5G: Review of 5G Technology Readiness and Commercialization
5G: Review of 5G Technology Readiness and Commercialization, is a Global Outlook Report that gives an overview of the emerging 5G standard and the main market requirement trends worldwide with a competitive insight to players driving 5G deployment. With the first 5G radio equipment now available, initiatl 5G deployments have begun, led by operators in Korea, Japan and the U.S. The introduction of the first 5G mobile handsets later in 2019, as well as further evolution of 5G radio and core specifications, will drive massive adoption of 5G beginning in 2020.
While pre-5G, pre-standards deployments have defined the 5G era thus far, significant hardening of standards related to both radio and core innovations took place in 2018. After completing the first 5G standard in December 2017 for ‘non-standalone’ 5G new radio (NR), the 3GPP, which defines the standards governing cellular technologies, approved the standalone version in June 2018. The non-standalone version enables 5G NR to be deployed on top of an existing LTE core; however, the standalone version enables operators to build greenfield all-5G networks.
Meanwhile, operators continue to refine the 5G core based on the service-based architecture (SBA). Building a 5G core will be crucial to enabling 5G-related features such as network slicing, but SBA represents a radical change in network design. The reference architecture for SBA is well defined, but the transition will be rocky. As a result, vendors are working with operators to enable a smooth transition to SBA-based 5G core.
5G transport requirements dictate significant increase of bandwidth to the RRU of 10 Gbps and more; backhaul connectivity to CU will scale to 100 Gbps. 5G advanced use cases have very stringent synchronization and latency requirements as well, and vendors need to offer solutions that fulfill these 5G transport requirements cost-effectively, while also taking into account physical constraints (space and power available). Vendors should also take into account interworking between 5G transport and 5G core, and deploy solutions that serve other network domains as well (fixed access, carrier Ethernet, etc.) to optimize costs of 5G transport deployment and operation.
The report identifies the technology underpinning the move toward deployment of 5G networks. The report focuses on key developments across the radio, core and transport network domains. The report also identifies the established and emerging vendors participating in the 5G market and identifies important networking innovations being developed to enable network operators to achieve 5G's full potential.
Reasons to buy
- The 5G Radio Access Network: Review about newly developed 5G RAN standards with insights to market requirement behind 5G RAN deployment and explanation to available and emerging 5G RAN technologies. In addition to competitive study of incumbent as well as relatively new players or challengers operating in this segment.
- The 5G Core: Discussion about newly developed 5G core standards with insights to market requirement behind 5G core deployment and explanation to available and emerging 5G core technologies. Offers competitive study of incumbent as well as relatively new players or challengers operating in this segment which is further sub-segmented into IP services infrastructure and evolved packet core.
- The 5G Transport Network: The importance of a programmable IP and optical transport network in order to achieve 5G's potential in terms of latency, reliability, and cost effectiveness.
- Key Recommendations: Set of key findings and critical considerations and recommendations for operators and vendors in 5G market.
- This report provides a global view of emerging standards for deploying 5G RAN as well as core network and trends in terms of market requirements, as well as competitive study of vendors/operators supporting 5G network deployment.
- This analysis is useful for telecom executives to evaluate their position vis-à-vis the major growth opportunities in 5G and make informed decisions about partner identification, strategic investments, value proposition and growth strategies to rapidly grow their 5G networks.
- Executive Summary
- Technology: The 5G Radio Access Network
- 5G RAN Standards
- 5G RAN Market Requirements
- 5G RAN Technologies
- 5G RAN Competitive Landscape
- Technology: The 5G Core
- Key Technologies and Capabilities for Evolution to 5G
- 5G Core Standards
- 5G Core Market Requirements
- 5G Core Competitive Landscape
- Technology: The 5G Transport Network
- 5G Transport Standards
- 5G Market Requirements
- 5G Transport Competitive Landscape
- Key Recommendations
- Acronyms and Definitions
- Companies Mentioned
- Related Research
- About GlobalData
- Contact Information
- List of Figures
- Exhibit 1: 5G Radio Standards Timeline
- Exhibit 2: 5G Market Requirements
- Exhibit 3: 5G Licensed Spectrum
- Exhibit 4: Cloud RAN Architectures
- Exhibit 5: Huawei 5G Presentation
- Exhibit 6: Massive MIMO Products
- Exhibit 7: Samsung 5G FWA Demo
- Exhibit 8: Service-Based Architecture
- Exhibit 9: 5G Core Flexibility Attributes
- Exhibit 10: Smooth Evolution to One Converged Core Network
- Exhibit 11: ZTE Telco DevOps
- Exhibit 12: Cisco Core
- Exhibit 13: Ericsson 5G Core System
- Exhibit 14: Huawei 5G Core Architecture
- Exhibit 15: Nokia Cloud-Native Core
- Exhibit 16: ZTE Common Mobile Core
- Exhibit 17: Affirmed Cloud-Native Mobile Core
- Exhibit 18: CORD as New Network Edge Platform
- Exhibit 19: Netcracker vEPC
- Exhibit 20: ITU-T Transport Reference Network
- Exhibit 21: ITU-T 5G Transport Latency Requirements
- Exhibit 22: Ericsson 5G Dense Urban Rooftop Install
- Exhibit 23: Nokia 5G Anyhaul Solution
- Exhibit 24: Fujitsu 5G Transport Proposition