Multi-Layer Space Information Networks: Access Design and Softwarization

Al-Hraishawi, Hayder; Minardi, Mario; Chougrani, Houcine; Kodheli, Oltjon; Montoya, Jesus Fabian Mendoza; Chatzinotas, Symeon

doi:10.1109/access.2021.3131030

Cited by 23 publications

(22 citation statements)

References 31 publications

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“…Assuming a scenario where small satellites for downstream applications can directly access the Internet via a space-based Internet provider in a higher orbit, the small satellites can be constantly connected to the network without depending on a private or shared distributed network of ground stations [284]. This is certainly a game changer for the design and operation of future downstream satellite missions, since the communication link has to be pointing towards the sky instead of the Earth.…”

Section: B Broadband Connectivity For Space Missionsmentioning

confidence: 99%

A Survey on Nongeostationary Satellite Systems: The Communication Perspective

Al-Hraishawi

Chougrani

Kisseleff

et al. 2023

IEEE Commun. Surv. Tutorials

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The next phase of satellite technology is being characterized by a new evolution in non-geostationary orbit (NGSO) satellites, which conveys exciting new communication capabilities to provide non-terrestrial connectivity solutions and to support a wide range of digital technologies from various industries. NGSO communication systems are known for a number of key features such as lower propagation delay, smaller size, and lower signal losses in comparison to the conventional geostationary orbit (GSO) satellites, which can potentially enable latency-critical applications to be provided through satellites. NGSO promises a substantial boost in communication speed and energy efficiency, and thus, tackling the main inhibiting factors of commercializing GSO satellites for broader utilization. The promised improvements of NGSO systems have motivated this paper to provide a comprehensive survey of the state-of-theart NGSO research focusing on the communication prospects, including physical layer and radio access technologies along with the networking aspects and the overall system features and architectures. Beyond this, there are still many NGSO deployment challenges to be addressed to ensure seamless integration not only with GSO systems but also with terrestrial networks. These unprecedented challenges are also discussed in this paper, including coexistence with GSO systems in terms of spectrum access and regulatory issues, satellite constellation and architecture designs, resource management problems, and user equipment requirements. Finally, we outline a set of innovative research directions and new opportunities for future NGSO research.

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Section: B Broadband Connectivity For Space Missionsmentioning

confidence: 99%

A Survey on Nongeostationary Satellite Systems: The Communication Perspective

Al-Hraishawi

Chougrani

Kisseleff

et al. 2023

IEEE Commun. Surv. Tutorials

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“…This large number of diverse platforms imposes exceptional technical challenges on system control and operation, where they need to be built on an autonomous and dynamic network architecture [56]. Therefore, these various space and aerial platforms can be interconnected via inter-aerial links (IALs), inter-satellite links (ISLs) and inter-orbit links (IOLs) to construct a multilayer integrated NTN systems, which can support real-time communications, massive data transmission, and systematized information services [57].…”

Section: Non-terrestrial Network a General Descriptionmentioning

confidence: 99%

“…SDN enables agile and efficient network services through innovative and advanced resource management techniques. Within NTN context, SDN can play an important role owing to the offered operational flexibility, scalability, and the end-to-end service provisioning [57]. Furthermore, embedding SDN into satellites and aerial platforms can facilitate the interaction between non-terrestrial and terrestrial wireless networks, which allows addressing several coexisting challenges.…”

Section: Potential Solutionsmentioning

confidence: 99%

Characterizing and Utilizing the Interplay between Quantum Technologies and Non-Terrestrial Networks

Al-Hraishawi¹,

Rehman²,

Razavi³

et al. 2022

Preprint

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Quantum technologies have been widely recognized as one of the milestones towards the ongoing digital transformation, which will also trigger new disruptive innovations. Quantum technologies encompassing quantum computing, communications, and sensing offer an interesting set of advantages such as unconditional security and ultra-fast computing capabilities. However, deploying quantum services at a global scale requires circumventing the limitations due to the geographical boundaries and terrestrial obstacles, which can be adequately addressed by considering non-terrestrial networks (NTNs). In the recent few years, establishing multi-layer NTNs has been extensively studied to integrate space-airborne-terrestrial communications systems, particularly by the international standardization organizations such as the third-generation partnership project (3GPP) and the international telecommunication union (ITU), in order to support future wireless ecosystems. Indeed, amalgamating quantum technologies and NTNs will scale up the quantum communications ranges and provide unprecedented levels of security and processing solutions that are safer and faster than the traditional offerings. This paper provides some insights into the interplay between the evolving NTN architectures and quantum technologies with a particular focus on the integration challenges and their potential solutions for enhancing the quantum-NTN interoperability among various space-air-ground communications nodes. The emphasis is on how the quantum technologies can benefit from satellites and aerial platforms as an integrated network and vice versa. Moreover, a set of future research directions and new opportunities are identified.

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“…Its design is carried out by following well‐established procedures and by making use of prediction models with a solid background, which are continuously updated and improved (ITU‐R P.618‐13, 2017). Nevertheless, the GSO configuration also presents some drawbacks: it is not suitable for applications where, for instance, the length of the radio path to the satellite is challenging because of the limited output power of the ground (mobile) terminals (Al‐Hraishawi et al., 2021) or in the special case of providing an efficient downlink for Earth observation data, EODDL (Arapoglou & Panagopoulos, 2011). Consequently, the use of non‐GSO satellites is becoming more and more popular (Chen et al., 2021).…”

Section: Introductionmentioning

confidence: 99%