This paper describes an academic project using Interdisciplinary Problem Based Learning (IPBL). Its main objective was to simulate the launching of a remote sensing microsatellite system based on the DO178C standard. The project was named the Brazilian Academic Microsatellite Launching Integrated System (Sistema Integrado de LANcamento de microSatelite Academico Brasileiro SI-LANSAB). On this project, students had to conceptualize, model, and develop a spatial realtime embedded system within 17 weeks, using the Scrum agile method and its best practices. The SI-LANSAB development project was divided into 5 groups or Scrum Teams (ST) to develop high cohesion and low coupling embedded system components. Each ST was assigned to integrate two different Cockpit Display Systems: the Launcher Cockpit Display - Control Station (LCD-CS) and the Satellite Cockpit Display - Control Station (SCD-CS). Both LCD-CS and SCD-CS were developed by using the SCADE Suite and Display, the Safety Critical Application Development Environment from ANSYS®, an Integrated Computer Aided Software Engineering Environment (ICASEE). The major contribution of this paper is the description of how to use Scrum method and SCADE system tools to develop a complex real-time spatial embedded system to accomplish an assigned mission.
An interdisciplinary academic project for spatial critical embedded system agile development
2015-09-01
1338029 byte
Conference paper
Electronic Resource
English
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