ELICITATION: A Satellite Constellation Simulator Using Multi-Agent Systems, Blockchain and the IoMT

With the continuous increase in the number of satellites orbiting Earth, the efficient and coordinated management of these assets becomes a critical concern. This paper introduces the innovative project Elicitation, a simulator for satellite constellations based on Multi-Agent Systems (MAS), Blockch...

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Main Authors: Silva Filho, Jose Edilson, Moreira, Nicolas de Araujo, Bourgais, Mathieu, Zanni-Merk, Cecilia, Vercouter, Laurent, Nunes Da Silveira, Jarbas Aryel, Abrahao Dos Santos, Walter
Format: Conference Proceeding
Language:English
Subjects:
Blockchain
Blockchains
Earth
Internet of Mobile Things and Nanosatellites
Meteorology
Monitoring
Multi-agent systems
Permissioned Network
Predictive models
Satellite constellations
Satellites
Security
Trajectory
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Summary:With the continuous increase in the number of satellites orbiting Earth, the efficient and coordinated management of these assets becomes a critical concern. This paper introduces the innovative project Elicitation, a simulator for satellite constellations based on Multi-Agent Systems (MAS), Blockchain, and the Internet of Mobile Things (IoMT). The current scenario highlights growing challenges in the supervision and coordination of satellites, emphasizing the need for automated solutions. Elicitation addresses this complexity by integrating MAS to simulate dynamic interactions between satellites in Earth climate monitoring tasks, taking advantage of blockchain technology to guarantee the security, transparency and integrity of the data generated. One notable aspect that contributes to Elicitation's appeal is its ability to take advantage of authentic satellite positioning data and real information relating to natural events. Consequently, the system operates autonomously to identify the ideal satellite capable of capturing data related to natural events at any given time. The average decision time per agent was 0.19 seconds for a collective set of 11 agents, corresponding to 11 satellites in a 120-day dataset with 43 target events.
ISSN:2642-7389
DOI:10.1109/ISCC61673.2024.10733588