Global 5G Transport Networks Market Size, Share, Growth & Trends Analysis Report By End User (Enterprises, Telecom Operators, Government and Public Sector, Healthcare, Transportation), Distributed RAN (D-RAN), Cloud RAN (CRAN), Standalone Networks) And Regional Outlook, Growth Potential & Forecast 2024 – 2030

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Description

Scope of 5G Transport Networks Market

Examination of the major parts of 5G transport networks, such as fiber optic cables, radio access network (RAN) hardware, microwave and millimeter-wave lines, routers, switches, and other networking devices.  An analysis of the technologies—such as fiber-optic communication, Ethernet, packet switching, Time-Sensitive Networking (TSN), and synchronization techniques—that are employed in 5G transport networks to guarantee low latency and high dependability.

The Global 5G Transport Networks Market Is Driven by High Investments in 5G Infrastructure Across the Globe and Is Expected to Be Driven by Commercial Launches of 5G Products into The Market.

In terms of revenue, the global 5G Transport Networks Market is worth USD 0.33 billion at present and detailed market analysis reveals that it is estimated to surge to a valuation of USD 3.1 Billion by the end of 2030, at a phenomenal CAGR of 37%. The research looks at the market in terms of revenue in all of the key regions, which have been divided into countries.

Impact of COVID – 19

Disruptions to the supply chain, lockdown procedures, and travel restrictions have caused delays in the implementation of 5G transport network infrastructure. Network deployment timelines were slowed down by difficulties with equipment procurement, site installations, and construction activities. The pandemic caused a spike in e-commerce, telemedicine, online learning, and remote work, which raised the need for dependable and fast connectivity. The necessity for 5G transport networks to handle increased data traffic volumes and provide flawless connectivity has increased as a result of this shift in demand. Businesses were prompted to invest in technology that facilitate remote work, digital collaboration, and online service delivery as a result of the epidemic, which also spurred digital transformation activities across industries. As a result, there was a greater need for cutting-edge networking technologies to aid in the digitization process, such as 5G transport networks. Although the epidemic created temporary disruptions, it also made clear how crucial digital infrastructure and fast connectivity are to societal well-being and economic resilience. It is anticipated that when the epidemic passes, there will be a renewed emphasis on the deployment of 5G and on investments in transportation networks to facilitate future development and innovation.

5G Transport Networks Market: Growth Drivers

  • Increasing Demand for High-Speed Connectivity:

The growing demand for high-speed and low-latency connectivity for applications such as video streaming, cloud computing, augmented reality (AR), virtual reality (VR), and the Internet of Things (IoT) is driving the adoption of 5G networks, necessitating advanced transport networks to meet these demands.

  • Mobile Device Proliferation:

As the number of smartphones, tablets, wearables, and IoT devices that connect to 5G networks grows, so does the requirement for resilient transport networks that can efficiently handle enormous volumes of data traffic.

  • Edge Computing Emergence:

To support latency-sensitive applications and services, edge data centers must be connected to centralized data centers and cloud resources via high-capacity, low-latency transport networks.

5G Transport Networks Market: Restraints

  • Infrastructure Costs:

The construction of 5G transport networks necessitates substantial investment in new infrastructure, such as fiber-optic cables, microwave lines, and radio access network (RAN) equipment. High upfront expenses and infrastructure implementation issues may serve as obstacles to entry for operators.

  • Regulatory and Spectrum restrictions:

Regulatory restrictions such as spectrum allotment, site purchase, and right-of-way permissions may cause network deployment to be delayed, increasing project schedules and costs. Spectrum scarcity and regulatory compliance requirements present additional obstacles for operators.

  • Interoperability and Standardization:

Ensuring interoperability and standardization across diverse network parts, vendors, and technologies is critical for a smooth 5G network rollout and operation. The lack of interoperability standards may impede network scalability and vendor lock-in. 

5G Transport Networks Market: Opportunity Factors

  • Network Densification:

The development of dense networks that include small cells, distributed antenna systems (DAS), and macrocells allows transport network suppliers to offer scalable, high-capacity backhaul and fronthaul solutions.

  • Cloud-RAN and Virtualization:

The use of cloud radio access network (Cloud-RAN) architectures and network function virtualization (NFV) technologies allows operators to optimize network resources, improve efficiency, and lower operational costs, resulting in increased demand for virtualized transport solutions.

  • Enterprise and Industrial Applications:

As 5G expands beyond consumer markets to enterprise and industrial applications such as smart manufacturing, autonomous vehicles, remote healthcare, and smart cities, transport network vendors will have opportunities to deliver specialized connectivity solutions tailored to vertical industries.

5G Transport Networks Market: Challenges

  • Complexity of Network Planning and Optimization:

Designing and optimizing 5G transport networks to meet stringent performance requirements such as latency, throughput, and reliability while dealing with dynamic traffic patterns and evolving network architectures presents challenges for network planners and operators.

  • Scalability and Capacity Management:

Scaling transport networks to meet rising data traffic and user demand while maintaining effective resource utilization, network resilience, and quality of service (QoS) is a major problem for operators, particularly in dense urban areas.

  • Energy Efficiency and Sustainability:

Operators looking to cut operating costs and lower their environmental imprint are concerned about the energy consumption of 5G transport networks, which includes data centers, fiber-optic infrastructure, and radio access equipment. To achieve energy efficiency and sustainability goals demands innovative technology and best practices in network architecture.

5G Transport Networks Market: Recent Developments

  • Corning provides optical fiber and cable solutions for 5G transport networks, such as high-density fiber-optic cables and connectivity options. Corning’s EDGE8 solution and RocketRibbon cable technology may have been introduced recently for high-speed, high-density fiber deployments in 5G networks.
  • ZTE offers comprehensive 5G transport solutions, such as optical transport, microwave, and IP-based backhaul systems. Recent advances may include the use of ZTE’s ElasticNet solution and X-Haul architecture to create efficient and flexible transport networks in 5G deployments.
  • Ericsson provides a variety of 5G transport technologies, such as microwave, fiber-optic, and IP-based backhaul systems. Recent innovations may include improvements to Ericsson’s microwave radio technology, packet transport systems, and network management software to assist the implementation of high-capacity 5G networks.

5G Transport Networks Market: Key Outcomes of the Report

The timely delivery of 5G transport infrastructure was hindered by disruptions in the global supply chain, specifically in the manufacturing of networking equipment and components, resulting in delays and bottlenecks. Businesses have been investing in improving and expanding their 5G transport infrastructure as a result of the increase in internet consumption and the demand for digital services, which underlined the significance of network capacity and resilience.

Delays and bottlenecks resulted from disruptions in the global supply chain, which were especially problematic for the timely delivery of 5G transport infrastructure since they affected the manufacturing of networking equipment and components. The need for digital services and the increase in internet consumption brought attention to the reliability and capacity of networks, which incentivized businesses to invest in the development and expansion of 5G transport infrastructure.

Europe is expected to account for a significant portion of the global demand in the market, due to the presence of large vendors and carriers’ investment to launch technology in this region.

List of Key Players in the Global 5G Transport Networks Market

  • Cisco Systems, Inc.
  • Nokia Corporation
  • Huawei Technologies Co., Ltd.
  • Ericsson AB
  • ZTE Corporation
  • Samsung Electronics Co., Ltd.
  • Fujitsu Limited
  • NEC Corporation
  • Ciena Corporation
  • Juniper Networks, Inc.
  • CommScope Holding Company, Inc.
  • Corning Incorporated
  • Infinera Corporation
  • Mavenir Systems, Inc.
  • Telefonaktiebolaget LM Ericsson (publ)

5G Transport Networks Market: Segmentation

By Component

  • Fiber Optic Cables
  • Microwave Links
  • Millimeter-Wave Links
  • Radio Access Network (RAN) Equipment
  • Routers and Switches

By Deployment Model

  • Centralized RAN (C-RAN)
  • Distributed RAN (D-RAN)
  • Cloud RAN (CRAN)
  • Standalone Networks

By Type

  • Backhaul
  • Midhaul
  • Fronthaul

By End User

  • Enterprises
  • Telecom Operators
  • Government and Public Sector
  • Healthcare
  • Transportation

By Region

  • North America
  • Europe
  • Asia Pacific
  • Middle East and Africa
  • Latin America

Table of Content

1. Introduction
1.1. Market Definition
1.2. Market Scope
2. Research Methodology
2.1. Primary Research
2.2. Secondary Sources
2.3. Assumptions & Exclusions
3. Market Overview
3.1. Market Overview
3.2. Research Report Segmentation & Scope
3.3. Value Chain Analysis
3.4. Key Market Trend Analysis
3.4.1. Market Drivers
3.4.2. Market Restraint/Challenges
3.4.3. Market Opportunities
3.5. Porter’s Five Forces Analysis
3.6. Potential Venture Avenues
3.7. Market Share Analysis
3.8. Regulatory Framework
3.9. Marketing Strategy
3.10. Key Winning Strategy
3.11. Consumer Behavior Analysis
4. Product Overview
4.1. Introduction
4.2. Market Size & Forecast
4.2.1. Key Product
4.2.1.1. 5G RAN (Radio Access Network)
4.2.1.2. 5G Fronthaul and Backhaul Solutions
4.2.1.3. Transport Network Equipment
4.2.1.4. Network Slicing and Virtualization
4.2.1.5. Edge Computing Infrastructure
5. Application Overview
5.1. Introduction
5.2. Market Size & Forecast, 2020 to 2029
5.2.1. Key Applications
5.2.1.1. Mobile Backhaul
5.2.1.2. Fixed Wireless Access (FWA)
5.2.1.3. Enterprise Connectivity
5.2.1.4. Smart Cities
5.2.1.5. Industrial IoT (IIoT) and Industry 4.0
6. End Users Overview
6.1. Introduction
6.2. Market Size & Forecast, 2020 to 2029
6.2.1. Enterprises
6.2.2. Telecom Operators
6.2.3. Government and Public Sector
6.2.4. Healthcare
6.2.5. Transportation
7. Regional Overview
7.1. Introduction
7.2. Market Size & Forecast
7.2.1. Americas
7.2.1.1. North America
7.2.1.1.1. U.S.
7.2.1.1.2. Canada
7.2.1.2. South America
7.2.2. Europe
7.2.2.1. Western Europe
7.2.2.1.1. Germany
7.2.2.1.2. France
7.2.2.1.3. U.K.
7.2.2.1.4. Italy
7.2.2.1.5. Spain
7.2.2.1.6. Rest Of Western Europe
7.2.2.2. Eastern Europe
7.2.3. Asia Pacific
7.2.3.1. China
7.2.3.2. Australia
7.2.3.3. Japan
7.2.3.4. India
7.2.3.5. Republic of Korea
7.2.3.6. Rest of Asia Pacific
7.2.4. The Middle East & Africa
7.2.4.1. The Middle East
7.2.4.1.1. UAE
7.2.4.1.2. Saudi Arabia
7.2.4.1.3. Kuwait
7.2.4.1.4. Qatar
7.2.4.1.5. Rest of the Middle East
7.2.4.2. Africa
8. Manufacturer/ Vendor Profile
8.1. The following attributes will be considered while profiling key manufacturers in this industry:
8.1.1. Company Overview
8.1.2. Financial Synopsis
8.1.3. Recent Developments
8.1.4. R&D Investments (if any)
8.1.5. Strategy Overview (Analyst Perspective)
8.1.6. Product Portfolio
8.2. Companies Profiled
8.2.1. Cisco Systems, Inc.
8.2.2. Nokia Corporation
8.2.3. Huawei Technologies Co., Ltd.
8.2.4. Ericsson AB
8.2.5. ZTE Corporation
8.2.6. Samsung Electronics Co., Ltd.
8.2.7. Fujitsu Limited
8.2.8. NEC Corporation
8.2.9. Ciena Corporation
8.2.10. Juniper Networks, Inc.
8.2.11. CommScope Holding Company, Inc.
8.2.12. Corning Incorporated
8.2.13. Infinera Corporation
8.2.14. Mavenir Systems, Inc.
8.2.15. Telefonaktiebolaget LM Ericsson (publ)

Frequently Asked Questions (FAQ):

  • What are the 5G transport networks?

    5G transport networks are the underlying architecture and technology that facilitate data transmission between 5G base stations (gNBs) and core network elements. These networks provide the backhaul and fronthaul connectivity required for high-speed, low-latency communication between users, devices, and cloud services in 5G deployments.
  • What role do transport networks play in 5G rollouts?

    Transport networks are crucial to 5G deployments because they provide the high-capacity, low-latency connectivity needed to support enormous increases in data traffic and the deployment of new 5G services and applications. They help to transfer data efficiently between base stations, core network parts, and external network resources.
  • What are the main technologies used in 5G transportation networks?

    Technologies as Fiber-optic cables, microwave links, millimeter-wave (mmWave) radio, software-defined networking (SDN), network function virtualization (NFV), edge computing, and network slicing are all key technologies in 5G transport networks. These technologies allow high-speed, flexible, and scalable connectivity to meet a variety of 5G use cases and needs.

Buying Options

Original price was: $6,000.00.Current price is: $5,100.00.
Original price was: $5,000.00.Current price is: $4,500.00.
Original price was: $4,000.00.Current price is: $3,800.00.