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Accidents and crises, whether climatic, economic, or social are undesirably frequent in everyday lives. In such situations, lives are sometimes lost because of inadequate management, lack of qualified and accurate information, besides other factors that prevent full situational awareness. The goal of this work is to report on an academic conceptualization, design, build, test, and demonstration of computer systems, to manage critical information, during hypothetical crises. During the development of an academic system in the second Semester of 2015 at the Brazilian Aeronautics Institute of Technology, the following challenges occurred: strict specifications, agile methods, embedded systems, software testing, and product assessment. Also, some quality, reliability, safety, and testability measurements have been used. At that time, an Interdisciplinary Problem-Based Learning (IPBL) was performed, adding hardware technologies of environment sensors, Radio Frequency Identification (RFID), and Unmanned Aerial Vehicles (UAVs). Software technologies were used for cloud-based web-responsive platform and a mobile application to geographically manage resources at real-time. Finally, the ANSYS® SCADE (Safety-Critical Application Development Environment) was employed to support the embedded and safety-critical portion of this system.
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UNISDR Terminology. Available: https://www.unisdr.org/we/inform/terminology. Access on 18 Mar 2016.
Rubin, K. S. (2013). Essential SCRUM: A practical guide to the most popular agile process. New York: Addison-Wesley.
Sutherland, J., & Schwaber, K. (2013). The definitive guide to scrum: The rules of the game. Available: http://www.scrumguides.org/docs/scrumguide/v1/Scrum-Guide-US.pdf. Access in 18 Mar 2016.
RTCA DO-178C. (2011). Software considerations in airborne systems and equipment certification. Washington, DC: Radio Technical Commission for Aeronautics (RTCA).
Rierson, L. (2013). Developing safety-critical software: A practical guide for aviation software and DO-178C compliance. New York: CRC Press.
Pressman, R. S. (1997). Software engineering a practitioners approach (4th ed.). New York: McGraw-Hill.
Copeland, L. (2007). A practitioner’s guide to software test design. Norwood: Artech House Publishers.
Crispin, L., & Gregory, J. (2015). More agile testing. New York: Addison-Wesley.
Jorgensen, P. C. (2014). Software testing – A craftsman’s approach (4th ed.). Boca Raton: CRC Press.
Astels, D. (2003). Test-driven development: A pratical guide. London: Prentice Hall.
Beck, K. (2002). Test-driven development by example. Boston: Addison Wesley.
Esterel Technologies. Available at: http://www.esterel-technologies.com/products/scade-arinc-661/. Accessed on 26 Mar 2016.
Esterel Technologies “SCADE Suite”. Available at: http://www.esterel-technologies.com/products/scade-suite/. Accessed on 26 Mar 2016.
- An Agile Developed Interdisciplinary Approach for Safety-Critical Embedded System
Gildarcio Sousa Goncalves
Paulo Diego da Silva
Paulo Marcelo Tasinaffo
Adilson Marques da Cunha
Luiz Alberto Vieira Dias
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