CubeSat Communications: Recent Advances and Future Challenges

Saeed, Nasir; Elzanaty, Ahmed; Almorad, Heba; Dahrouj, Hayssam; Al-Naffouri, Tareq Y.; Alouini, Mohamed‐Slim

doi:10.1109/comst.2020.2990499

Cited by 243 publications

(170 citation statements)

References 109 publications

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“…In the space arena, several industrial partners are joining the race to provide broadband internet access around the globe via thousands of satellites in low Earth orbit (LEO) (Saeed et al, 2020a). Amazon's Project Kuiper (Kuiper, 2020), for example, is planning to deploy 3,236 LEO satellites at altitudes between 590 and 630 km.…”

Section: Emerging Satellite Networkmentioning

confidence: 99%

When Wireless Communication Responds to COVID-19: Combating the Pandemic and Saving the Economy

Saeed

Bader²,

Al-Naffouri

et al. 2020

Front. Comms. Net.

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The year 2020 is witnessing a global health and economic crisis due to the COVID-19 pandemic. Countries across the world are using digital technologies to fight this global crisis. These digital technologies strongly rely, in one way or another, on the availability of wireless communication systems. This paper aims to outline the role of wireless communications in the COVID-19 pandemic from multiple perspectives. First, we show how wireless communication technologies are helping to combat this pandemic by monitoring the spread of the virus, enabling healthcare automation, and enabling virtual education and conferencing. We emphasize the importance of digital inclusiveness in the pandemic and possible solutions to connect the unconnected. Next, we discuss the challenges posed by the use of wireless technologies, including concerns about privacy, security, and misinformation. Later, we highlight the importance of wireless technologies in the survival of the global economy, such as automation of industries and supply chain, e-commerce, and supporting occupations that are at risk. Finally, we outline that the rapid development of wireless technologies during the pandemic is likely to be useful in the post-pandemic era.

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Section: Emerging Satellite Networkmentioning

confidence: 99%

When Wireless Communication Responds to COVID-19: Combating the Pandemic and Saving the Economy

Saeed

Bader²,

Al-Naffouri

et al. 2020

Front. Comms. Net.

Self Cite

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“…In both cases, the photons are lost, which constitute the quantum channel, without which no distribution of keys is possible. Several studies have been carried out to overcome these linking problems in the atmosphere, 50,51 working with infrared wavelengths, which apparently pass through the clouds without any problems, in fact, there are a couple of windows in the spectrum used for what is called Free Space Optical Communications that are around the 850 and 1550 nm. In other cases, it works in the order of 400 to 450 nm but with very high power, since while in the infrared it is enough with 2 W, in the near-ultraviolet, it works with up to 10 W. [52][53][54] Another apparently successful solution based on a satellite-drone configuration is presented in, 55 which can deal with the climate problem as long as it uses a large number of resources: satellite, high altitude unmanned aerial vehicle , 56,57 and low altitude drone, conforming to a drone-based local network.…”

Section: Environment Aspects Influencementioning

confidence: 99%

“…Despite what has been said, the reality is that when the climate intervenes, the difference between the apparent and the real is usually extravagantly large. 50,51 Another problem present in the case of satellite relays, is the time that said satellite is visible to ground stations in relation to the length of the message to be transmitted, the time it takes to create and distribute the key, encrypt the text with the key and transmit the encrypted text through the same satellite or through another means.…”

Section: Environment Aspects Influencementioning

confidence: 99%

Satellite quantum repeaters for a quantum Internet

Mastriani

Iyengar

2020

Quantum Engineering

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This work presents a satellite alternative to quantum repeaters based on the terrestrial laid of optical fiber, where the latter have the following disadvantages: a propagation speed (v) equal to 2/3 of the speed of light (c), losses and an attenuation in the material that requires the installation of a repeater every 50 km, while satellite repeaters can cover greater distances at a speed v = c, with less attenuation and losses than in the case of optical fiber except for relative environmental aspects to the ground-sky link, that is, clouds that can disrupt the distribution of entangled photons. Two configurations are presented, the first one of a satellite and the second one of two satellites in the event that both points on the ground cannot access the same satellite. Finally, a series of implementations for evaluating the performance and robustness of both configurations are implemented on a 5 qubits IBM Q processor.

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“…The link speed is of the order of Gigabits per second and Megabits per second. This range of values is considered feasible for realistic satellite communications as seen in [50]. Furthermore, the size of satellite data is of the order of Kilobytes and Megabytes.…”

Section: Performance Evaluation and Benefits -Compute Resource Relatementioning

confidence: 99%

Space Habitat Data Centers – For Future Computing

Periola¹,

Alonge²,

Ogudo³

2020

Preprint

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Data from sensor bearing satellites requires processing aboard terrestrial data centers that use water for cooling at the expense of high data transfer latency. The reliance of terrestrial data centers on water increases their water footprint and limits the availability of water for other applications. Therefore, data centers with low data transfer latency and reduced reliance on earth’s water resources are required. This paper proposes space habitat data centers (SHDCs) with low latency data transfer and that use asteroid water to address these challenges. The paper investigates the feasibility of accessing asteroid water and the reduction in computing platform access latency. Results show that the mean asteroid water access period is 319.39 days. The use of SHDCs instead of non-space computing platforms reduces access latency and increases accessible computing resources by (11.9% – 33.6%) and (46.7% – 77%) on average respectively.

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CubeSat Communications: Recent Advances and Future Challenges

Cited by 243 publications

References 109 publications

When Wireless Communication Responds to COVID-19: Combating the Pandemic and Saving the Economy

When Wireless Communication Responds to COVID-19: Combating the Pandemic and Saving the Economy

Satellite quantum repeaters for a quantum Internet

Space Habitat Data Centers – For Future Computing

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