Microwave antenna temperature of the earth from geostationary orbit

Njoku, E. G.; Smith, Ernest K.

doi:10.1029/rs020i003p00591

Cited by 3 publications

(1 citation statement)

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“…The systems noise temperature is different for uplink, ground terminal to satellite, and downlink, satellite to ground terminal. In the uplink 290K are considered as a worst case [26], so this antenna temperature will be used for the analysis.…”

Section: ) Noise Powermentioning

confidence: 99%

Assessing LoRa for Satellite-to-Earth Communications Considering the Impact of Ionospheric Scintillation

et al. 2020

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Since the appearance of 5G, Internet of Things (IoT) has gained an increased interest, with multiple technologies emerging and converging to cover different user needs. One of the biggest challenges today is to have global IoT coverage, ensuring seamless communication with IoT devices placed in rural and even remote areas. Satellite constellations, and in particular CubeSats orbiting in Low Earth Orbit, can provide a solution to these challenges. Out of the technologies available, LoRa (Long Range) has a great potential for implementation in space-to-Earth satellite communications. As the space-to-Earth channel is different with respect to the conventional Earth-to-Earth one, it is important to asses the capabilities of LoRa in this new environment. This paper presents a study of different LoRa device configurations to identify the constrains for each one and determine which one is better for particular mission requirements. Also, the effect of ionospheric scintillation is assessed with a SDR-based (Software-Defined Radio) test setup that evaluates the performance of this technology against with Humprey's ionospheric scintillation model. This phenomena produces deep signal intensity fadings and phase fluctuations in equatorial regions, and mainly phase fluctuations in high latitudes. The obtained metrics are the received power and the packet delivery ratio as a function of the intensity scintillation index, and show the robustness of the LoRa modulation in these new environments.

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Section: ) Noise Powermentioning

confidence: 99%