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CubeSat Development for Lightning Flashes Detection: RaioSat Project

Annually, severe weather phenomena are responsible for tens of thousands of deaths and tens of billions of dollars of damage around the world. In Brazil, unlike other hydrometeorological events, severe atmospheric events are random and, therefore, do not have a sociospatial pattern. Because of that,...

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Published in:	Journal of aerospace technology and management 2020-01, Vol.12 (12), p.80-93
Main Authors:	Filho, Antonio Cassiano Julio, Tikami, Auro, Paula, Elaine de Souza Ferreira de, Piñeros, Jhonathan Murcia, Fernandes, George Favale, Camargo, Lázaro Aparecido Pires, Santos, Carlos Alberto Monteiro Barbosa dos, Santos, Walter Abrahão dos, Naccarato, Kleber Pinheiro
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Language:	English
Subjects:	atmospheric digital cameras lightning nanosatellites phenomena systems design
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creator	Filho, Antonio Cassiano Julio Tikami, Auro Paula, Elaine de Souza Ferreira de Piñeros, Jhonathan Murcia Fernandes, George Favale Camargo, Lázaro Aparecido Pires Santos, Carlos Alberto Monteiro Barbosa dos Santos, Walter Abrahão dos Naccarato, Kleber Pinheiro
description	Annually, severe weather phenomena are responsible for tens of thousands of deaths and tens of billions of dollars of damage around the world. In Brazil, unlike other hydrometeorological events, severe atmospheric events are random and, therefore, do not have a sociospatial pattern. Because of that, there is a significant motivation to improve the prediction techniques for this kind of events, using high resolution numerical models. A large amount of high-quality observational data is required, including lightning data in a very short-range. In addition, the detection of lightning flashes produced by storms is important for a wide variety of applications and in some areas of scientific research, which include the understanding of the human action on the climate and how the climate change can affect the behavior of storms in long range. One method to monitor the lightning flashes is the implementation of sensors in satellites to obtain data. In this sense, the objective of the RaioSat project is to develop national technology for detecting lightning flashes from the space, in order to complement the existing data from the ground detection network, BrasilDAT. The main objective of this article is to present a methodology for the development of the RaioSat mission including some parts of the preliminary design and operational modes. Additionally, the article describes the expected results and the continuity of the project and a preliminary analysis of a constellation for future projects.
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subjects	atmospheric digital cameras lightning nanosatellites phenomena systems design
title	CubeSat Development for Lightning Flashes Detection: RaioSat Project
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