Private LTE & 5G Network Ecosystem Market Demand, Sales, Opportunities, Share, Supply, Growth Analysis and Forecast to 2030
By providing authority over wireless coverage and capacity, private LTE and 5G networks can ensure guaranteed connectivity, while supporting a wide range of applications and usage scenarios.
(EMAILWIRE.COM, February 17, 2019 ) With the standardization of capabilities such as MCPTT (Mission-Critical PTT) by the 3GPP, LTE is increasingly being viewed as an all-inclusive critical communications platform for the delivery of multiple mission-critical services ranging from PTT group communications to real-time video surveillance, and organizations across the critical communications industry – from public safety agencies to railway operators – are making sizeable investments in private LTE and 5G-ready networks.
Download Free Report Sample (PDF) Here:https://www.researchreporthub.com/report/the-private-lte-5g-network-ecosystem/39263/#requestforsample
By providing authority over wireless coverage and capacity, private LTE and 5G networks can ensure guaranteed connectivity, while supporting a wide range of applications and usage scenarios. Small-scale private LTE and 5G-ready networks are also beginning to be deployed in industrial IoT (Internet of Things) settings – where LTE and 5G can fulfill the stringent reliability, availability and low latency requirements for connectivity in industrial control and automation systems, besides supporting mobility for robotics and machines.
In addition, with the emergence of capabilities such as multi-operator small cells and shared/unlicensed spectrum access schemes, the use of private LTE and 5G networks – in enterprise buildings, campuses and public venues, for localized connectivity – is expected to grow significantly over the coming years.
Expected to surpass $2.5 Billion in annual spending by the end of 2018, private LTE and 5G networks are increasingly becoming the preferred approach to deliver wireless connectivity for critical communications, industrial IoT, enterprise & campus environments, and public venues. SNS Telecom & IT estimates that the market will further grow at a CAGR of approximately 30% between 2018 and 2021, eventually accounting for more than $5 Billion by the end of 2021.
......
Get Discount & Customization of this Report Here:https://www.researchreporthub.com/report/the-private-lte-5g-network-ecosystem/39263/
Table Of Content
1.1 Executive Summary
1.2 Topics Covered
1.3 Forecast Segmentation
1.4 Key Questions Answered
1.5 Key Findings
1.6 Methodology
1.7 Target Audience
1.8 Companies & Organizations Mentioned
2 Chapter 2: An Overview of Private LTE & 5G Networks
2.1 Private Wireless Networks
2.1.1 Addressing the Needs of the Critical Communications Industry
2.1.2 The Limitations of LMR (Land Mobile Radio) Networks
2.1.3 Moving Towards Commercial Mobile Broadband Technologies
2.1.4 Connectivity Requirements for the Industrial IoT (Internet of Things)
2.1.5 Localized Mobile Networks for Buildings, Campuses & Public Venues
2.2 LTE & 5G for Private Networking
2.2.1 Why LTE?
2.2.2 Performance Metrics
2.2.3 Coexistence, Interoperability and Spectrum Flexibility
2.2.4 A Thriving Ecosystem
2.2.5 Economic Feasibility
2.2.6 Moving Towards LTE-Advanced & LTE-Advanced Pro Networks
2.2.7 5G Capabilities & Usage Scenarios
2.3 Architectural Components of Private LTE & 5G Networks
2.3.1 UE (User Equipment)
2.3.2 E-UTRAN – The LTE RAN (Radio Access Network)
2.3.2.1 eNB Base Stations
2.3.2.2 TDD vs. FDD
2.3.3 Transport Network
2.3.4 EPC (Evolved Packet Core) – The LTE Mobile Core
2.3.4.1 SGW (Serving Gateway)
2.3.4.2 PGW (Packet Data Network Gateway)
2.3.4.3 MME (Mobility Management Entity)
2.3.4.4 HSS (Home Subscriber Server)
2.3.4.5 PCRF (Policy Charging and Rules Function)
2.3.5 IMS (IP-Multimedia Subsystem), Application & Service Elements
2.3.5.1 IMS Core & VoLTE
2.3.5.2 eMBMS (Enhanced Multimedia Broadcast Multicast Service)
2.3.5.3 ProSe (Proximity Services)
2.3.5.4 Group Communication & Mission-Critical Services
2.3.6 Gateways for LTE-External Network Interworking
2.3.7 Proposed 5G Architectural Elements
2.3.7.1 5G NR (New Radio)
2.3.7.2 NextGen Core Network
2.4 Key Enabling Technologies & Concepts
2.4.1 Critical Communications
2.4.1.1 MCPTT (Mission-Critical PTT) Voice & Group Communications
2.4.1.2 Mission-Critical Video & Data
2.4.1.3 ProSe (Proximity Services) for D2D Connectivity & Communications
2.4.1.4 IOPS (Isolated E-UTRAN Operation for Public Safety)
2.4.1.5 Deployable LTE & 5G Systems
2.4.1.6 UE Enhancements
2.4.2 eMTC & NB-IoT: Wide Area & High Density IoT Applications
2.4.3 QPP (QoS, Priority & Preemption)
2.4.4 End-to-End Security
2.4.5 Licensed Spectrum Sharing & Aggregation
2.4.6 Unlicensed & Shared Spectrum Usage
2.4.6.1 LSA (Licensed Shared Access): Two-Tiered Sharing
2.4.6.2 CBRS (Citizens Broadband Radio Service): Three-Tiered Sharing
2.4.6.3 LAA (License Assisted Access) & LTE-U: Licensed & Unlicensed Spectrum Aggregation
2.4.6.4 MulteFire
2.4.7 Network Sharing & Slicing
2.4.7.1 MOCN (Multi-Operator Core Network)
2.4.7.2 DECOR (Dedicated Core)
2.4.7.3 Network Slicing
2.4.8 Software-Centric Networking
2.4.8.1 NFV (Network Functions Virtualization)
2.4.8.2 SDN (Software Defined Networking)
2.4.9 C-RAN (Centralized RAN)
2.4.10 MEC (Multi-Access Edge Computing)
2.5 Private LTE & 5G Network Operational Models
2.5.1 Independent Private Network
2.5.2 Managed Private Network
2.5.3 MVNO: Commercial Network with a Private Mobile Core
2.5.4 Other Approaches
2.6 Key Applications of Private LTE & 5G Networks
2.6.1 Secure & Seamless Mobile Broadband Access
2.6.2 Bandwidth-Intensive & Latency-Sensitive Field Applications
2.6.3 Bulk Multimedia & Data Transfers
2.6.4 In-Building Coverage & Capacity
2.6.5 Seamless Roaming & Mobile VPN Access
2.6.6 Mission-Critical HD Voice & Group Communications
2.6.7 Video & High-Resolution Imagery
2.6.8 Messaging & Presence Services
2.6.9 Location Services & Mapping
2.6.10 Command & Control Systems
2.6.11 Smart Grid Operations
2.6.12 Industrial Automation
2.6.13 High-Speed Railway Connectivity
2.6.14 PIS (Passenger Information System)
2.6.15 Delay-Sensitive Control of Railway Infrastructure
2.6.16 In-Flight Connectivity for Passengers & Airline Operators
2.6.17 Maritime Connectivity for Ships & Offshore Facilities
2.6.18 Telemetry, Control & Remote Diagnostics
2.6.19 Emerging 5G Applications
2.7 Market Growth Drivers
2.7.1 Recognition of LTE as the De-Facto Mobile Broadband Standard
2.7.2 Spectral Efficiency, Flexible Bandwidth, Regional Interoperability & Cost Efficiency
2.7.3 Endorsement from the Critical Communications Industry
2.7.4 Emergence of Unlicensed & Shared Spectrum Technologies
2.7.5 Growing Demands for High-Speed Data Applications
2.7.6 Limited Coverage in Indoor, Industrial & Remote Environments
2.7.7 Control over QoS (Quality of Service)
2.8 Market Barriers
2.8.1 Lack of Licensed Spectrum
2.8.2 Funding Challenges for Large-Scale Networks
2.8.3 Smaller Coverage Footprint than Legacy LMR Systems
2.8.4 Delayed Standardization
3 Chapter 3: Vertical Markets, Case Studies & Private LTE/5G Engagements
3.1 Vertical Markets
3.1.1 Critical Communications & Industrial IoT
3.1.1.1 Public Safety
3.1.1.2 Military
3.1.1.3 Energy
3.1.1.4 Utilities
3.1.1.5 Mining
3.1.1.6 Transportation
3.1.1.7 Factories & Warehouses
......
Get Complete TOC with Figures and Tables Here:https://www.researchreporthub.com/report/the-private-lte-5g-network-ecosystem/39263/#toc
Research Report Hub
Research Report Hub offers wide-ranging collection of market research reports under virtually every market verticals and sub-categories from different publishers across the globe. We offer reliable market intelligence reports and report customization services to better understand current and projected market scenarios. It also gives a clearer depiction of industries and facilitates to simply perceive competitor activity in the respective industry. Our services are also geared towards helping organizations procure market reports at the finest price.
About US
Research Report Hub
Sector 04, Plot 101, Sant Nagar,
Moshi PCNDTA, Pune, 412105
Maharashtra, India
Web:www.researchreporthub.com
Find us on: <||>rnhttps://www.facebook.com/reasearchreporthub/ <||>rnhttps://twitter.com/hub_report <||>rnhttps://www.linkedin.com/company/research-report-hub/
Download Free Report Sample (PDF) Here:https://www.researchreporthub.com/report/the-private-lte-5g-network-ecosystem/39263/#requestforsample
By providing authority over wireless coverage and capacity, private LTE and 5G networks can ensure guaranteed connectivity, while supporting a wide range of applications and usage scenarios. Small-scale private LTE and 5G-ready networks are also beginning to be deployed in industrial IoT (Internet of Things) settings – where LTE and 5G can fulfill the stringent reliability, availability and low latency requirements for connectivity in industrial control and automation systems, besides supporting mobility for robotics and machines.
In addition, with the emergence of capabilities such as multi-operator small cells and shared/unlicensed spectrum access schemes, the use of private LTE and 5G networks – in enterprise buildings, campuses and public venues, for localized connectivity – is expected to grow significantly over the coming years.
Expected to surpass $2.5 Billion in annual spending by the end of 2018, private LTE and 5G networks are increasingly becoming the preferred approach to deliver wireless connectivity for critical communications, industrial IoT, enterprise & campus environments, and public venues. SNS Telecom & IT estimates that the market will further grow at a CAGR of approximately 30% between 2018 and 2021, eventually accounting for more than $5 Billion by the end of 2021.
......
Get Discount & Customization of this Report Here:https://www.researchreporthub.com/report/the-private-lte-5g-network-ecosystem/39263/
Table Of Content
1.1 Executive Summary
1.2 Topics Covered
1.3 Forecast Segmentation
1.4 Key Questions Answered
1.5 Key Findings
1.6 Methodology
1.7 Target Audience
1.8 Companies & Organizations Mentioned
2 Chapter 2: An Overview of Private LTE & 5G Networks
2.1 Private Wireless Networks
2.1.1 Addressing the Needs of the Critical Communications Industry
2.1.2 The Limitations of LMR (Land Mobile Radio) Networks
2.1.3 Moving Towards Commercial Mobile Broadband Technologies
2.1.4 Connectivity Requirements for the Industrial IoT (Internet of Things)
2.1.5 Localized Mobile Networks for Buildings, Campuses & Public Venues
2.2 LTE & 5G for Private Networking
2.2.1 Why LTE?
2.2.2 Performance Metrics
2.2.3 Coexistence, Interoperability and Spectrum Flexibility
2.2.4 A Thriving Ecosystem
2.2.5 Economic Feasibility
2.2.6 Moving Towards LTE-Advanced & LTE-Advanced Pro Networks
2.2.7 5G Capabilities & Usage Scenarios
2.3 Architectural Components of Private LTE & 5G Networks
2.3.1 UE (User Equipment)
2.3.2 E-UTRAN – The LTE RAN (Radio Access Network)
2.3.2.1 eNB Base Stations
2.3.2.2 TDD vs. FDD
2.3.3 Transport Network
2.3.4 EPC (Evolved Packet Core) – The LTE Mobile Core
2.3.4.1 SGW (Serving Gateway)
2.3.4.2 PGW (Packet Data Network Gateway)
2.3.4.3 MME (Mobility Management Entity)
2.3.4.4 HSS (Home Subscriber Server)
2.3.4.5 PCRF (Policy Charging and Rules Function)
2.3.5 IMS (IP-Multimedia Subsystem), Application & Service Elements
2.3.5.1 IMS Core & VoLTE
2.3.5.2 eMBMS (Enhanced Multimedia Broadcast Multicast Service)
2.3.5.3 ProSe (Proximity Services)
2.3.5.4 Group Communication & Mission-Critical Services
2.3.6 Gateways for LTE-External Network Interworking
2.3.7 Proposed 5G Architectural Elements
2.3.7.1 5G NR (New Radio)
2.3.7.2 NextGen Core Network
2.4 Key Enabling Technologies & Concepts
2.4.1 Critical Communications
2.4.1.1 MCPTT (Mission-Critical PTT) Voice & Group Communications
2.4.1.2 Mission-Critical Video & Data
2.4.1.3 ProSe (Proximity Services) for D2D Connectivity & Communications
2.4.1.4 IOPS (Isolated E-UTRAN Operation for Public Safety)
2.4.1.5 Deployable LTE & 5G Systems
2.4.1.6 UE Enhancements
2.4.2 eMTC & NB-IoT: Wide Area & High Density IoT Applications
2.4.3 QPP (QoS, Priority & Preemption)
2.4.4 End-to-End Security
2.4.5 Licensed Spectrum Sharing & Aggregation
2.4.6 Unlicensed & Shared Spectrum Usage
2.4.6.1 LSA (Licensed Shared Access): Two-Tiered Sharing
2.4.6.2 CBRS (Citizens Broadband Radio Service): Three-Tiered Sharing
2.4.6.3 LAA (License Assisted Access) & LTE-U: Licensed & Unlicensed Spectrum Aggregation
2.4.6.4 MulteFire
2.4.7 Network Sharing & Slicing
2.4.7.1 MOCN (Multi-Operator Core Network)
2.4.7.2 DECOR (Dedicated Core)
2.4.7.3 Network Slicing
2.4.8 Software-Centric Networking
2.4.8.1 NFV (Network Functions Virtualization)
2.4.8.2 SDN (Software Defined Networking)
2.4.9 C-RAN (Centralized RAN)
2.4.10 MEC (Multi-Access Edge Computing)
2.5 Private LTE & 5G Network Operational Models
2.5.1 Independent Private Network
2.5.2 Managed Private Network
2.5.3 MVNO: Commercial Network with a Private Mobile Core
2.5.4 Other Approaches
2.6 Key Applications of Private LTE & 5G Networks
2.6.1 Secure & Seamless Mobile Broadband Access
2.6.2 Bandwidth-Intensive & Latency-Sensitive Field Applications
2.6.3 Bulk Multimedia & Data Transfers
2.6.4 In-Building Coverage & Capacity
2.6.5 Seamless Roaming & Mobile VPN Access
2.6.6 Mission-Critical HD Voice & Group Communications
2.6.7 Video & High-Resolution Imagery
2.6.8 Messaging & Presence Services
2.6.9 Location Services & Mapping
2.6.10 Command & Control Systems
2.6.11 Smart Grid Operations
2.6.12 Industrial Automation
2.6.13 High-Speed Railway Connectivity
2.6.14 PIS (Passenger Information System)
2.6.15 Delay-Sensitive Control of Railway Infrastructure
2.6.16 In-Flight Connectivity for Passengers & Airline Operators
2.6.17 Maritime Connectivity for Ships & Offshore Facilities
2.6.18 Telemetry, Control & Remote Diagnostics
2.6.19 Emerging 5G Applications
2.7 Market Growth Drivers
2.7.1 Recognition of LTE as the De-Facto Mobile Broadband Standard
2.7.2 Spectral Efficiency, Flexible Bandwidth, Regional Interoperability & Cost Efficiency
2.7.3 Endorsement from the Critical Communications Industry
2.7.4 Emergence of Unlicensed & Shared Spectrum Technologies
2.7.5 Growing Demands for High-Speed Data Applications
2.7.6 Limited Coverage in Indoor, Industrial & Remote Environments
2.7.7 Control over QoS (Quality of Service)
2.8 Market Barriers
2.8.1 Lack of Licensed Spectrum
2.8.2 Funding Challenges for Large-Scale Networks
2.8.3 Smaller Coverage Footprint than Legacy LMR Systems
2.8.4 Delayed Standardization
3 Chapter 3: Vertical Markets, Case Studies & Private LTE/5G Engagements
3.1 Vertical Markets
3.1.1 Critical Communications & Industrial IoT
3.1.1.1 Public Safety
3.1.1.2 Military
3.1.1.3 Energy
3.1.1.4 Utilities
3.1.1.5 Mining
3.1.1.6 Transportation
3.1.1.7 Factories & Warehouses
......
Get Complete TOC with Figures and Tables Here:https://www.researchreporthub.com/report/the-private-lte-5g-network-ecosystem/39263/#toc
Research Report Hub
Research Report Hub offers wide-ranging collection of market research reports under virtually every market verticals and sub-categories from different publishers across the globe. We offer reliable market intelligence reports and report customization services to better understand current and projected market scenarios. It also gives a clearer depiction of industries and facilitates to simply perceive competitor activity in the respective industry. Our services are also geared towards helping organizations procure market reports at the finest price.
About US
Research Report Hub
Sector 04, Plot 101, Sant Nagar,
Moshi PCNDTA, Pune, 412105
Maharashtra, India
Web:www.researchreporthub.com
Find us on: <||>rnhttps://www.facebook.com/reasearchreporthub/ <||>rnhttps://twitter.com/hub_report <||>rnhttps://www.linkedin.com/company/research-report-hub/
Contact Information:
Research Report Hub
Prakriti Mathur
Tel: +918448444687
Email us
----
This press release is posted on EmailWire.com -- a global newswire that provides Press Release Distribution Services with Guaranteed Results
Research Report Hub
Prakriti Mathur
Tel: +918448444687
Email us
----
This press release is posted on EmailWire.com -- a global newswire that provides Press Release Distribution Services with Guaranteed Results