3.2 TDMA: Advantages and Issues
  • 3.3 Characteristics
  • 3.4 Modifications
  • 3.5 TETRA in North America
    • 3.5.1 FCC Position
    • 3.5.2 Trials and Deployments.

4.0 Next Generation PSC

  • 4.1 Mutual Benefits
  • 4.2 Issues
  • 4.3 Help

5.0 LTE Details: PSC

  • 5.1 De-facto Standard
  • 5.2 Broadband Wireless Communications Stages
    • 5.2.1 LTE Standardization-Industry Collaboration
      • 5.2.1.1 Industry Initiative
      • 5.2.1.2 LTE Timetable
      • 5.2.1.3 Initial Releases
  • 5.3 Key Features of LTE
    • 5.3.1 Comparison
  • 5.4 Details
    • 5.4.1 Evolved UMTS Radio Access Network (EUTRAN) - eNB
    • 5.4.2 UE Categories
    • 5.4.3. Evolved Packet Core (EPC)
    • 5.4.4 LTE Layers
  • 5.5 LTE Advanced
  • 5.6 Self-organized Network (SON)
  • 5.7 Market: LTE
    • 5.7.1 General
    • 5.7.2 Market Drivers
    • 5.7.3 Demand: Wireless Broadband
    • 5.7.4 LTE Market Projections
  • 5.8 3GPP and PSC LTE
    • 5.8.1 Releases and PSC
      • 5.8.1.1 Voice
        • 5.8.1.1.1 Opinions
      • 5.8.1.2 Efforts: R11-R13-PSC
        • 5.8.1.2.1 Main Areas
          • 5.8.1.2.1.1 Proximity Services
          • 5.8.1.2.1.2 Group Communications Service
            • 5.8.1.2.1.2.1 MCPTT
          • 5.8.1.2.1.3 Process
            • 5.8.1.2.1.3.1 Release 14 and 15
    • 5.8.2 LTE PSC - Market
  • 5.9 Summary of LTE Benefits
  • 5.10 Industry
    • Alcatel-Lucent (Nokia) (PSC)
    • Aricent
    • AceAxis (PSC)
    • Cisco
    • CommAgility
    • Ericsson (PSC)
    • Fujitsu
    • General Dynamics (PSC)
    • Harris (PSC)
    • Huawei
    • Lime Microsystems
    • Motorola Solutions (PSC)
    • Qualcomm
    • Samsung (PSC)
    • Sequans
    • TI
    • u-blox
    • ZTE
  • 5.11 Summary

6.0 FirstNet: Features and Structure

  • 6.1 General
  • 6.2 Beginning - Plan
    • 6.2.1 Spectrum Auctions
      • 6.2.1.1 Band 14
    • 6.2.2 Governing
  • 6.3 Differences - PSG Communications
  • 6.4 RFIs and RFPs Process
    • 6.4.1 Selection
  • 6.5 FirstNet - Details
    • 6.5.1 General
    • 6.5.2 Standards Compliance
      • 6.5.2.1 Layers
        • 6.5.2.1.1 Core Network
        • 6.5.2.1.2 Transport Backhaul
        • 6.5.2.1.3 Radio Access Network (RAN)
        • 6.5.2.1.4 Public Safety Devices
  • 6.6 FirstNet and LTE Current Limitations: 3GPP Releases
    • 6.6.1 LTE - LMR
    • 6.6.2 FirstNet- Adopting Commercial Technology
    • 6.6.3 Challenges and Coexistence
  • 6.7 Industry Preparedness
    • Athena (acquired by Google in 2015)
    • CalAmp
    • Cradlepoint
    • Elektrobit
    • Elbit
    • General Dynamic
    • Harris
    • In Motion Technology -Sierra Wireless
    • Motorola Solutions
    • Nokia
    • Oceus
    • Star Solutions
  • 6.8 Pilot Projects

7.0 TETRA - LTE

  • 7.1 Possibility - Union
  • 7.2 ETSI - TCCA
  • 7.3 England - ESMCP
  • 7.4 Other Countries

8.0 Conclusions

Appendix I: 3GPP Releases

Appendix II: References

Table of Figures:

  • Figure 1: APCO Project 25 Interface Committee: Process
  • Figure 2: Generic-P25 System Structure
  • Figure 3: P25 System - Major Interfaces
  • Figure 4: ISSI-P25 System-to-System
  • Figure 5: ISSI-Roaming
  • Figure 6: 700 MHz Band Plan for Public Safety Services
  • Figure 7: Example-Network Scenario
  • Figure 8: Phase II Modulation
  • Figure 9: Interfaces Family
  • Figure 10: CAI Details
  • Figure 11: Capacity
  • Figure 12: Vocoders
  • Figure 13: Spectrum Utilization - FM - Phase II
  • Figure 14: Differences: Phase I and Phase II
  • Figure 15: P25 Geography
  • Figure 16: Estimate: P25 Equipment Global Sales ($B)
  • Figure 17: P25 Market Applications Segments
  • Figure 18: TETRA: Spectrum Allocation
  • Figure 19: TETRA Release I - Functionalities
  • Figure 20: TETRA Interworking Illustration
  • Figure 21: TETRA Interoperability Interfaces
  • Figure 22: Network Scenarios
  • Figure 23: TETRA Release I Interfaces
  • Figure 24: TETRA RII Data Services Developments
  • Figure 25: Two-track Approach
  • Figure 26: TAPS
  • Figure 27: TEDS RF Channel Characteristics
  • Figure 28: Spectral Efficiency
  • Figure 29: Rates and Range
  • Figure 30: Illustration - TETRA TEDS Characteristics
  • Figure 31: TETRA Market Geography (2016)
  • Figure 32: TETRA Segmentation by Industries (2016)
  • Figure 33: Estimate: TETRA Equipment Global Sales ($B)
  • Figure 34: PSC Applications Scenarios
  • Figure 35: Evolution Path
  • Figure 36: Towards Wireless Mobile Broadband
  • Figure 37: Details - Releases Time Schedule and LTE PSC
  • Figure 38: LTE - IP
  • Figure 39: Major LTE Advantages
  • Figure 40: LTE - Reference Architecture
  • Figure 41: LTE Layers
  • Figure 42: Estimate: Global Broadband Mobile Subscribers Base (Bil.)
  • Figure 43: Estimate: LTE-Subscribers' Base-Global (Bil)
  • Figure 44: LTE Equipment Global Sales ($B)
  • Figure 45: Estimate: LTE PSC Subscribers Base - Global (Mil.)
  • Figure 46: Estimate: Installed Base - PSC LTE eNodeB - Global (000)
  • Figure 47: Estimate: Global LTE PSC Market ($B)
  • Figure 48: FirstNet Frequency Plan Details
  • Figure 49: Illustration-FirstNet Connections
  • Figure 50: FirstNet Layers
  • Figure 51: Core Network
  • Figure 52: FirstNet Devices
  • Figure 53: LMR-LTE Capacities - Illustration

Tables:

  • Table 1: Approved P25 Standard (samples)
  • Table 2:P25 Phase I Advantages and Issues
  • Table 3: CAI Major Characteristics
  • Table 4: P25 Services
  • Table 5: Phase II Documents
  • Table 6: Components
  • Table 7: TETRA Established
  • Table 8: TETRA Release I-Major Characteristics
  • Table 9: TETRA Needs
  • Table 10: Applications (Release II)
  • Table 11: Evolution of TETRA Applications
  • Table 12: Terminal Cost
  • Table 13:3GPP Releases
  • Table 14: Initial LTE Characteristics
  • Table 15: Users Equipment Categories (Initial)
  • Table 16: UE Categories - Extended
  • Table 17: Release 12: PSC-related Items
  • Table 18: Band 14 - Frequencies and Characteristics
  • Table 20: FirstNet Broadband Applications - Examples
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