MNOs leverage their 5G networks and services to provide vertical industries with dedicated solutions, including security services to make vertical applications secure and robust.
However, various vertical industries have different requirements related to security.
They may request customised network security protection from MNOs.
In this paper, the security requirements for 5G verticals in smart grid, UAS, healthcare, automotive and smart city are analysed and a framework of security capabilities is proposed.
A recommendation is provided to guide vertical industries on how to build and deploy appropriate security capabilities to improve the security level.
To ensure the coexistence of 5G and 4G Devices, enabling the use of the new 5G Core Network, operators need to manage a transition period in which both 5G deployment architectures are present.
Taking a devices perspective, this white paper looks specifically at how Mobile Network Operators (MNOs) who currently operate 4G and 5G Non Standalone (NSA) networks can evolve to support 5G Standalone (SA) networks.
This paper presents a way to handle and optimize this transition. The goal is not only to guarantee an effective usage of the most valuable FDD and TDD Sub-6 bands (< 6GHz) but also effective usage of all frequency assets.
The re-farming strategies that can be implemented by Operators will inevitably be influenced by the speed of penetration of 5G Devices and the frequency bands that they support. Accordingly, a potential migration timeline has been defined.
Consumers, businesses and industry more than ever require mobile connectivity that is secure, reliable and of high-quality. The radio link between the device and the network is a critical factor in realising these performance needs.
Our latest “Recommendation on Standards for Passive Base Station Antenna Systems” provides the industry with an updated set of parameter definitions, measurement methodologies and reporting processes. This enables a uniform way to describe the electrical and mechanical characteristics of the network side of the radio link (the “base station antenna”).
Key updates include the addition of electrical parameters of passive antennas with beamforming capabilities (e.g. 8T8R antennas) as well as wind load polar charts measured in a wind tunnel to provide important data which engineers can use to confidently construct lighter radio masts with clear benefits to reducing materials usage in network build outs.
By using such a common approach describing passive base station antennas, mobile networks can be better and more cost-effectively planned, engineered, and operated to ensure the high-quality mobile service that users, businesses and industry demand.
https://www.ngmn.org/wp-content/uploads/220317_NGMN_BASTA-PA-v12.0-scaled.jpg25601810adminhttps://www.ngmn.org/wp-content/uploads/ngmn-logo-1.svgadmin2022-04-20 17:59:372022-06-22 13:48:44NGMN BASTA PASSIVE ANTENNAS WHITE PAPER v12
The 5G network slicing can provide on-demand network slices to satisfy different service requirements. However, how to guarantee the network slicing service quality of 5G devices by the network slicing test based on the actual network elements is still a technical gap to be addressed.
Therefore, the fundamental purpose of this document is to provide a testing framework for 5G device network slicing pre-commercial trials based on the actual network elements, which include the test cases of the configuration and usage of NSSAI, UE route selection policy, interworking with EPC and other service specific network slicing test cases.
https://www.ngmn.org/wp-content/uploads/220228_Definition-of-the-Testing-Framework_Cover.jpg35082480datenflusshttps://www.ngmn.org/wp-content/uploads/ngmn-logo-1.svgdatenfluss2022-03-02 12:50:382022-03-25 14:43:58DEFINITION OF THE TESTING FRAMEWORK FOR 5G DEVICE NETWORK SLICING PRE-COMMERCIAL TRIALS
The identification of 6G use cases is key to predicting major trends in future usage scenarios and will help to steer the needs and requirements for future generational change. Therefore, operators, technology suppliers and academic advisors in NGMN joined forces and contributed their views on which 6G use cases they predict will emerge in the future decade. The result is published in NGMN’s “6G Use Cases and Analysis” White Paper.
https://www.ngmn.org/wp-content/uploads/220218-NGMN-6G-Use-Cases-and-Analysis_Cover-scaled.jpg25601810adminhttps://www.ngmn.org/wp-content/uploads/ngmn-logo-1.svgadmin2022-02-22 10:50:152022-03-16 10:52:296G USE CASES AND ANALYSIS
NGMN 5G Network Security Capability Framework for Verticals
//in Publications //by Nadine FaßbenderMNOs leverage their 5G networks and services to provide vertical industries with dedicated solutions, including security services to make vertical applications secure and robust.
However, various vertical industries have different requirements related to security.
They may request customised network security protection from MNOs.
In this paper, the security requirements for 5G verticals in smart grid, UAS, healthcare, automotive and smart city are analysed and a framework of security capabilities is proposed.
A recommendation is provided to guide vertical industries on how to build and deploy appropriate security capabilities to improve the security level.
NGMN 5G Devices SA Migration Scenarios
//in Publications //by chrisTo ensure the coexistence of 5G and 4G Devices, enabling the use of the new 5G Core Network, operators need to manage a transition period in which both 5G deployment architectures are present.
Taking a devices perspective, this white paper looks specifically at how Mobile Network Operators (MNOs) who currently operate 4G and 5G Non Standalone (NSA) networks can evolve to support 5G Standalone (SA) networks.
This paper presents a way to handle and optimize this transition. The goal is not only to guarantee an effective usage of the most valuable FDD and TDD Sub-6 bands (< 6GHz) but also effective usage of all frequency assets.
The re-farming strategies that can be implemented by Operators will inevitably be influenced by the speed of penetration of 5G Devices and the frequency bands that they support. Accordingly, a potential migration timeline has been defined.
NGMN BASTA PASSIVE ANTENNAS WHITE PAPER v12
//in Publications //by adminConsumers, businesses and industry more than ever require mobile connectivity that is secure, reliable and of high-quality. The radio link between the device and the network is a critical factor in realising these performance needs.
Our latest “Recommendation on Standards for Passive Base Station Antenna Systems” provides the industry with an updated set of parameter definitions, measurement methodologies and reporting processes. This enables a uniform way to describe the electrical and mechanical characteristics of the network side of the radio link (the “base station antenna”).
Key updates include the addition of electrical parameters of passive antennas with beamforming capabilities (e.g. 8T8R antennas) as well as wind load polar charts measured in a wind tunnel to provide important data which engineers can use to confidently construct lighter radio masts with clear benefits to reducing materials usage in network build outs.
By using such a common approach describing passive base station antennas, mobile networks can be better and more cost-effectively planned, engineered, and operated to ensure the high-quality mobile service that users, businesses and industry demand.
DEFINITION OF THE TESTING FRAMEWORK FOR 5G DEVICE NETWORK SLICING PRE-COMMERCIAL TRIALS
//in Publications //by datenflussThe 5G network slicing can provide on-demand network slices to satisfy different service requirements. However, how to guarantee the network slicing service quality of 5G devices by the network slicing test based on the actual network elements is still a technical gap to be addressed.
Therefore, the fundamental purpose of this document is to provide a testing framework for 5G device network slicing pre-commercial trials based on the actual network elements, which include the test cases of the configuration and usage of NSSAI, UE route selection policy, interworking with EPC and other service specific network slicing test cases.
6G USE CASES AND ANALYSIS
//in Publications //by adminThe identification of 6G use cases is key to predicting major trends in future usage scenarios and will help to steer the needs and requirements for future generational change. Therefore, operators, technology suppliers and academic advisors in NGMN joined forces and contributed their views on which 6G use cases they predict will emerge in the future decade. The result is published in NGMN’s “6G Use Cases and Analysis” White Paper.