시장보고서
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세계의 공공안전 LTE 시장 : 솔루션, 용도, 디바이스, 서비스 제공업체 매출, 계약수별(2023-2028년)

Public Safety LTE Market by Solutions, Applications, Devices, Service Provider Revenues and Subscriptions 2023 - 2028

발행일: | 리서치사: Mind Commerce | 페이지 정보: 영문 127 Pages | 배송안내 : 1-2일 (영업일 기준)


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이 보고서는 세계 공공안전 LTE 및 5G 산업을 조사 분석하여 시장 규모를 예측하고, 기술 및 주요 동향을 평가하며, 생태계를 평가합니다. 또한, 공공안전 브로드밴드의 진화에서 기술의 영향과 5G의 역할에 대해서도 평가합니다.

목차

제1장 주요 요약

제2장 서론

  • 공공안전의 개요
  • 공공안전의 범위
  • 공공안전의 목적
  • 공공안전 통신

제3장 공공안전 LTE·5G 기술

  • 셀룰러의 Voice over IP
    • 무선 네트워크의 VoIP
    • Voice over LTE
    • Voice over 5G
  • LTE의 코어·RAN 기술
  • LTE·5G의 공공안전 지원
    • 신뢰성 높은 크리티컬 음성 통신
    • 비음성 통신
    • 공공안전의 5G

제4장 공공안전 LTE·5G의 솔루션·디바이스·용도

  • 공공안전 LTE의 용도 카테고리
  • 공공안전 LTE vs. 기타 퍼블릭·프라이빗 LTE 솔루션
  • 공공안전 LTE의 전개 옵션

제5장 공공안전 LTE·5G 시장 촉진요인

  • 전용 공공안전 LTE·5G 네트워크
  • 종합적인 크리티컬 통신의 필요성 증대
    • 많은 소스로부터의 데이터를 공공안전에 활용하는 LTE
    • 공공안전 LTE와 IoT 네트워크·시스템의 통합

제6장 공공안전 LTE·5G 예측(2023-2028년)

  • 세계의 공공안전 LTE·5G 시장(2023-2028년)
    • 세계의 공공안전 LTE·5G 시장(매출)(2023-2028년)
    • 세계의 공공안전 LTE·5G 시장(계약수)(2023-2028년)
  • 공공안전 LTE·5G 시장 : 지역별(2023-2028년)
    • 공공안전 LTE·5G 매출 : 지역별(2023-2028년)
    • 공공안전 LTE·5G 계약수 : 지역별(2023-2028년)
  • 공공안전 LTE·5G : 모바일 네트워크 인프라별(2023-2028년)
    • 공공안전 LTE·5G : RAN 인프라별(2023-2028년)
    • 공공안전 LTE·5G : 디바이스별(2023-2028년)
  • 공공안전 LTE·5G : 용도별(2023-2028년)
    • 공공안전 LTE·5G UHD 비디오·고해상도 영상(2023-2028년)
    • 공공안전 LTE·5G 커맨드 컨트롤(2023-2028년)

제7장 공공안전 LTE 예측(2023-2028년)

  • 공공안전 LTE 시장 : 지역별(2023-2028년)
  • 공공안전 LTE : 모바일 네트워크 인프라별(2023-2028년)
  • 공공안전 LTE : 용도별(2023-2028년)

제8장 공공안전 5G 예측(2023-2028년)

  • 공공안전 5G 시장 : 지역별(2023-2028년)
  • 공공안전 5G : 모바일 네트워크 인프라별(2023-2028년)
  • 공공안전 5G : 용도별(2023-2028년)

제9장 부록 : LTE·5G 기술 상세

ksm 23.07.07

Overview:

This report provides an analysis of the global public safety LTE and 5G industry including assessment of the technology, market size, and key trends within the public safety LTE and 5G industry. The report includes public safety LTE and 5G market sizing and analysis from 2023 through 2028. The report evaluates the ecosystem including the major players, strategies, and offerings. It also assesses technology impact and the role of 5G in the evolution of public safety broadband.

The market for public safety and other mission-critical communications is rapidly developing as technologies are evolving to provide solutions necessary to meet the emerging demand for improved voice, data, and machine-oriented communications. The public safety community increasingly relies upon IP-based solutions for first responders (ambulance, police, and fire) and dispatch communications as well as overall coordination in the event of a disaster.

Next-generation public safety communications infrastructure is required to handle a variety of communications traffic in real-time and with the highest QoS possible. As the exact occurrence of emergencies cannot be predicted, these QoS requirements are on-demand and cannot be scheduled like many other mission-critical services. This translates into guaranteed service levels on a 24/7 basis rather than the best-effort services of traditional IP based services in non-mission critical public networks.

LTE and 5G offer the most advantageous solutions for secure wireless broadband networks, which need to support the unique devices, communications, and content delivery requirements of public safety organizations.

Nonetheless, commercial wireless broadband equipment and networks were not originally developed with first responder applications in mind. To optimally address the next-generation communications needs of the public safety community, vendors are developing dedicated, secure LTE and 5G networks with equipment optimized for emergency services applications.

While seemingly a misnomer, public safety networks are actually private wireless networks in the sense that they are dedicated for use by first responder communications and sharing information between PSAPs and other emergency services personnel and resources. In other words, public safety networks provide a public service, but are secured and dedicated for purposes of ensuring the accuracy, timeliness, and reliability of emergency response and coordination.

Accordingly, dedicated resources are allocated at both the hardware, software level leveraging virtualization, SDN, and other supporting technologies. 5G will have a key role in this regard through advanced capabilities such as network slicing.

Supporting technologies such as edge computing will have an important role in supporting ultra-reliable low latency communications (URLLC) for both voice and URLLC enabled applications such as augmented reality and public safety video and content sharing.

Table of Contents

1. Executive Summary

2. Introduction

  • 2.1. Public Safety in Perspective
  • 2.2. Scope of Public Safety
    • 2.2.1. Mission Critical Communications
    • 2.2.2. Real-Time Access to Information
    • 2.2.3. Anytime, Anywhere Connectivity
    • 2.2.4. Increased Situational Awareness
  • 2.3. Public Safety Objectives
    • 2.3.1. Prevention
    • 2.3.2. Detection
    • 2.3.3. Mitigation
  • 2.4. Public Safety Communications
    • 2.4.1. Emergency Medical Services
    • 2.4.2. Fire/Rescue
    • 2.4.3. Law Enforcement
    • 2.4.4. Responder Coordination

3. Public Safety LTE and 5G Technology

  • 3.1. Voice over IP in Cellular
    • 3.1.1. VoIP in Wireless Networks
    • 3.1.2. Voice over LTE
    • 3.1.3. Voice over 5G
  • 3.2. LTE Core and RAN Technology
  • 3.3. LTE and 5G Public Safety Support
    • 3.3.1. Reliable Critical Voice Communications
    • 3.3.2. Non-voice Communications
    • 3.3.3. 5G in Public Safety

4. Public Safety LTE and 5G Solutions, Devices, and Applications

  • 4.1. Public Safety LTE Application Categories
  • 4.2. Public Safety LTE vs. Other Public and Private LTE Solutions
  • 4.3. Public Safety LTE Deployment Options

5. Public Safety LTE and 5G Market Drivers

  • 5.1. Dedicated Public Safety LTE and 5G Networks
  • 5.2. Increasing Need for All-encompassing Critical Communications
    • 5.2.1. Leveraging Data from Many Sources for Public Safety LTE
    • 5.2.2. Integrating Public Safety LTE with IoT Networks and Systems

6. Public Safety LTE and 5G Forecasts 2023-2028

  • 6.1. Global Public Safety LTE and 5G Market 2023-2028
    • 6.1.1. Global Public Safety LTE and 5G Market by Revenue 2023-2028
    • 6.1.2. Global Public Safety LTE and 5G Market by Subscriptions 2023-2028
  • 6.2. Public Safety LTE and 5G Market by Region 2023-2028
    • 6.2.1. Public Safety LTE and 5G Revenue by Region 2023-2028
    • 6.2.2. Public Safety LTE and 5G Subscriptions by Region 2023-2028
  • 6.3. Public Safety LTE and 5G by Mobile Network Infrastructure 2023-2028
    • 6.3.1. Public Safety LTE and 5G by RAN Infrastructure 2023-2028
    • 6.3.2. Public Safety LTE and 5G by Devices 2023-2028
  • 6.4. Public Safety LTE and 5G by Applications 2023-2028
    • 6.4.1. Public Safety LTE and 5G UHD Video & High-Resolution Imagery 2023-2028
    • 6.4.2. Public Safety LTE and 5G Command & Control 2023-2028

7. Public Safety LTE Forecast 2023-2028

  • 7.1. Public Safety LTE Market by Region 2023-2028
    • 7.1.1. Public Safety LTE Revenue by Region 2023-2028
    • 7.1.2. Public Safety LTE Subscriptions by Region 2023-2028
  • 7.2. Public Safety LTE by Mobile Network Infrastructure 2023-2028
    • 7.2.1. Public Safety LTE by RAN Infrastructure 2023-2028
    • 7.2.2. Public Safety LTE by Devices 2023-2028
      • 7.2.2.1. Public Safety LTE by Handheld Devices 2023-2028
      • 7.2.2.2. Public Safety LTE by Customer Premises Equipment 2023-2028
      • 7.2.2.3. Public Safety LTE by Wearable Devices 2023-2028
      • 7.2.2.4. Public Safety LTE by Large Screen Portable Devices 2023-2028
      • 7.2.2.5. Public Safety LTE by Vehicle Mounted Router and Terminals 2023-2028
      • 7.2.2.6. Public Safety LTE by Embedded IoT Modules 2023-2028
      • 7.2.2.7. Public Safety LTE by Unmanned Vehicles, Drones and Robotics 2023-2028
  • 7.3. Public Safety LTE by Applications 2023-2028
    • 7.3.1. Public Safety LTE UHD Video & High-Resolution Imagery 2023-2028
    • 7.3.2. Public Safety LTE Secure & Seamless Mobile Broadband Access 2023-2028
    • 7.3.3. Public Safety LTE Command & Control 2023-2028

8. Public Safety 5G Forecast from 2023-2028

  • 8.1. Public Safety 5G Market by Region 2023-2028
    • 8.1.1. Public Safety 5G Revenue by Region 2023-2028
    • 8.1.2. Public Safety 5G Subscriptions by Region 2023-2028
  • 8.2. Public Safety 5G by Mobile Network Infrastructure 2023-2028
    • 8.2.1. Public Safety 5G by RAN Infrastructure 2023-2028
    • 8.2.2. Public Safety 5G by Devices 2023-2028
      • 8.2.2.1. Public Safety 5G by Handheld Devices 2023-2028
      • 8.2.2.2. Public Safety 5G by Customer Premises Equipment 2023-2028
      • 8.2.2.3. Public Safety 5G by Wearable Devices 2023-2028
      • 8.2.2.4. Public Safety 5G by Large Screen Portable Devices 2023-2028
      • 8.2.2.5. Public Safety 5G by Vehicle Mounted Router and Terminals 2023-2028
      • 8.2.2.6. Public Safety 5G by Embedded IoT Modules 2023-2028
      • 8.2.2.7. Public Safety 5G by Unmanned Vehicles, Drones and Robotics 2023-2028
  • 8.3. Public Safety 5G by Applications 2023-2028
    • 8.3.1. Public Safety 5G UHD Video & High-Resolution Imagery 2023-2028
    • 8.3.2. Public Safety 5G Secure & Seamless Mobile Broadband Access 2023-2028
    • 8.3.3. Public Safety 5G Command & Control 2023-2028

9. Appendix: LTE and 5G Technology Details

  • 9.1. Evolution of Mobile Cellular Communications
  • 9.2. LTE Technology
    • 9.2.1. LTE Radio Network Technology
    • 9.2.2. LTE Network Core Technology
    • 9.2.3. LTE Evolution
      • 9.2.3.1. LTE Advanced
      • 9.2.3.2. Peer-to-Peer Communications: LTE Direct
      • 9.2.3.3. LTE Advanced Pro
  • 9.3. 5G Technology
    • 9.3.1. LTE vs. 5G OSI Layers
      • 9.3.1.1. 5G Network Layer
      • 9.3.1.2. 5G Application Layer
    • 9.3.1. 5G Radio Network Technology
  • 9.4. LTE vs. 5G Application Support
    • 9.4.1. Massive IoT Networks and Services
    • 9.4.1. Next Generation Public Safety Applications
    • 9.4.2. 5G in Private Wireless Networks
      • 9.4.2.1. Public Safety Private 5G Networks
      • 9.4.2.2. Private 5GNR Access Networks
  • 9.5. 5G Devices
    • 9.5.1. Smartphones
    • 9.5.2. Wearables
    • 9.5.3. Modems
    • 9.5.4. IoT/M2M Modules
  • 9.6. 5G Cybersecurity Issues
  • 9.7. Edge Computing in 5G Networks
  • 9.8. 5G Network Slicing
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