Kumar, SumitSumitKumarMeshram, Ashish KumarAshish KumarMeshramAstro, AbdelrahmanAbdelrahmanAstroQuerol, JorgeJorgeQuerolSchlichter, ThomasThomasSchlichterCasati, GuidoGuidoCasatiHeyn, ThomasThomasHeynVölk, FlorianFlorianVölkSchwarz, Robert T.Robert T.SchwarzKnopp, AndreasAndreasKnoppMarques, Paulo Jorge CoelhoPaulo Jorge CoelhoMarquesPereira, LuísLuísPereiraMagueta, RobertoRobertoMaguetaKapovits, ÁdámÁdámKapovitsKaltenberger, FlorianFlorianKaltenberger2023-07-252023-07-252022https://publica.fraunhofer.de/handle/publica/44601610.1109/FNWF55208.2022.000942-s2.0-85150255910Technical advancements and experimental works for the integration of 5G and Non-Terrestrial Networks (NTN) have gained significant traction over the past few years. NTN components have been officially included in the 5G ecosystem by 3GPP in the latest Release-17. 5G-NTN research is ongoing and it is desirable to have a platform that facilitates quick prototyping of the proof-of-concept methods. OpenAirInterface(OAI) is an open-source experimental yet 3GPP standard-compliant Software Defined Radio (SDR) based protocol stack that has been widely known for implementing 4G/5G technologies. Due to its proven capabilities and flexibility, OAI is currently in the developmental process of integrating adaptations for the 5G-NTN. In this work, we discuss the peculiar features of OAI which are shaping it towards becoming a preferred tool for research and experimentation related to 5G-NTN. We provide details of completed/ongoing 5G-NTN projects leveraging OAI to achieve their objectives. In particular, we discuss 5G-GOA and 5G-LEO where critical adaptations in OAI are being done to support 5G-NTN use-cases. Such adaptations enable direct-access between UE and gNB via transparent payload Geostationary (5G-GOA) and Non-geostationary satellites (5G-LEO). Both projects have closely followed 3GPP discussions over 5G-NTN and the adaptations are compliant with the currently frozen 3GPP Release-17. OAI adaptations from both projects will be merged into the main development branch of OAI. We also provide a future roadmap of OAI towards 5G-NTN development. We believe that the pioneering steps taken in the course of the aforementioned projects will establish OAI as a preferred tool for 5G-NTN research and experimentations.en5GNon-Terrestrial NetworksOpenAirInterfaceSoftware Defined Radioconference paper