9.5. Bibliographic references#

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Zygmunt William Birnbaum. On the importance of different components in a multicomponent system. In Multivariate analysis, Vol. 2. 1968. URL: http://www.dtic.mil/docs/citations/AD0670563, doi:https://doi.org/10.21236/ad0670563.

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T. L. Chu, Meng Yue, M. Martinez-Guridi, and John R. Lehner. Review of quantitative software reliability methods. In Brookhaven National Laboratory, BNL-94047-2010. 2010. URL: https://www.osti.gov/biblio/1013511-OJPSKn/, doi:https://doi.org/10.2172/1013511.

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Creative Commons. Time-dependent system reliability. Online, 2022. URL: http://reliawiki.com/index.php/Time-Dependent_System_Reliability_(Analytical).

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ESA. Tec-qqd study - rams exploitation of in-orbit data (ride1). technical note 1: random and systematic failure modelling approach - user requirements. Technical Report, ESA, 2013.

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ESA-ESTEC. Ecss space engineering - operability. Technical Report, European Cooperation for Space Standardization, 2008. URL: https://ecss.nl/standard/ecss-e-st-70-11c-space-segment-operability/.

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James Daniel Esary and Harald. Ziehms. Reliability analysis of phased missions. In Reliability and fault tree analysis: Theoretical and applied aspects of system reliability and safety assessment. 1975. URL: https://www.dtic.mil/dtic/tr/fulltext/u2/a008290.pdf, doi:https://doi.org/10.21236/ada008290.

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EUROCAE. Guidelines for ans software safety assurance. Technical Report, EUROCAE, 2009. URL: https://global.ihs.com/doc_detail.cfm?document_name=EUROCAE%20ED%20153&item_s_key=00536615.

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EUROCAE. Software integrity assurance considerations for communication and navigation and surveillance and air traffic (cns/atm) systems. Technical Report, EUROCAE, 2012. URL: https://www.eurocae.net/news/posts/2021/february/ed-109a-corr-1-software-integrity-assurance-considerations-for-communication-navigation-surveillance-and-air-traffic-management-cnsatm-systems/.

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European Cooperation for Space Standardization (ECSS). Ecss space project management - project planning and implementation. Standard ECSS-M-ST-10C Rev. 1, ECSS, 2009. URL: https://ecss.nl/standard/ecss-m-st-10c-rev-1-project-planning-and-implementation/.

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Frank Hark, Robert W. Ring, Steven Novack, and Paul S. Britton. Common cause failure modeling in space launch vehicles. In 8th International Association for the Advancement of Space Safety (IAASS) Conference. 2015. URL: https://ntrs.nasa.gov/citations/20160007073.

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IEC. Application of markov techniques. Technical Report, International Electrotechnical Commission, 2006. URL: https://webstore.iec.ch/publication/4721.

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IEC. Analysis techniques for dependability - petri net techniques. Technical Report, International Electrotechnical Commission, 2012. URL: https://webstore.iec.ch/publication/7191.

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IEC. Reliability block diagrams. Technical Report, International Electrotechnical Commission, 2016. URL: https://webstore.iec.ch/publication/25647.

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Harry W. Jones. Common cause failures and ultra reliability. In 42nd International Conference on Environment Systems. 2012. URL: https://ntrs.nasa.gov/api/citations/20160005837/downloads/20160005837.pdf, doi:https://doi.org/10.2514/6.2012-3602.

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Kanoun K. Software reliability evaluation - current approaches and limitations. Technical Report, Advanced Workshop on Assessment of Reliability, 2014.

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Nancy Leveson. The role of software in spacecraft accidents. Journal of Spacecraft and Rockets - J SPACECRAFT ROCKET, 41:564–575, 2004. URL: https://arc.aiaa.org/doi/10.2514/1.11950, doi:10.2514/1.11950.

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Robyn R. Lutz. Analyzing software requirements errors in safety-critical, embedded systems. [1993] Proceedings of the IEEE International Symposium on Requirements Engineering, pages 126–133, 1993. URL: https://www.semanticscholar.org/paper/Analyzing-software-requirements-errors-in-embedded-Lutz/8de67d2ede799f881956a99f51e924c9320759a3, doi:https://doi.org/10.1109/ISRE.1993.324825.

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Swartwout M. All cubesats are not created equal: how mission success rates (and risks) change with the builder and mission type. In NASA-ESA-JAXA Trilateral Mission Assurance Conference 2018. 2018.

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Leila Meshkat, Liudong Xing, Susan K. Donohue, and Yong Ou. An overview of the phase-modular fault tree approach to phased mission system analysis. In SMC-IT. 2003. URL: https://trs.jpl.nasa.gov/handle/2014/7138.

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Adamantios Mettas. Reliability allocation and optimization for complex systems. Annual Reliability and Maintainability Symposium. 2000 Proceedings. International Symposium on Product Quality and Integrity (Cat. No.00CH37055), pages 216–221, 2000. URL: https://doi.org/10.1109/RAMS.2000.816310, doi:https://doi.org/10.1109/RAMS.2000.816310.

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Lecointe P., Biagi M., and Catani J.-P. The first 750 cubesats: mission success statistics - risk and insurance implications. In The 4S Symposium 2018. 2018.

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RTCA. Software considerations in airborne systems and equipment certification. Technical Report, RTCA SC- 167 / EUROCAE WG- 12, 2012. URL: https://www.academia.edu/24446830/SOFTWARE_CONSIDERATIONS_IN_AIRBORNE_SYSTEMS_AND_EQUIPMENT_CERTIFICATION.

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I. Krechevsky Secretary and Standards Board. Ieee recommended practice on software reliability. In IEEE Std 1633TM-2016. 2009. URL: https://ahvaz.ist.unomaha.edu/azad/temp/softarch/08-ieee-recommended-software-reliability-models-jelinski-musa-littlewood-exponential.pdf.

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Shubin Si, Mingli Liu, Zhong-yu Jiang, Tongdan Jin, and Zhiqiang Cai. System reliability allocation and optimization based on generalized birnbaum importance measure. IEEE Transactions on Reliability, 68:831–843, 2019. URL: https://ieeexplore.ieee.org/document/8657987, doi:https://doi.org/10.1109/TR.2019.2897026.

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Mark Smotherman and Kay Zemoudeh. A non-homogeneous markov model for phased-mission reliability analysis. IEEE Transactions on Reliability, 38:585–590, 1989. URL: https://ieeexplore.ieee.org/document/46486, doi:https://doi.org/10.1109/24.46486.

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ITEM Software. Event tree analysis. Online, 2022. URL: http://reliabilityeducation.com/intro_et.html.

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Arun Kumar Somani and Kishor S. Trivedi. Phased-mission system analysis using boolean algebraic methods. In SIGMETRICS 1994. 1994. URL: https://dl.acm.org/doi/10.1145/183018.183029, doi:https://doi.org/10.1145/183018.183029.

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José Torres-Toledano and Luis Sucar. Bayesian networks for reliability analysis of complex systems. Lecture Notes in Computer Science, 1484:465–465, 01 1998. URL: https://link.springer.com/chapter/10.1007/3-540-49795-1_17, doi:10.1007/3-540-49795-1_17.

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A. Vahl. Interaktive Zuverlässigkeitsanalyse von Flugzeug-Systemarchitekturen. Fortschritt-Berichte VDI.: Reihe 10 Informatik/Kommunikationstechnik. VDI-Verlag, 1998. ISBN 9783183565108. URL: https://books.google.fr/books?id=Z1i-tgAACAAJ.

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Philippe Weber, Gabriela Medina-Oliva, Christophe Simon, and Benoît Iung. Overview on bayesian networks applications for dependability, risk analysis and maintenance areas. Eng. Appl. Artif. Intell., 25:671–682, 2012. URL: https://www.sciencedirect.com/science/article/abs/pii/S095219761000117X?via%3Dihub, doi:https://doi.org/10.1016/j.engappai.2010.06.002.