Tokyo, August 19, 2021 – NEC Corporation (NEC; TSE 6701) and Fujitsu Limited (Fujitsu; TSE 6702) have begun developing technologies for interoperability testing (*1) between 5G base station equipment conforming to O-RAN specifications at NEC’s U.K. laboratories and Fujitsu’s U.S. laboratories. This initiative will be implemented as part of the “Post 5G Infrastructure Enhancement R&D Project” under the New Energy and Industrial Technology Development Organization (NEDO) of Japan. Both companies are scheduled to build a verification environment using these technologies in their respective laboratories from August of this year and will begin interoperability testing. Leveraging this verification environment offers the potential to significantly streamline interoperability verification between base station equipment from different vendors.
Through this initiative, NEC, Fujitsu, and NEDO will accelerate the global reach of base station equipment that conforms to O-RAN specifications and contribute to stimulating growth and innovation in the open 5G market.
1. Summary
With the start of 5G commercial services in various countries, post 5G (*2) with enhanced functions such as ultra-low latency and multiple simultaneous connections is expected to be used in a variety of industries, such as automobile factories. It is expected that the technologies that realize these functions will serve as the core of Japan’s competitiveness.
In recent years, base station equipment has become more open due to O-RAN fronthaul interface specifications (*3) formulated by the O-RAN Alliance (*4), and it is becoming possible to connect to RUs (radio units) and CUs / DUs (central units / distributed units) from a variety of vendors. However, in order to quickly verify interoperability between different vendors’ equipment, it is necessary to establish a verification process, develop tools that can be used in common, and to develop a verification environment.
Under these circumstances, NEDO commissioned NEC and Fujitsu to conduct R&D on assessment and verification technologies for interoperability between base station equipment in the “Post 5G Infrastructure Enhancement R&D Project,” which is scheduled to run from FY2020 to FY2023. In response, NEC and Fujitsu are building an environment and developing technologies to assess and verify the interoperability of different vendors’ equipment and the impact of such connections on the entire network.
NEC and Fujitsu have begun developing technologies to verify base station equipment interoperability at their respective facilities in the U.K and the U.S. NEC is conducting trials at its Open RAN laboratory in NEC Europe Ltd., London, U.K., while Fujitsu is doing so at its laboratory hosted at Fujitsu Network Communications, Inc., a Fujitsu group company in the United States.
2. Characteristics of technology for interoperability verification and establishment of a verification environment
- 1)
Significantly improve the efficiency of interoperability verification
NEC and Fujitsu will combine their many years of experience and know-how in developing base station equipment compliant with O-RAN fronthaul interface specifications. The two companies will develop technologies to verify the interoperability of various vendors’ equipment for O-RAN fronthaul. The technologies include FHA (*5), P-DU (*6), test scenario extraction tools (*7), test parameter change tools (*8), and validation result determination tools (*9). Introducing these technologies into the verification environments of both companies’ laboratories will make it possible to significantly improve the efficiency of interoperability verification for different vendors’ equipment. - 2)
Verification under conditions close to commercial environments
In this project, NEC’s lab in the U.K. and Fujitsu’s lab in the U.S. will make it possible to implement a Conformance Test System that can perform standard tests in accordance with O-RAN specifications and to implement an End-to-End (E2E) Test System that can verify the connection from the core network to the terminal. In addition, by incorporating the newly developed technologies into the interoperability test systems, it will be possible to efficiently conduct system-wide normality verification and performance verification under conditions that are close to the commercial environments of each country and business.
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