[論文レビュー] Artificial Intelligence for Satellite Communication and Non-Terrestrial Networks: A Survey
本調査は Satellite Communication (SATCOM) および Non-Terrestrial Networks (NTN) における AI/ML の適用を整理し、オンボードおよび地上での AI 展開のためのユースケース、アーキテクチャ、ハードウェア、課題、および将来の方向性を詳述します。
This paper surveys the application and development of Artificial Intelligence (AI) in Satellite Communication (SatCom) and Non-Terrestrial Networks (NTN). We first present a comprehensive list of use cases, the relative challenges and the main AI tools capable of addressing those challenges. For each use case, we present the main motivation, a system description, the available non-AI solutions and the potential benefits and available works using AI. We also discuss the pros and cons of an on-board and on-ground AI-based architecture, and we revise the current commercial and research activities relevant to this topic. Next, we describe the state-of-the-art hardware solutions for developing ML in real satellite systems. Finally, we discuss the long-term developments of AI in the SatCom and NTN sectors and potential research directions. This paper provides a comprehensive and up-to-date overview of the opportunities and challenges offered by AI to improve the performance and efficiency of NTNs.
研究の動機と目的
- Identify and classify AI/ML use cases in SATCOM and NTN across space, ground, and user segments.
- Analyze challenges and benefits of AI-enabled solutions for SATCOM system optimization and automation.
- Review current hardware platforms and architectures supporting AI/ML in satellite systems.
- Evaluate on-board vs. on-ground AI deployment trade-offs and their impact on OPEX and latency.
- Highlight future research directions and potential standards for AI in SATCOM/NTN.
提案手法
- Systematic literature review of journal and conference papers from IEEE, MDPI, Elsevier, and Wiley.
- OSI-oriented classification of SATCOM/NTN use cases and alignment with traditional network layers.
- Description of conventional tools, ML techniques, and training/inference paradigms for each use case.
- Assessment of AI hardware ecosystems and comparison of commercial AI chipsets for SATCOM applicability.
- Discussion of future deployment challenges, trends, and research directions.
実験結果
リサーチクエスチョン
- RQ1What are the major SATCOM/NTN use cases where AI/ML can add value?
- RQ2What are the challenges and trade-offs of onboard versus on-ground AI deployments in SATCOM/NTN?
- RQ3Which ML techniques (supervised, unsupervised, RL, DL) are most suitable for different SATCOM use cases?
- RQ4What are the current hardware options for implementing AI/ML in SATCOM, and how do they compare?
- RQ5What future directions and research gaps exist for AI in SATCOM and NTN?
主な発見
- The paper provides an extensive classification of SATCOM/NTN use cases and associates ML techniques with each case.
- It discusses onboard and on-ground AI architectures and their respective advantages and drawbacks.
- It reviews current hardware solutions and commercial AI chipsets relevant to SATCOM applications.
- It highlights how digital payloads and centralized/Cloud-like architectures enable data-driven optimization and automation in SATCOM/NTN.
- The survey identifies challenges and proposes future directions, including integration with NGSO, HAP/LAP, and space–air–ground networks.
- The methodology relies on a systematic literature review and OSI-oriented organization of use cases and solutions.
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