Fire Localisation And Mitigation Emergencies Satellites: A Constellation of CubeSats in LEO for Monitoring Wildfires in Near Real-Time

Benjamin Verbeek, Luis Alberto Cañizares, Nicolas Oidtmann, Susanne Miranda Aalestrup, Hubert Gross, Lucile Siegfried, András Szilágyi-Sándor, Ties Rozema, Antonia Bieringer, Hya Mohamed, Andreea Lita, Ashley Shaw, Evelina Sakalauskaite, Théo Huegens, Ioanna Styliani Ellina, Benedikt Schmidt, Chiara Armandi, Davide Scalettari, Nikodem Bartnik, Timo PospišilAgnese Raia, Andreu Mas-Viñolas, Cristian Mihai Buta, Daniel Pavón Luque, Erwan Raguideau, Irene Saiz Briones, Miriam Abreu Neves, Daniel Wischert, Johan Vennekens, Patrick Lux

Research output: Contribution to book/anthology/report/conference proceedingConference abstract in proceedingResearchpeer-review

Abstract

The effects of global warming are already taking a toll on our planet. According to the US congressional research service an average of > 7 million acres are being burnt every year in the USA alone. The European Commission's “European Forest Fire report” has shown that the deforestation rates are increasing at an alarming rate and with hotter years and drier climates the amount of burnt land is only expected to increase. The paper outlines the Fire Localisation And Mitigation Emergencies Satellites (FLAMES), a constellation of 16 CubeSats (6U) in Low Earth Orbit (LEO) designed to monitor wildfires in near real-time with the ability of having worldwide coverage 24/7. The constellation consists of 8 High Field Of View (FOV)-Low Resolution satellites and 8 Low FOV-High Resolution satellites observing in the thermal infrared spectrum. The mission is designed to be launched by a single Vega-C rocket making use of the Small Spacecraft Mission Service (SSMS) platform and placed into a single plane Sun-synchronous orbit (SSO). FLAMES is a Phase 0 mission designed by university students during ESA Academy's CubeSat Summer School 2022 in the Training and Learning Facility at ESEC-Galaxia, Belgium. This mission study was a deliverable of the Concurrent Engineering Workshop guided by ESA System Engineers. The students were divided into several disciplines, each group dedicated to a different subsystem and worked together, making use of the Concurrent Model-based Engineering Tool (COMET) and supervised by ESA System Engineers. As a result, each different group showed a detailed analysis of their respective subsystem and reported on the lessons learnt during the Concurrent Engineering process. This paper provides an overview of the preliminary design of FLAMES and the Concurrent Engineering process applied during ESA Academy's CubeSat Summer School 2022 to develop this mission.

Original languageEnglish
Title of host publication74th International Astronautical Congress 2023
Number of pages1
Publication date2023
Publication statusPublished - 2023
Event74th International Astronautical Congress, IAC 2023 - Baku, Azerbaijan
Duration: 2 Oct 20236 Oct 2023

Conference

Conference74th International Astronautical Congress, IAC 2023
Country/TerritoryAzerbaijan
CityBaku
Period02/10/202306/10/2023
SeriesProceedings of the International Astronautical Congress, IAC
ISSN0074-1795

Bibliographical note

Publisher Copyright:
Copyright © 2023 by the International Astronautical Federation (IAF). All rights reserved.

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