Mathematical Foundations of System Safety Engineering

A Road Map for the Future

Richard R. Zito (Autor)

Buch | Hardcover

XVI, 347 Seiten

2019 | 1st ed. 2020
Springer International Publishing (Verlag)
978-3-030-26240-2 (ISBN)

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This graduate-level textbook elucidates low-risk and fail-safe systems in mathematical detail. It addresses, in particular, problems where mission-critical performance is paramount, such as in aircraft, missiles, nuclear reactors and weapons, submarines, and many other types of systems where "failure" can result in overwhelming loss of life and property. The book is divided into four parts: Fundamentals, Electronics, Software, and Dangerous Goods. The first part on Fundamentals addresses general concepts of system safety engineering that are applicable to any type of system. The second part, Electronics, addresses the detection and correction of electronic hazards. In particular, the Bent Pin Problem, Sneak Circuit Problem, and related electrical problems are discussed with mathematical precision. The third part on Software addresses predicting software failure rates as well as detecting and correcting deep software logical flaws (called defects). Thefourth part on Dangerous Goods presents solutions to three typical industrial chemical problems faced by the system safety engineer during the design, storage, and disposal phases of a dangerous goods' life cycle.

Richard R. Zito received his doctorate in physics from the University of Arizona. He is the author of over 100 articles, the inventor on 14 patents, and has been awarded four Small Business Innovation Research (SBIR) awards. In addition to system safety engineering, Dr. Zito's research interests include industrial micro-contamination control, optics, thin films, electronics and computer science, isotope geology, geophysics, planetary geology, space science, astronomy, spacecraft propulsion systems, and chemistry. Dr. Zito is presently the manager of Richard R. Zito LLC, a research company in Tucson, Arizona.

Introduction.- Decomposition of the Failure Histogram.- Bounding the "Black Swan" Probability.- The Risk Surface.- The Bent Pin Problem-I: Computer Search Methods.- The Bent Pin Problem-II: Matrix Methods.- The Bent Pin Problem-III: Number Theory Methods.- The Bent Pin Problem-IV: Limit Methods.- The Bent Pin Problem-V: Experimental Methods .- "Sneak Circuits" and Related System Safety Electrical Problems-I: Matrix Methods .- "Sneak Circuits" and Related System Safety Electrical Problems-II: Computer Search.- Methods.- Predicting Software Performance.- Alternative Flowcharts for a Mathematical Analysis of Logic.- Fail-Safe Control Software.- Design Phase Elimination of Beryllium.- Accelerated Age Testing of Explosives and Propellants.- The Movement of Inorganic Cadmium Through the Environment.- Epilogue .- GLOSSARY.- APPENDIX A "Long Tailed" Distribution.- APPENDIX B.- APPENDIX C.- APPENDIX D.- APPENDIX E.- APPENDIX F.- APPENDIX G.- APPENDIX H.- INDEX.

Erscheinungsdatum	23.11.2019
Zusatzinfo	XVI, 347 p. 192 illus., 83 illus. in color.
Verlagsort	Cham
Sprache	englisch
Maße	155 x 235 mm
Gewicht	703 g
Themenwelt	Naturwissenschaften ► Physik / Astronomie
	Technik ► Bauwesen
	Technik ► Maschinenbau
Schlagworte	Bent Pin, Sneak Circuit • Detection and correction of electronic hazards • Life cycle of materials • Quality Control, Reliability, Safety and Risk • System Safety Engineering • System Safety in Electronics, Software, and Danger • System Safety in Electronics, Software, and Dangerous Goods • System Safety in software engineering
ISBN-10	3-030-26240-5 / 3030262405
ISBN-13	978-3-030-26240-2 / 9783030262402
Zustand	Neuware