Abstract
Direct-to-Satellite (DtS) connectivity is one of the further components of the development towards the 6G communications networks. It can enable global wireless coverage for Internet of Things (IoT) applications while complementing terrestrial networks. Specifically, DtS can offer seamless connectivity for the machine applications operating in remote areas where terrestrial coverage is limited or unavailable. This paper reviews the DtS IoT networks state-of-the-art and offers an overview focusing on its fundamental components and key requirements. Particularly, we discuss the two fundamental architecture alternatives namely, DtS and indirect-to-satellite (ItS) for supporting IoT services and pinpoint their key trade-off, pros, and cons. We also present the potential DtS applications and their relevant data traffic models and requirements. Finally, we identify some open challenges including (i) link budget aspects; (ii) spectrum limitations and regulations; (iii) massive connectivity demands and interference; and (iv) synchronization problems owing to satellite mobility. This paper also presents several potential future research directions in the context of DtS IoT networks.
Original language | English |
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Title of host publication | IEEE 9th World Forum on Internet of Things (WF-IoT 2023) |
Publisher | IEEE Institute of Electrical and Electronic Engineers |
Publication status | Accepted/In press - 16 Oct 2023 |
MoE publication type | A4 Article in a conference publication |
Event | 9th IEEE World Forum on Internet of Things, IEEE WFIoT2023 - Aveiro, Portugal Duration: 12 Oct 2023 → 27 Oct 2023 |
Conference
Conference | 9th IEEE World Forum on Internet of Things, IEEE WFIoT2023 |
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Country/Territory | Portugal |
City | Aveiro |
Period | 12/10/23 → 27/10/23 |
Funding
This research was supported by the Business Finland project Drolo and Research Council of Finland (former Academy of Finland) 6G Flagship Programme (Grant Number: 346208). The studies of K. Mikhaylov were supported by Research Council of Finland (former Academy of Finland) MRATSafeDrone (341111) project. We are thankful to the Finnish foundations including Walter Ahlstrom, Tauno Tönningin Säätiö, Riitta ja Jorma J. Takasen and Nokia foundation for supporting this study.
Keywords
- LoRaWAN
- wireless communications
- Doppler effect
- direct-to-satellite
- satellite communications
- internet of Things