表紙
市場調查報告書
商品編碼
991781

關鍵任務通訊市場(語音/數據/ M2M)-用於公共安全/企業/工業/政府部門:2021-2028

Mission Critical Communications Market for Voice, Data, and M2M in Public Safety, Enterprise, Industrial and Government Sectors 2021 - 2028

出版日期: | 出版商: Mind Commerce | 英文 302 Pages | 商品交期: 最快1-2個工作天內

價格
  • 全貌
  • 簡介
  • 目錄
簡介

到2028年,全球關鍵任務電信市場將達到326億美元,預計到2028年將以9.8%的複合年增長率增長。到2028年,全球以人工智能為動力的物聯網關鍵通信市場將達到206億美元,到2028年將以17.8%的複合年增長率增長,到2028年將達到206億美元。

本報告評估了公共安全的核心技術和解決方案,企業,工業和政府部門的關鍵任務通信的新興領域,並分析了支持關鍵任務通信的技術,例如5G,AI和IoT。提供按行業劃分的有關2021年至2028年的預測以及關鍵任務通信,應用和解決方案的市場機會和前景的系統信息。

目錄

第1章執行摘要

第2章簡介

第3章公共安全技術和解決方案

  • 視角下的公共安全
  • 對公共安全的期望
  • 公共安全的目的
  • 公共安全基礎設施
  • 應急響應與管理
  • 支持公共安全的最新技術

第4章5G技術和解決方案

  • 5G設備和網絡運營
  • 5G技術和網絡的影響
  • 5G技術和網絡架構
  • 5G網絡實施
  • LTE Advanced,LTE Pro,受支持的解決方案

第5章AI技術和生態系統分析

  • AI技術矩陣
  • 人工智能技術的準備
  • 機器學習API
  • 人工智能技術目標
  • 人工智能工具和方法
  • 情緒檢測中的AI
  • 物聯網應用程序和大數據分析
  • 數據科學和預測分析
  • 邊緣計算和5G網絡
  • 雲計算和機器學習
  • 智能機和虛擬孿生
  • 工廠自動化與工業4.0
  • 大樓自動化和智能工作場所
  • 雲端機器人與公共安全
  • 自治網絡和特定於域的網絡
  • 預測性3D設計

第6章IoT技術和價值鏈分析

  • 物聯網半導體構建基塊
  • 物聯網芯片組
  • 網絡技術和協議
  • 實時操作系統(RTOS)
  • 物聯網軟件和平台
  • 物聯網行業應用
  • 價值鏈分析
  • 物聯網投資與市場聯盟
  • MNO的作用
  • 物聯網和下一代公共安全

第7章對公共安全和企業的關鍵溝通

  • 部署狀態
  • 3GPP定義的關鍵通信
  • 物聯網改善公共安全
  • URLLC
  • 5G和Wi-Fi 6的比較

第8章關鍵通信市場的分析和預測

  • 全球關鍵電信市場
  • 按地區劃分的關鍵電信市場

第9章關鍵業務公司分析

  • AGT International
  • Atos SE
  • Cisco Systems
  • Dataminr
  • Enforsys
  • ESRI
  • General Dynamics Corporation
  • L3Harris Technologies
  • Hexagon
  • Hitachi Vantara
  • Honeywell International
  • Huawei Technologies
  • IBM
  • Ericsson
  • Motorola Solutions
  • NEC Corporation
  • Nice Systems
  • Nokia Corporation
  • Northrop Grumman Corporation
  • RapidSOS
  • SAP SE
  • SAS
  • Sonim Technologies
  • Tyler Technologies
  • FirstNet
  • Verizon
  • AT&T
  • Red Box Recorders Ltd.
  • iNet Public Safety
  • Codan Communications
  • Intellitech Corporation
  • Parallel Wireless
  • Twilio
  • Intersec
  • Bandwidth
  • Intrado
  • Comtech

第10章關鍵任務公司案例研究

  • AT&T
  • Motorola Solutions
  • Nokia
  • L3Harris
  • Ericsson
  • ZTE
  • Huawei Technologies
  • Hytera
  • Ascom
  • Cobham Wireless

第11章關鍵溝通案例研究

  • 公共安全應用服務的現代化
  • 5G聯網救護車
  • 智能,多服務,超寬帶網絡體系結構
  • 通過連接的無人機為海嘯做準備
  • 應急通訊平台

第12章結論/建議

第13章附錄

目錄

Overview:

The mission critical communications market is rapidly evolving as developing technologies provide solutions necessary to meet emerging demands for improved voice, data, and machine-oriented communications. Industry verticals that manage critical infrastructure (such as utilities, ports, and transportation) and services also require enhanced communications to safeguard assets and optimize operations.

This report assesses core public safety technology and solutions as well as emerging areas for mission critical communications including ultra-reliable low-latency communications for enterprise, industrial and government sectors. The report also provides analysis of supporting technologies for mission critical communications including 5G, AI, and IoT. The report also identifies market opportunities and outlook for mission critical communications, applications and solutions by industry vertical with forecasts for 2021 to 2028.

Select Report Findings:

  • The global mission critical communication market will reach $32.6 billion by 2028, growing with 9.8% CAGR through 2028
  • Military, public transportation, and smart grids are the largest industry verticals in the non-public safety critical communication market segment
  • The global AI powered IoT critical communication market in public safety will approach $20.6 billion by 2028, growing 17.8% CAGR during 2021 to 2028
  • Asia Pacific is the largest region with a 43.8% of the total mission critical communications market and the greatest opportunity for certain technologies
  • IoT in critical infrastructure is the largest segment with 52% of the total market with growth driven by the need for inter-system communications and AI integration
  • Other than cybersecurity for support of critical infrastructure, there is nothing more important to government and sovereign nation safety and security than critical communications

In conjunction with land mobile radio (LMR) modernization, and industry digitization for the public safety sector transition from LMR to 4G and beyond, LTE Advanced and 5G networks establish and support mission critical voice and data communications as well as facilitate opportunities for new mission critical applications.

While mission critical communications technology is often referred to synonymously with the public safety sector, the need for ultra-reliability, low-latency, and/or high bandwidth capabilities are also necessary for enterprise, industrial, and government sectors. Like public safety, solutions in the commercial arena are typically realized via dedicated networks for specific industries including the public safety sector, transportation (air, rail, road, and water), utilities, mining, manufacturing, and the oil & gas industry.

Looking beyond LTE, 5G provides essential support for mission critical communications in many ways including improved support for quality of service through various mechanisms including 5G network slicing as well as other technologies optimized for what is known as Ultra-Reliable Low-Latency Communications (URLLC). Thanks to URLLC capabilities, 5G will be a viable alternative to WiFi for indoor mission critical communications.

5G network slicing and URLLC capabilities will work in conjunction with edge computing in support of latency-sensitive apps and services for various enterprise, industrial and government use cases. The combination of 5G and edge computing is expected to reduce network latency significantly, which will enable many previously tethered-only applications to achieve greater operational flexibility, such as nomadic implementation/operation or even mobility.

We see a few key technologies playing a key role in support of LTE and 5G, including Artificial Intelligence, big data analytics, and Internet of Things (IoT) solutions. The convergence of AI with IoT, known as the Artificial Intelligence of Things (or AIoT) is another important area as AI adds value to IoT through machine learning and decision making and IoT adds value to AI through connectivity and data exchange. The AIoT market constitutes solutions, applications, and services involving AI in IoT systems and IoT support of AI solutions.

The market for mission critical communications is rapidly moving beyond voice to encompass data, and machine-oriented communications. For example, the public safety community increasingly relies upon IP-based solutions for first responders (ambulance, police, fire) and dispatch communications as well as overall coordination in the event of a disaster.

Private IoT networks will also connect mission critical commercial operations, such as connecting infrastructure with monitoring and control, supported by AI and advanced data analytics. This will involve intelligent and connected systems that rely upon newly allocated 5G spectrum sharing management solutions for communications. Each of these technologies are evaluated in the report.

Target Audience:

  • AI and IoT vendors
  • System integrators
  • Public safety companies
  • Device and network providers
  • Government and policy makers
  • Infrastructure and essential services

Report Benefits:

  • Mission critical communications forecasts from 2021 to 2028
  • Understand core technologies for mission critical communications
  • Identify companies, strategies, and solutions for mission critical communications
  • Recognize the role and importance of key supporting technologies including AI, M2M and IoT data integration, and big data analytics
  • Understand the evolution of public safety LTE technology and how 5G will improve first responder and dispatch communications effectiveness
  • Identify the market opportunity for mission critical communications in enterprise, industrial and government sectors including public safety, military and homeland security
  • Understand the role and importance of 5G including massive IoT, substantial bandwidth improvements, enhanced SLS support via network slicing, and ultra-reliable low-latency communications

Companies in Report:

  • AGT International
  • Amazon
  • AT&T
  • Atos SE
  • Bandwidth
  • Cisco Systems
  • Cobham
  • Codan Communications
  • Comtech
  • Dataminr
  • Enforsys
  • Ericsson
  • ESRI
  • FirstNet
  • General Dynamics Corporation
  • Google
  • Hexagon
  • Hitachi Vantara
  • Honeywell International
  • Huawei Technologies
  • Hytera
  • IBM
  • iNet Public Safety
  • Intellitech Corporation
  • Intersec
  • Intrado
  • L3Harris
  • Microsoft
  • Motorola Solutions
  • NEC Corporation
  • Nice Systems
  • Nokia
  • Nokia Corporation
  • Northrop Grumman Corporation
  • Parallel Wireless
  • RapidSOS
  • Red Box Recorders Ltd.
  • SAP SE
  • SAS
  • Sonim Technologies
  • Twilio
  • Tyler Technologies
  • Verizon
  • ZTE

Table of Contents

1. Executive Summary

2. Introduction

3. Public Safety Technologies and Solutions

  • 3.1 Public Safety in Perspective
  • 3.2 Public Safety Expectations
    • 3.2.1 Real Time Access to Information
    • 3.2.2 Anytime, Anywhere Connectivity
    • 3.2.3 Increased Situational Awareness
  • 3.3 Public Safety Objectives
    • 3.3.1 Prevention
    • 3.3.2 Detection
    • 3.3.3 Mitigation
    • 3.3.4 Investigation
  • 3.4 Public Safety Infrastructure
    • 3.4.1 Critical Control Systems
    • 3.4.2 Critical Communication Networks
    • 3.4.3 Surveillance and Identification
    • 3.4.4 Emergency Disaster Management
  • 3.5 Emergency Response and Control
    • 3.5.1 Emergency Medical Services
    • 3.5.2 Fire/Rescue
    • 3.5.3 Law Enforcement
    • 3.5.4 Responder Coordination
  • 3.6 Current Technologies Supporting Public Safety
    • 3.6.1 Public Safety Answer Points
    • 3.6.2 Geographic Information Systems
    • 3.6.3 Enhanced Wireless 9-1-1
    • 3.6.4 Indoor Location Systems
    • 3.6.5 LMR for Public Safety Communications
    • 3.6.6 LTE for Public Safety Communications
    • 3.6.7 Lawful Intercept/CALEA

4. 5G Technology and Solutions

  • 4.1 5G Equipment and Network Operation
    • 4.1.1 LTE Foundation, Device Ecosystem, LAA, and 5G Readiness
    • 4.1.2 Spectrum Sharing and Utilization
    • 4.1.3 Narrowband 5G for Massive IoT
    • 4.1.4 Multi Connectivity Architecture with Small Cell Deployment
    • 4.1.5 Relevance of Mobile IoT Technology: NB-IoT and eMTC
    • 4.1.6 OSS/BSS Architecture for 5G Service Operation
    • 4.1.7 Multi-Antenna and Beamforming Impact
    • 4.1.8 5G Network Slicing
    • 4.1.9 Continuation of LTE in Post-5G Era
    • 4.1.10 Service Design, ROI and 5G Network
  • 4.2 5G Technology and Network Impacts
    • 4.2.1 Network Coverage and Efficiency
    • 4.2.2 Network Spectrum Efficiency
    • 4.2.3 Data Throughput
    • 4.2.4 Connection Density
    • 4.2.5 UR-LLC (Ultra-Reliable Low Latency Communication)
    • 4.2.6 Network Energy Usage
    • 4.2.7 Improved Battery Life
    • 4.2.8 Improved Flexibility in Air Interface and Versatility
    • 4.2.9 Massive MIMO
    • 4.2.10 mmWave Technology
    • 4.2.11 Integration of Access and Backhaul
    • 4.2.12 D2D Communication
    • 4.2.13 Flexible Duplex: FDD and TDD
    • 4.2.14 Multi-Antenna Transmission Scenario
    • 4.2.15 Decoupling User Data from Control System
  • 4.3 5G Technology and Network Architecture
    • 4.3.1 Massive MIMO and Beamforming
    • 4.3.2 Cloud RAN
    • 4.3.3 Broadband Spectrum and Satellite
    • 4.3.4 5G New Radio (NR)
    • 4.3.5 Software Defined Air Interface
    • 4.3.6 Network Function Virtualization (NFV)
    • 4.3.7 Self Organizing Network (SON) and Self Healing Network (SHN)
    • 4.3.8 HetNet and H-CRAN
    • 4.3.9 Large-Scale Cooperative Spatial Signal Processing (LS-CSSP)
    • 4.3.10 Software Defined Radio (SDR)
    • 4.3.11 Visible Light Communications (VLCs)
    • 4.3.12 Cross Layer Controller
    • 4.3.13 Cognitive Radios (CRs) and Transmission Technologies
    • 4.3.14 Scalable OFDM and Subcarrier Spacing
  • 4.4 5G Network Implementation
    • 4.4.1 Base Stations
    • 4.4.2 Small Cells
    • 4.4.3 Macro Cells
    • 4.4.4 Baseband Units and RF Units
    • 4.4.5 Mobile Core
    • 4.4.6 Remote Radio Heads
    • 4.4.7 Front-haul and Backhaul Networks
  • 4.5 LTE Advanced, LTE Pro, and Beyond Supported Solutions
    • 4.5.1 Mobile IoT and M2M Communication
    • 4.5.2 Broadcast Services and Immersive Entertainment
    • 4.5.3 Vehicular Communication
    • 4.5.4 Public Safety Network
    • 4.5.5 Smart City Applications
    • 4.5.6 Private Enterprise Network

5. AI Technology and Ecosystem Analysis

  • 5.1 AI Technology Matrix
    • 5.1.1 Machine Learning
      • 5.1.1.1 Deep Learning
      • 5.1.1.2 Supervised vs. Unsupervised Learning
      • 5.1.1.3 Reinforcement Learning
    • 5.1.2 Natural Language Processing
    • 5.1.3 Computer Vision
    • 5.1.4 Speech Recognition
    • 5.1.5 Context Aware Processing
    • 5.1.6 Artificial Neural Network
    • 5.1.7 Predictive APIs
    • 5.1.8 Autonomous Robotics
  • 5.2 AI Technology Readiness
  • 5.3 Machine Learning APIs
    • 5.3.1 IBM Watson API
    • 5.3.2 Microsoft Azure Machine Learning API
    • 5.3.3 Google Prediction API
    • 5.3.4 Amazon Machine Learning API
    • 5.3.5 BigML
    • 5.3.6 AT&T Speech API
    • 5.3.7 Wit.ai
    • 5.3.8 AlchemyAPI
    • 5.3.9 Diffbot
    • 5.3.10 PredictionIO
    • 5.3.11 General Application Environment
  • 5.4 AI Technology Goals
  • 5.5 AI Tools and Approaches
  • 5.6 AI in Emotion Detection
    • 5.6.1 Facial Detection APIs
    • 5.6.2 Text Recognition APIs
    • 5.6.3 Speech Recognition APIs
  • 5.7 IoT Application and Big Data Analytics
  • 5.8 Data Science and Predictive Analytics
  • 5.9 Edge Computing and 5G Network
  • 5.10 Cloud Computing and Machine Learning
  • 5.11 Smart Machine and Virtual Twinning
  • 5.12 Factory Automation and Industry 4.0
  • 5.13 Building Automation and Smart Workplace
  • 5.14 Cloud Robotics and Public Security
  • 5.15 Self Driven Network and Domain Specific Network
  • 5.16 Predictive 3D Design

6. IoT Technology and Value Chain Analysis

  • 6.1 IoT Semiconductor Building Blocks
    • 6.1.1 Wireless Sensors
    • 6.1.2 IoT Processors
    • 6.1.3 Gateways
    • 6.1.4 Applications
  • 6.2 IoT Chipsets
  • 6.3 Network Technology and Protocols
  • 6.4 Real Time Operating System (RTOS)
    • 6.4.1 Open Source RTOS
    • 6.4.2 Commercial RTOS
    • 6.4.3 Distributed Stream Computing Platforms (DSCPs)
  • 6.5 IoT Software and Platforms
    • 6.5.1 IoT Analytics
    • 6.5.2 IoT Security
    • 6.5.3 IoT Device Management
    • 6.5.4 IoT Standard and API Interoperability
  • 6.6 IoT Industry Applications
  • 6.7 Value Chain Analysis
    • 6.7.1 IoT Hardware Device Provider
    • 6.7.2 IoT Component Provider
    • 6.7.3 IoT Platform Provider
    • 6.7.4 IoT Software and Service Provider
  • 6.8 IoT Investment and Market Alliances
  • 6.9 Role of Mobile Network Operators
  • 6.10 IoT and Next Generation Public Safety
    • 6.10.1 IoT and Public Safety Opportunity Areas
    • 6.10.2 Integrating IoT with Public Safety Communications
    • 6.10.3 Integrating IoT and Direction Communications

7. Critical Communication for Public Safety and Enterprises

  • 7.1 Deployment Status
  • 7.2 3GPP-Defined Critical Communications
    • 7.2.1 Mission Critical Push to Talk (MCPTT)
    • 7.2.2 MCX (Mission-Critical PTT, Video & Data)
    • 7.2.3 Isolated LTE Operation for Public Safety (IOPS)
    • 7.2.4 High Power User Equipment (HPUE)
  • 7.3 IoT to Improve Public Safety
  • 7.4 Ultra-Reliable Low Latency Communications or URLLC
  • 7.5 Comparison of 5G with WiFi Version 6 (WiFi6)

8. Critical Communication Market Analysis and Forecasts

  • 8.1 Global Critical Communication Market 2021 - 2028
    • 8.1.1 Critical Communications Managed Service Market
    • 8.1.2 Critical Communication Market by Segment
      • 8.1.2.1 Critical Communication Market by IoT Critical Infrastructure
      • 8.1.2.2 Critical Communication Market by Public Safety Communication Technology
        • 8.1.2.2.1 Critical Communication Market by Licensed LMR Standard
        • 8.1.2.2.2 Critical Communication Market by DMR Standard
        • 8.1.2.2.3 Critical Communication Market by Licensed LMR Type
        • 8.1.2.2.4 Critical Communication Market by Commercial LMRs Frequency
        • 8.1.2.2.5 Critical Communication Market by Public Safety LTE Standard
        • 8.1.2.2.6 Critical Communication Market by Public Safety LTE Type
      • 8.1.2.3 Critical Communication Market by Professional Service
    • 8.1.3 Critical Communication Market by Public Safety Industry Vertical
      • 8.1.3.1 Critical Communication Market by Military Application
      • 8.1.3.2 Critical Communication Market by Public Transportation Application
      • 8.1.3.3 Critical Communication Market by Utilities and Smart Grid Application
    • 8.1.4 AI Powered IoT Critical Communication Market in Public Safety
      • 8.1.4.1 AI Powered IoT Critical Communication Market by Segment
      • 8.1.4.2 AI Powered IoT Critical Communication Market by AI Technology
  • 8.2 Regional Critical Communication Market 2021 - 2028
    • 8.2.1 Critical Communication Market by Region
    • 8.2.2 APAC Critical Communication Market by IoT Critical Infrastructure, Public Safety Communication, Professional Service, AI Technology, and Country
    • 8.2.3 North America Critical Communication Market by IoT Critical Infrastructure, Public Safety Communication, Professional Service, AI Technology, and Country
    • 8.2.4 Europe Critical Communication Market by IoT Critical Infrastructure, Public Safety Communication, Professional Service, AI Technology, and Country
    • 8.2.5 Latin America Critical Communication Market by IoT Critical Infrastructure, Public Safety Communication, Professional Service, AI Technology, and Country
    • 8.2.6 Middle East and Africa Critical Communication Market by IoT Critical Infrastructure, Public Safety Communication, Professional Service, AI Technology, and Country

9. Mission Critical Company Analysis

  • 9.1 AGT International
  • 9.2 Atos SE
  • 9.3 Cisco Systems
  • 9.4 Dataminr
  • 9.5 Enforsys
  • 9.6 ESRI
  • 9.7 General Dynamics Corporation
  • 9.8 L3Harris Technologies
  • 9.9 Hexagon
  • 9.10 Hitachi Vantara
  • 9.11 Honeywell International
  • 9.12 Huawei Technologies
  • 9.13 IBM
  • 9.14 Ericsson
  • 9.15 Motorola Solutions
  • 9.16 NEC Corporation
  • 9.17 Nice Systems
  • 9.18 Nokia Corporation
  • 9.19 Northrop Grumman Corporation
  • 9.20 RapidSOS
  • 9.21 SAP SE
  • 9.22 SAS
  • 9.23 Sonim Technologies
  • 9.24 Tyler Technologies
  • 9.25 FirstNet
  • 9.26 Verizon
  • 9.27 AT&T
  • 9.28 Red Box Recorders Ltd.
  • 9.29 iNet Public Safety
  • 9.30 Codan Communications
  • 9.31 Intellitech Corporation
  • 9.32 Parallel Wireless
  • 9.33 Twilio
  • 9.34 Intersec
  • 9.35 Bandwidth
  • 9.36 Intrado
  • 9.37 Comtech

10. Mission Critical Company Case Studies

  • 10.1 AT&T
    • 10.1.1 Company Background
    • 10.1.2 Product Portfolio
    • 10.1.3 Recent Developments
  • 10.2 Motorola Solutions
    • 10.2.1 Company Background
    • 10.2.2 Product Portfolio
    • 10.2.3 Recent Developments
  • 10.3 Nokia
    • 10.3.1 Company Background
    • 10.3.2 Product Portfolio
    • 10.3.3 Recent Developments
  • 10.4 L3Harris
    • 10.4.1 Company Background
    • 10.4.2 Product Portfolio
    • 10.4.3 Recent Developments
  • 10.5 Ericsson
    • 10.5.1 Company Background
    • 10.5.2 Product Portfolio
    • 10.5.3 Recent Developments
  • 10.6 ZTE
    • 10.6.1 Company Background
    • 10.6.2 Product Portfolio
    • 10.6.3 Recent Developments
  • 10.7 Huawei Technologies
    • 10.7.1 Company Background
    • 10.7.2 Product Portfolio
    • 10.7.3 Recent Developments
  • 10.8 Hytera
    • 10.8.1 Company Background
    • 10.8.2 Product Portfolio
    • 10.8.3 Recent Developments
  • 10.9 Ascom
    • 10.9.1 Company Background
    • 10.9.2 Product Portfolio
    • 10.9.3 Recent Developments
  • 10.10 Cobham Wireless
    • 10.10.1 Company Background
    • 10.10.2 Product Portfolio
    • 10.10.3 Recent Developments

11. Critical Communication Case Studies

  • 11.1 Modernizing Public Safety Applications and Services
  • 11.2 5G Connected Ambulances
  • 11.3 Intelligent, Multiservice, and Ultra-Broadband Network Architecture
  • 11.4 Tsunami Preparedness with Connected Drones
  • 11.5 Emergency Communications Platforms

12. Conclusions and Recommendations

  • 12.1 Public Safety Sector
  • 12.2 Enterprise and Industrial Sectors

13. Appendix: Critical Communications Infrastructure, LTE and 5G in Industrial Verticals

  • 13.1 Mission Critical Communications Infrastructure Market
    • 13.1.1 Mission Critical Communications by Equipment, Software, and Service
    • 13.1.2 Mission Critical Communications Infrastructure by Platform Type
  • 13.2 LTE and 5G Critical Communications Market
    • 13.2.1 Critical Communication Applications 2021 - 2028
    • 13.2.2 Critical Communications by Major Market Segment 2021 - 2028
  • 13.3 5G New Radio in Industrial Critical Communications
    • 13.3.1 5GNR Applications in Industrial Automation 2021 - 2028
    • 13.3.2 5GNR Applications by Deployment Type 2021 - 2028
    • 13.3.3 Industrial Automation Market in Private 5GNR 2021 - 2028
    • 13.3.4 Private 5GNR in Industrial Automation by Application 2021 - 2028
  • 13.4 5G Ultra-reliable Low Latency Communications Critical Communications
  • 13.5 North America
  • 13.6 Europe
  • 13.7 Asia Pacific
  • 13.8 Latin America
  • 13.9 Middle East and Africa

Figures

  • Figure 1: Public Safety Applications
  • Figure 2: PSAP User Interface
  • Figure 3: PSAP Equipment and Interfaces
  • Figure 4: GIS Features and Mapping
  • Figure 5: GIS Spatial Analysis
  • Figure 6: GIS Spatial Analysis Techniques
  • Figure 7: GIS Vector vs. Raster Representation
  • Figure 8: Special Raster Data Models
  • Figure 9: Data Layering in GIS
  • Figure 10: GIS Data Processing
  • Figure 11: Cell Level Positioning Technology
  • Figure 12: Assisted GPS Technology
  • Figure 13: AFLT Technology
  • Figure 14: LTE for Public Safety Communications Regional Share
  • Figure 15: Global Public Safety LTE Revenue
  • Figure 16: LTE Foundation Architecture: LTE Advanced and LTE Advanced Pro
  • Figure 17: Licensed Assisted Access (LAA) Uplink Cell Range in Small Cells
  • Figure 18: Architecture of Shared Spectrum
  • Figure 19: Spectrum Sharing Prototype on LTE-U/LAA, LWA, CBRS/LSA and MultiFire
  • Figure 20: Narrowband 5G Path and Standard Release for Massive IoT
  • Figure 21: Multi-Connectivity Structure deployed over Small Cell and Macro
  • Figure 22: Next Generation OSS/BSS Architecture
  • Figure 23: Massive Element Antenna in Combination of Phantom Cell and Massive MIMO
  • Figure 24: Multiple Antenna and Beamforming Impact
  • Figure 25: Bandwidth and Latency Requirements for 5G Use Cases
  • Figure 26: WRC 15 and WRC 19 Spectrum Issues in 5G Network
  • Figure 27: IMT 2020 Requirements for URLLC
  • Figure 28: Flexible Unified Radio Interface, Integrated Sub-frame, and Dynamic Uplink & Downlink
  • Figure 29: Massive MIMO Concept
  • Figure 30: Massive MIMO: LTE Network to 5G NR Rel. 15
  • Figure 31: High Spectrum Band at Massive MIMO
  • Figure 32: Cloud RAN Architecture
  • Figure 33: Role of Satellite in 5G Communication System
  • Figure 34: 5G New Radio (NR) Release Timeline
  • Figure 35: Technology Requirements of 5G NR Standards
  • Figure 36: Enabling Technology of 5G NR
  • Figure 37: Mobile Broadband Performance Target in 5G NR
  • Figure 38: Virtual Cell and UE Centric Mobility in 5G NR
  • Figure 39: Self-Contained Sub-Frame Design Structure
  • Figure 40: NFV in H-RAN Solution
  • Figure 41: Self-Organizing Networks (SONs) in H-RAN
  • Figure 42: H-RAN Application in 5G Systems
  • Figure 43: Centralized LS-CSSP Structure
  • Figure 44: Hybrid Architecture of SDN and SDR in 5G Network
  • Figure 45: Windowed OFDM Structure
  • Figure 46: Subcarrier Spacing Bandwidth Structure using FDD & TDD
  • Figure 47: Mobile IoT Technology and Equipment Categories over 4G and 4.5G
  • Figure 48: SDL Carrier over LTE Broadcast Service
  • Figure 49: Multi-Carrier Deployment with LTE Broadcast Carrier
  • Figure 50: Public Safety Scenario over LTE Network
  • Figure 51: Supervised, Unsupervised, and Reinforcement Learning
  • Figure 52: AI Technology Matrix
  • Figure 53: AI Technology Readiness Matrix
  • Figure 54: AI Technology Goals and Outcomes
  • Figure 55: Deep Learning and Emotion AI
  • Figure 56: AI Predictive Analytics Layer
  • Figure 57: 5G NR Requirement for AI Network
  • Figure 58: AI Driven Smart Machine Landscape
  • Figure 59: IIoT Machine Learning as a Service Landscape
  • Figure 60: AI Smart Workplace Automation Landscape
  • Figure 61: IoT Wireless Sensor Map
  • Figure 62: IoT Enabled Health Monitoring
  • Figure 63: Consumer IoT Device Vendor
  • Figure 64: Enterprise and Industrial IoT Device Vendor
  • Figure 65: IoT Component Vendors
  • Figure 66: IoT Platform Vendors
  • Figure 67: IoT Software and Service Vendors
  • Figure 68: IoT Benefits for Public Safety
  • Figure 69: Global Critical Communication Market 2021 - 2028
  • Figure 70: Global Critical Communication Market Yearly Growth 2021 - 2028
  • Figure 71: Global AI Powered IoT Critical Communication Market in Public Safety 2021 - 2028
  • Figure 72: Global AI Powered IoT Critical Communication Market Annual Growth 2021 - 2028
  • Figure 73: APAC AI Powered IoT Critical Communication Market in Public Safety 2021 - 2028
  • Figure 74: North America AI Powered IoT Critical Communication Market in Public Safety 2021 - 2028
  • Figure 75: Europe AI Powered IoT Critical Communication Market in Public Safety 2021 - 2028
  • Figure 76: Latin America AI Powered IoT Critical Communication Market in Public Safety 2021 - 2028
  • Figure 77: MEA AI Powered IoT Critical Communication Market in Public Safety 2021 - 2028
  • Figure 78: Public and Personal Safety Framework
  • Figure 79: 5G Network Slicing in Enterprise and Industrial Sectors
  • Figure 80: Global Industrial Automation Market in Private 5GNR 2021 - 2028

Tables

  • Table 1: OSS and BSS Considerations
  • Table 2: 5G Technologies and Capabilities
  • Table 3: IoT Partnerships and Alliances
  • Table 4: Global Critical Communication Market by Segment 2021 - 2028
  • Table 5: Global Critical Communication Market Share by Segment 2021 - 2028
  • Table 6: Global Critical Communication Market by IoT Critical Infrastructure Type 2021 - 2028
  • Table 7: Global Critical Communication Market Share by IoT Critical Infrastructure Type 2021 - 2028
  • Table 8: Global Critical Communication Market Share by Public Safety Communication Technology Type 2021 - 2028
  • Table 9: Global Critical Communication Market Share by Public Safety Communication Technology Type 2021 - 2028
  • Table 10: Global Critical Communication Market by Licensed LMR Standard 2021 - 2028
  • Table 11: Global Critical Communication Market Share by Licensed LMR Standard 2021 - 2028
  • Table 12: Global Critical Communication Market by DMR Standard 2021 - 2028
  • Table 13: Global Critical Communication Market Share by DMR Standard 2021 - 2028
  • Table 14: Global Critical Communication Market by Licensed LMR Type 2021 - 2028
  • Table 15: Global Critical Communication Market Share by Licensed LMR Type 2021 - 2028
  • Table 16: Global Critical Communication Market by Commercial LMRs Frequency Type 2021 - 2028
  • Table 17: Global Critical Communication Market Share by Commercial LMRs Frequency Type 2021 - 2028
  • Table 18: Global Critical Communication Market by Public Safety LTE Standard Type 2021 - 2028
  • Table 19: Global Critical Communication Market Share by Public Safety LTE Standard Type 2021 - 2028
  • Table 20: Global Critical Communication Market by Public Safety LTE Type 2021 - 2028
  • Table 21: Global Critical Communication Market Share by Public Safety LTE Type 2021 - 2028
  • Table 22: Global Critical Communication Market by Professional Service Type 2021 - 2028
  • Table 23: Global Critical Communication Market Share by Professional Service Type 2021 - 2028
  • Table 24: Global Critical Communication Market by Public Safety Industry Vertical 2021 - 2028
  • Table 25: Global Critical Communication Market Share by Public Safety Industry Vertical 2021 - 2028
  • Table 26: Global Critical Communication Market by Military Application Type 2021 - 2028
  • Table 27: Global Critical Communication Market Share by Military Application Type 2021 - 2028
  • Table 28: Global Critical Communication Market by Public Transportation Application Type 2021 - 2028
  • Table 29: Global Critical Communication Market Share by Public Transportation Application Type 2021 - 2028
  • Table 30: Global Critical Communication Market by Utilities and Smart Grid Application Type 2021 - 2028
  • Table 31: Global Critical Communication Market Share by Utilities and Smart Grid Application Type 2021 - 2028
  • Table 32: Global AI Powered IoT Critical Communication Market by Segment 2021 - 2028
  • Table 33: Global AI Powered IoT Critical Communication Market Share by Segment 2021 - 2028
  • Table 34: Global AI Powered IoT Critical Communication Market by AI Technology 2021 - 2028
  • Table 35: Global AI Powered IoT Critical Communication Market Share by AI Technology 2021 - 2028
  • Table 36: Critical Communication Market by Region 2021 - 2028
  • Table 37: Critical Communication Market Share by Region 2021 - 2028
  • Table 38: APAC Critical Communication Market by Segment 2021 - 2028
  • Table 39: APAC Critical Communication Market by IoT Critical Infrastructure Type 2021 - 2028
  • Table 40: APAC Critical Communication Market Share by Public Safety Communication Technology Type 2021 - 2028
  • Table 41: APAC Critical Communication Market by Licensed LMR Standard 2021 - 2028
  • Table 42: APAC Critical Communication Market by DMR Standard 2021 - 2028
  • Table 43: APAC Critical Communication Market by Licensed LMR Type 2021 - 2028
  • Table 44: APAC Critical Communication Market by Commercial LMRs Frequency Type 2021 - 2028
  • Table 45: APAC Critical Communication Market by Public Safety LTE Standard Type 2021 - 2028
  • Table 46: APAC Critical Communication Market by Public Safety LTE Type 2021 - 2028
  • Table 47: APAC Critical Communication Market by Professional Service Type 2021 - 2028
  • Table 48: APAC Critical Communication Market by Public Safety Industry Vertical 2021 - 2028
  • Table 49: APAC Critical Communication Market by Military Application Type 2021 - 2028
  • Table 50: APAC Critical Communication Market by Public Transportation Application Type 2021 - 2028
  • Table 51: APAC Critical Communication Market by Utilities and Smart Grid Application Type 2021 - 2028
  • Table 52: APAC AI Powered IoT Critical Communication Market by Segment 2021 - 2028
  • Table 53: APAC AI Powered IoT Critical Communication Market by AI Technology 2021 - 2028
  • Table 54: APAC Critical Communication Market by Country 2021 - 2028
  • Table 55: APAC Critical Communication Market Share by Country 2021 - 2028
  • Table 56: North America Critical Communication Market by Segment 2021 - 2028
  • Table 57: North America Critical Communication Market by IoT Critical Infrastructure Type 2021 - 2028
  • Table 58: North America Critical Communication Market Share by Public Safety Communication Technology Type 2021 - 2028
  • Table 59: North America Critical Communication Market by Licensed LMR Standard 2021 - 2028
  • Table 60: North America Critical Communication Market by DMR Standard 2021 - 2028
  • Table 61: North America Critical Communication Market by Licensed LMR Type 2021 - 2028
  • Table 62: North America Critical Communication Market by Commercial LMRs Frequency Type 2021 - 2028
  • Table 63: North America Critical Communication Market by Public Safety LTE Standard Type 2021 - 2028
  • Table 64: North America Critical Communication Market by Public Safety LTE Type 2021 - 2028
  • Table 65: North America Critical Communication Market by Professional Service Type 2021 - 2028
  • Table 66: North America Critical Communication Market by Public Safety Industry Vertical 2021 - 2028
  • Table 67: North America Critical Communication Market by Military Application Type 2021 - 2028
  • Table 68: North America Critical Communication Market by Public Transportation Application Type 2021 - 2028
  • Table 69: North America Critical Communication Market by Utilities and Smart Grid Application Type 2021 - 2028
  • Table 70: North America AI Powered IoT Critical Communication Market by Segment 2021 - 2028
  • Table 71: North America AI Powered IoT Critical Communication Market by AI Technology 2021 - 2028
  • Table 72: North America Critical Communication Market by Country 2021 - 2028
  • Table 73: North America Critical Communication Market Share by Country 2021 - 2028
  • Table 74: Europe Critical Communication Market by Segment 2021 - 2028
  • Table 75: Europe Critical Communication Market by IoT Critical Infrastructure Type 2021 - 2028
  • Table 76: Europe Critical Communication Market Share by Public Safety Communication Technology Type 2021 - 2028
  • Table 77: Europe Critical Communication Market by Licensed LMR Standard 2021 - 2028
  • Table 78: Europe Critical Communication Market by DMR Standard 2021 - 2028
  • Table 79: Europe Critical Communication Market by Licensed LMR Type 2021 - 2028
  • Table 80: Europe Critical Communication Market by Commercial LMRs Frequency Type 2021 - 2028
  • Table 81: Europe Critical Communication Market by Public Safety LTE Standard Type 2021 - 2028
  • Table 82: Europe Critical Communication Market by Public Safety LTE Type 2021 - 2028
  • Table 83: Europe Critical Communication Market by Professional Service Type 2021 - 2028
  • Table 84: Europe Critical Communication Market by Public Safety Industry Vertical 2021 - 2028
  • Table 85: Europe Critical Communication Market by Military Application Type 2021 - 2028
  • Table 86: Europe Critical Communication Market by Public Transportation Application Type 2021 - 2028
  • Table 87: Europe Critical Communication Market by Utilities and Smart Grid Application Type 2021 - 2028
  • Table 88: Europe AI Powered IoT Critical Communication Market by Segment 2021 - 2028
  • Table 89: Europe AI Powered IoT Critical Communication Market by AI Technology 2021 - 2028
  • Table 90: Europe Critical Communication Market by Country 2021 - 2028
  • Table 91: Europe Critical Communication Market Share by Country 2021 - 2028
  • Table 92: Latin America Critical Communication Market by Segment 2021 - 2028
  • Table 93: Latin America Critical Communication Market by IoT Critical Infrastructure Type 2021 - 2028
  • Table 94: Latin America Critical Communication Market Share by Public Safety Communication Technology Type 2021 - 2028
  • Table 95: Latin America Critical Communication Market by Licensed LMR Standard 2021 - 2028
  • Table 96: Latin America Critical Communication Market by DMR Standard 2021 - 2028
  • Table 97: Latin America Critical Communication Market by Licensed LMR Type 2021 - 2028
  • Table 98: Latin America Critical Communication Market by Commercial LMRs Frequency Type 2021 - 2028
  • Table 99: Latin America Critical Communication Market by Public Safety LTE Standard Type 2021 - 2028
  • Table 100: Latin America Critical Communication Market by Public Safety LTE Type 2021 - 2028
  • Table 101: Latin America Critical Communication Market by Professional Service Type 2021 - 2028
  • Table 102: Latin America Critical Communication Market by Public Safety Industry Vertical 2021 - 2028
  • Table 103: Latin America Critical Communication Market by Military Application Type 2021 - 2028
  • Table 104: Latin America Critical Communication Market by Public Transportation Application Type 2021 - 2028
  • Table 105: Latin America Critical Communication Market by Utilities and Smart Grid Application Type 2021 - 2028
  • Table 106: Latin America AI Powered IoT Critical Communication Market by Segment 2021 - 2028
  • Table 107: Latin America AI Powered IoT Critical Communication Market by AI Technology 2021 - 2028
  • Table 108: Latin America Critical Communication Market by Country 2021 - 2028
  • Table 109: Latin America Critical Communication Market Share by Country 2021 - 2028
  • Table 110: MEA Critical Communication Market by Segment 2021 - 2028
  • Table 111: MEA Critical Communication Market by IoT Critical Infrastructure Type 2021 - 2028
  • Table 112: MEA Critical Communication Market Share by Public Safety Communication Technology Type 2021 - 2028
  • Table 113: MEA Critical Communication Market by Licensed LMR Standard 2021 - 2028
  • Table 114: MEA Critical Communication Market by DMR Standard 2021 - 2028
  • Table 115: MEA Critical Communication Market by Licensed LMR Type 2021 - 2028
  • Table 116: MEA Critical Communication Market by Commercial LMRs Frequency Type 2021 - 2028
  • Table 117: MEA Critical Communication Market by Public Safety LTE Standard Type 2021 - 2028
  • Table 118: MEA Critical Communication Market by Public Safety LTE Type 2021 - 2028
  • Table 119: MEA Critical Communication Market by Professional Service Type 2021 - 2028
  • Table 120: MEA Critical Communication Market by Public Safety Industry Vertical 2021 - 2028
  • Table 121: MEA Critical Communication Market by Military Application Type 2021 - 2028
  • Table 122: MEA Critical Communication Market by Public Transportation Application Type 2021 - 2028
  • Table 123: MEA Critical Communication Market by Utilities and Smart Grid Application Type 2021 - 2028
  • Table 124: MEA AI Powered IoT Critical Communication Market by Segment 2021 - 2028
  • Table 125: MEA AI Powered IoT Critical Communication Market by AI Technology 2021 - 2028
  • Table 126: MEA Critical Communication Market by Country 2021 - 2028
  • Table 127: MEA Critical Communication Market Share by Country 2021 - 2028
  • Table 128: Mission Critical Communications by Equipment, Software and Services 2021 - 2028
  • Table 129: Mission Critical Communications Infrastructure by Platform Type 2021 - 2028
  • Table 130: Global Critical Communication Market in LTE and 5G by Application 2021 - 2028
  • Table 131: Global Critical Communication Market in LTE and 5G by Major Market Segment 2021 - 2028
  • Table 132: Global 5GNR Market by Industrial Automation 2021 - 2028
  • Table 133: Global 5GNR Market by Deployment Type 2021 - 2028
  • Table 134: Global Industrial Automation Market in Private 5GNR by Application 2021 - 2028
  • Table 135: North America 5G URLLC Market by Application 2021 - 2028
  • Table 136: North America 5G URLLC Market by Telepresence Application 2021 - 2028
  • Table 137: North America 5G URLLC Market by Autonomous Vehicles Type 2021 - 2028
  • Table 138: North America 5G URLLC Market by Teleoperation/Tele-robotics Applications 2021 - 2028
  • Table 139: Europe 5G URLLC Market by Application 2021 - 2028
  • Table 140: Europe 5G URLLC Market by Telepresence Application 2021 - 2028
  • Table 141: Europe 5G URLLC Market by Autonomous Vehicles Type 2021 - 2028
  • Table 142: Europe 5G URLLC Market by Teleoperation/Tele-robotics Applications 2021 - 2028
  • Table 143: APAC 5G URLLC Market by Application 2021 - 2028
  • Table 144: APAC 5G URLLC Market by Telepresence Application 2021 - 2028
  • Table 145: APAC 5G URLLC Market by Autonomous Vehicles Type 2021 - 2028
  • Table 146: APAC 5G URLLC Market by Teleoperation/Tele-robotics Applications 2021 - 2028
  • Table 147: Latin America 5G URLLC Market by Application 2021 - 2028
  • Table 148: Latin America 5G URLLC Market by Telepresence Application 2021 - 2028
  • Table 149: Latin America 5G URLLC Market by Autonomous Vehicles Type 2021 - 2028
  • Table 150: Latin America 5G URLLC Market by Teleoperation/Tele-robotics Applications 2021 - 2028
  • Table 151: MEA 5G URLLC Market by Application 2021 - 2028
  • Table 152: MEA 5G URLLC Market by Telepresence Application 2021 - 2028
  • Table 153: MEA 5G URLLC Market by Autonomous Vehicles Type 2021 - 2028
  • Table 154: MEA 5G URLLC Market by Teleoperation/Tele-robotics Applications 2021 - 2028