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  1. Rausand, M., Barros, A., and Hoyland, A., System reliability theory: Models, statistical methods, and applications, Third edition. Wiley series in probability and statistics. Hoboken NJ: John Wiley & Sons Inc, 2020.
  2. Rausand, M. and Hoyland, A., System reliability theory: models, statistical methods, and applications /  Marvin Rausand, Arnljot Hoyland , 2nd ed. Wiley series in probability and statistics. Applied probability and statistics. Hoboken, NJ, Chichester: Wiley-Interscience, 2004.
  3. Birolini, A., Reliability engineering: theory and practice, 8th edition. New York NY: Springer Berlin Heidelberg, 2017.
  4. Kumamoto, H. and Henley, E. J., Probabilistic risk assessment and management for engineers and scientists, 2nd ed. New York: IEEE Press, 1996.
  5. Saglietti, F. and Oster, N., Computer safety, reliability, and security: 26th international conference, SAFECOMP 2007, Nuremberg, Germany, September 18-21, 2007 ; proceedings /  Francesca Saglietti, Norbert Oster (eds.) . Lecture notes in computer science,  0302-9743 4680. Berlin: Springer, 2007. www.springer.com/gb/  BLDSS.
  6. Börcsök, J., Electronic safety systems: hardware concepts, models, and calculations . Heidelberg: Hüthig, 2004.
  7. Börcsök, J., Functional Safety: Basic Principles of Safety-related Systems, 2nd, 02nd edition. Berlin: VDE VERLAG, 2017.
  8. Börcsök, J., Functional safety: basic principles of safety-related systems, 5th, revised edition. Berlin: VDE VERLAG, 2021.
  9. Marszal, E. M. and Scharpf, E. W., Safety integrity level selection: systematic methods including layer of protection analysis /  Edward M. Marszal, Eric W. Scharpf . Research Triangle Park, NC: Instrumentation, 2002.
  10. Great Britain. Health and Safety Executive, Out of control: why controls system go wrong and how to prevent failure, 2nd ed. Sudbury: HSE Books, 2003.
  11. ISO 26262:2018, Road vehicles - Functional safety - Parts 1-12, 2018.
  12. IEC 61508:2012 Parts 1-7, Functional safety of electrical/electronic/programmable electronic safety-related systems.
  13. DIN EN ISO 13849 Part 1 2016, DIN EN ISO 13849 Part 2 2008
  14. VDE VDI 2180: 2019; Safeguarding of process engineering plants by means of process control technology (PCT)
  15. DIN EN 61511-1 : 2019, Functional safety - Safety-related systems for the process industry
  16. Smith, D. J. and Simpson, K. G. L., Safety critical systems handbook: A straightforward guide to functional safety, IEC 61508 (2010 edition), IEC 61511 (2015 edition) and related guidance, Fourth edition. Amsterdam: Butterworth-Heinemann, 2016.
  17. Griffor, E. R., Handbook of system safety and security: cyber risk and risk management, cyber security, threat analysis, functional safety, software systems, and cyber physical systems /  edited by Edward Griffor . Rockland: Syngress, 2016.
  18. Medoff, M. D. and Faller, R. I., Functional safety: An IEC 61508 SIL 3 compliant development process, 3rd ed. Sellersville, Pa. exida, 2014.
  19. Marszal, E. M. and Scharpf, E. W., Safety integrity level selection: systematic methods including layer of protection analysis /  Edward M. Marszal, Eric W. Scharpf . Research Triangle Park, NC: Instrumentation, 2002.
  20. Thomson, J., High integrity systems and safety management in hazardous industries. Amsterdam: Butterworth-Heinemann, 2015.
  21. Institution of Chemical Engineers (Great Britain); European Process Safety Centre, Safety integrity: the implications of IEC 61508 and other standards for the process industries: proceedings of the European Process Safety Centre conference, 5 November 1999, La Maison de la Chimie, Paris . Rugby: Institution of Chemical Engineers, 2000.
  22. Hobbs, C., Embedded software development for safety-critical systems , 1st ed. Boca Raton: Auerbach, 2015.
  23. Dearden, H. T., Functional safety in practice , Third edition. Cheshire: SISSuite Publication, 2020.
  24. Functional Safety in the Process Industry : A Handbook of Practical Guidance in the Application of IEC61511 and ANSI/ISA-84.
  25. ISO 26262 A Complete Guide - 2020 Edition
  26. System and software verification using Petri nets: For functional safety of ISO-26262 requirements
  27. Functional Safety and Proof of Compliance
  28. IEC 61508 Standard Requirements
  29. American Institute of Chemical Engineers. Center for Chemical Process Safety, Guidelines for hazard evaluation procedures, 3rd ed. Hoboken, N.J. Wiley-Interscience; [Chichester:  John Wiley [distributor], 2008.
  30. Ericson, C. A., Hazard analysis techniques for system safety . Hoboken, N.J. Wiley; Chichester:  John Wiley [distributor], 2005.
  31. Fowler, K. R., Mission-critical and safety-critical systems handbook: Design and development for embedded applications /  edited by Kim Fowler ; technical consultant, Sharfus Draid, Inc. Amsterdam, Boston: Elsevier/Newnes, 2010.
  32. Goble, W. M. and Cheddie, H., Safety instrumented systems verification: practical probabilistic calculations /  William M. Goble, Harry Cheddie . Research Triangle Park, NC: ISA-The Instrumentation, 2005.
  33. Smith, D. J., Reliability, maintainability, and risk: Practical methods for engineers /  David J. Smith, 8th ed. Amsterdam, Boston: Butterworth-Heinemann/Elsevier, 2011.
  34. Zhang, W., Fault detection . Rijek, Crotia: InTech, 2010.
  35. Benbow, D. W. and Broome, H. W., The certified reliability engineer handbook . Milwaukee Wis. ASQ Quality Press, 2009.
  36. Dhillon, B. S., Computer system reliability: safety and usability /  B.S. Dhillon . Boca Raton: CRC Press, 2013.
  37. Dhillon, B. S., Robot system reliability and safety: a modern approach /  B.S. Dhillon, 1st ed. Boca Raton: CRC Press, 2015.
  38. Nachlas, J. A., Reliability engineering: probabilistic models and maintenance methods, Second edition. Boca Raton: CRC Press Routledge Taylor & Francis Group, 2017.
  39. O'Connor, P. D. T. and Kleyner, A., Practical reliability engineering, 5th ed. /  Patrick P. O'Connor, Andre Kleyner. Oxford: Wiley-Blackwell, 2012.
  40. Ram, M. and Davim, J. P., Advances in reliability and system engineering. Management and Industrial Engineering. Cham: Springer International Publishing, op. 2017.
  41. Rausand, M., Reliability of safety-critical systems: theory and application /  Marvin Rausand . Hoboken: Wiley, 2014.
  42. Verma, A. K., Ajit, S., and Karanki, D. R., Reliability and safety engineering, Second edition. Springer series in reliability engineering. London: Springer, 2015.
  43. Gnedenko, B. V., Ushakov, I. A., and Falk, J., Probabilistic reliability engineering. New York, Chichester: Wiley, 1995.
  44. Lai, C.-D., Generalized Weibull distributions. SpringerBriefs in Statistics. Berlin, Heidelberg: Springer Berlin Heidelberg; Imprint: Springer, 2014.
  45. McCool, J., Using the Weibull distribution: reliability, modeling, and inference /  John I. McCool. Wiley series in probability and statistics. Hoboken, N.J. John Wiley & Sons, 2012.
  46. O'Connor, A., Modarres, M., and Mosleh, A., Probability Distributions Used in Reliability Engineering. Maryland, USA: Center for Risk and Reliability International, 2016.
  47. Ushakov, I. A., Probabilistic reliability models . San Diego, CA: Wiley, 2012.
  48. Bâzu, M. I. and Băjenescu, T. I., Failure analysis: a practical guide for manufacturers of electronic components and systems /  Marius I. Bâzu, Titu-Marius I. Bâjenescu . Wiley series in quality & reliability engineering. Oxford: Wiley-Blackwell, 2011.
  49. Ohring, M. and Kasprzak, L., Reliability and failure of electronic materials and devices, Second edition. Amsterdam, Boston: Academic Press is an imprint of Elsevier, 2014.
  50. McDermott, R. E., Mikulak, R. J., and Beauregard, M. R., The basics of FMEA , 2nd ed. New York: CRC Press, 2009.
  51. Hobbs, C., Embedded software development for safety-critical systems , 1st ed. Boca Raton: Auerbach, 2015.
  52. Layer of protection analysis: Simplified process risk assessment. A CCPS concept book. New York: Center for Chemical Process Safety of the American Institute of Chemical Engineers, 2001.
  53. Guidelines for non-SIS independent protection layers. Chichester: Wiley, 2008.
  54. Guidelines for enabling conditions and conditional modifiers in layers of protection analysis. Hoboken, NJ: Wiley, 2014.
  55. Watzenig, D. and Horn, M., Automated driving: Safer and more efficient future driving /  edited by Daniel Watzenig, Martin Horn. Cham: Springer, 2016.
  1. Birolini, A., Reliability engineering: Theory and practice , 8th edition. New York NY: Springer Berlin Heidelberg, 2017.
  2. Saglietti, F. and Oster, N., Computer safety, reliability, and security: 26th international conference, SAFECOMP 2007, Nuremberg, Germany, September 18-21, 2007 ; proceedings /  Francesca Saglietti, Norbert Oster (eds.) . Lecture notes in computer science,  0302-9743 4680. Berlin: Springer, 2007. www.springer.com/gb/  BLDSS.
  3. Börcsök, J., Electronic safety systems: hardware concepts, models, and calculations . Heidelberg: Hüthig, 2004.
  4. Börcsök, J., Functional Safety: Basic Principles of Safety-related Systems, 2nd, 02nd edition. Berlin: VDE VERLAG, 2017.
  5. Börcsök, J., Functional safety: basic principles of safety-related systems, 5th, revised edition. Berlin: VDE VERLAG, 2021.
  6. Ross, H.-L., Automotive functional safety: ISO 26262, systems engineering based on a safety life cycle and proven management systems. Munich: Carl Hanser Verlag GmbH & Co. KG, 2014. www.hanser-elibrary.com/doi/book/10.3139/9783446438408.
  7. Borgeest, K., EMC and functional safety of automotive electronics. Electromagnetic waves 12. London, United Kingdom: Institution of Engineering and Technology, 2018.
  8. Sjafrie, H., Introduction to self-driving vehicle technology, 1st ed. Chapman & Hall/CRC artificial intelligence and robotics series. Boca Raton: Chapman & Hall/CRC, 2019.
  9. Bergmiller, P. J., Towards Functional Safety in Drive-by-Wire Vehicles, 1st ed. 2015. Cham: Springer International Publishing; Imprint: Springer, 2015.
  10. Watzenig, D. and Horn, M., Automated driving: Safer and more efficient future driving /  edited by Daniel Watzenig, Martin Horn. Cham: Springer, 2016.
  11. Singh, G., Jain, V., Chatterjee, J. M., and Gaur, L., eds, Cloud and IoT-based vehicular ad hoc networks. Hoboken NJ USA: Wiley-Scrivener, 2021.
  12. Montenegro, S., Safe and fault-tolerant control systems: Development of safety-related systems. Munich, Vienna: Carl Hanser Verlag, 1999.
  13. Wratil, P. and Kieviet, M., Safety engineering for components and systems, 2nd, revised ed. Praxis. Berlin: VDE-Verl, 2010.
  14. ISO 26262:2018, Road vehicles - Functional safety - Parts 1-12, 2018.
  15. IEC 61508:2012 Parts 1-7, Functional safety of electrical/electronic/programmable electronic safety-related systems.
  16. DIN EN ISO 13849 Part 1 2016, DIN EN ISO 13849 Part 2 2008
  17. VDE VDI 2180: 2019; Safeguarding of process engineering plants by means of process control technology (PCT)
  18. DIN EN 61511-1 : 2019, Functional safety - Safety-related systems for the process industry
  19. Smith, D. J. and Simpson, K. G. L., Safety critical systems handbook: A straightforward guide to functional safety, IEC 61508 (2010 edition), IEC 61511 (2015 edition) and related guidance, Fourth edition. Amsterdam: Butterworth-Heinemann, 2016.
  20. Medoff, M. D. and Faller, R. I., Functional safety: An IEC 61508 SIL 3 compliant development process , 3rd ed. Sellersville, Pa. exida, 2014.
  21. Sari, B., Fail-Operational Safety Architecture for ADAS/AD Systems and a Model-driven Approach for Dependent Failure Analysis . Wissenschaftliche Reihe Fahrzeugtechnik Universität Stuttgart Ser. Wiesbaden: Springer Fachmedien Wiesbaden GmbH, 2020. ebookcentral.proquest.com/lib/kxp/detail.action.
  22. Staron, M., Automotive Software Architectures: An Introduction, 2nd ed. 2021. Springer eBook Collection. Cham: Springer International Publishing, 2021.
  23. Hobbs, C., Embedded software development for safety-critical systems , 1st ed. Boca Raton: Auerbach, 2015.
  24. Dearden, H. T., Functional safety in practice , Third edition. Cheshire: SISSuite Publication, 2020.
  25. Ross, H.-L., Functional safety for road vehicles: new challenges and solutions for e-mobility and automated driving /  Hans-Leo Ross . Switzerland: Springer, 2016.
  26. ISO 26262 A Complete Guide - 2020 Edition.
  27. System and software verification using Petri nets: For functional safety of ISO-26262 requirements.
  28. Functional Safety and Proof of Compliance
  29. IEC 61508 Standard Requirements
  30. Benbow, D. W. and Broome, H. W., The certified reliability engineer handbook . Milwaukee Wis. ASQ Quality Press, 2009.
  31. Ross, H.-L., Functional safety for road vehicles: new challenges and solutions for e-mobility and automated driving. Switzerland: Springer, 2016.
  32. Winner, H., ed, Handbook of driver assistance systems: Basic information, components and systems for active safety and comfort. Springer reference. [p. l.]: Springer, op. 2016.
  33. Watzenig, D. and Horn, M., Automated driving: Safer and more efficient future driving /  edited by Daniel Watzenig, Martin Horn. Cham: Springer, 2016.
  34. Robert Bosch GmbH, Bosch automotive electrics and automotive electronics: Systems and components, networking and hybrid drive, 5th ed. Bosch professional automotive information. Wiesbaden: Springer Vieweg, 2014.
  35. Robert Bosch GmbH, Bosch automotive electrics and automotive electronics: Systems and components, networking and hybrid drive, 5th ed. Bosch professional automotive information. Wiesbaden: Springer Vieweg, 2014.
  36. Navet, N. and Simonot-Lion, F., Automotive embedded systems handbook . Industrial information technology series. Boca Raton: CRC Press, 2009.
  37. Cheng, X., Zhang, R., and Yang, L., 5G-Enabled Vehicular Communications and Networking . Wireless networks. Cham: Springer, 2018.
  38. Adam, M., Accelerating e-mobility in Germany: A case for regulation /  Markus Adam . Springer briefs in law. Cham, Switzerland: Springer, 2016.
  39. Delgrossi, L. and Zhang, T., Vehicle safety communications: protocols, security, and privacy . Information and communication technology series 103. Hoboken, New Jersey: John Wiley & Sons, 2012.
  40. Elhoseny, M. and Hassanien, A. E., Emerging technologies for connected internet of vehicles and intelligent transportation system networks: Emerging technologies for connected and smart vehicles. Cham, Switzerland: Springer Nature, 2020.
  41. Liesenkötter, B., E-mobility: towards the sailing ship effect in the automotive industry: Springer Fachmedien Wiesbaden, 2014.
  42. Miucic, R., Connected vehicles: intelligent transportation systems /  Radovan Miucic, editor. Wireless networks,  2366-1186. Cham, Switzerland: Springer, 2019.
  43. Sciarretta, A. and Vahidi, A., Energy-efficient driving of road vehicles: Toward cooperative, connected, and automated mobility /  Antonio Sciarretta, Ardalan Vahidi. Lecture notes in intelligent transportation and infrastructure,  2523-3440. Cham: Springer, 2020.
  44. Wang, M., Zhang, R., and Shen, X., Mobile electric vehicles: online charging and discharging /  Miao Wang, Ran Zhang, Xuemin (Sherman) Shen . Wireless networks. Cham: Springer, 2016.
  45. Allan, J. J., Computers in railways X: Computer system design and operation in the railway and other transit systems /  [editors, J. Allan ... et al.] . WIT transactions on the built environment,  v. 88  1746-4498. Southampton: WIT, 2006.
  46. Brenna, M., Foiadelli, F., and Zaninelli, D., Electrical railway transportation systems, 1st ed. IEEE Press series on power engineering. Hoboken: Wiley-IEEE Press, 2018.
  47. Collart-Dutilleul, S., Lecomte, T., and Romanovsky, A., Reliability, safety, and security of railway systems: modeling, analysis, verification, and certification: third International Conference, RSSRail 2019, Lille, France, June 4-6, 2019, Proceedings /  Simon Collart-Dutilleul, Thierry Lecomte, Alexander Romanovsky (eds.). LNCS sublibrary. SL 2, Programming and software engineering 11495. Cham, Switzerland: Springer, 2019.
  48. Mahboob, Q. and Zio, E., Handbook of RAMS in railway systems: theory and practice, 1st ed. Boca Raton: CRC Press, 2018.
  49. Flammini, F., Railway safety, reliability, and security: technologies and systems engineering /  [edited by] Francesco Flammini . Hershey PA: Information Science Reference, 2012.
  50. Perpinya, X., Reliability and Safety in Railway: InTech, 2012.
  51. Watzenig, D. and Horn, M., Automated driving: Safer and more efficient future driving /  edited by Daniel Watzenig, Martin Horn. Cham: Springer, 2016.
  1. Vince, J., Foundation mathematics for computer science: A visual approach /  John Vince, Second edition. Cham: Springer, 2020.
  2. Gowers, T., Barrow-Green, J., and Leader, I., The Princeton companion to mathematics. Princeton, N.J., Woodstock: Princeton University Press, 2008.
  3. Higham, N. J. and Dennis, M. R., The Princeton companion to applied mathematics. Princeton: Princeton University Press, 2015.
  4. Erciyes, K., Discrete Mathematics and Graph Theory: A Concise Study Companion and Guide, 1st ed. 2021 Springer eBook Collection. Cham: Springer International Publishing, 2021.
  5. Ferguson, D. R. and Peters, T. J., Mathematics in industry: challenges and frontiers: a process view: practice and theory /  edited b] David R. Ferguson, Thomas J. Peters. SIAM proceedings series PR121. Philadelphia: society for industrial and applied mathematics, 2005.
  6. Chartrand, G., Polimeni, A. D., and Zhang, P., Mathematical proofs: A transition to advanced mathematics, Fourth edition. Boston: Pearson, 2018.
  7. Holmes, M. H., Introduction to the foundations of applied mathematics, Second edition. Texts in applied mathematics,  0939-2475 volume 56. Cham, Switzerland: Springer, 2019.
  8. Elliott, R. J., Aggoun, L., and Moore, J. B., Hidden Markov models: estimation and control /  Robert J. Elliott, Lakhdar Aggoun, John B. Moore . Applications of mathematics 29. New York, London: Springer, 1995. www.springer.com/gb/  BLDSS.
  9. Yu, S.-Z., Hidden semi-Markov models: theory, algorithms and applications /  Shun-Zheng Yu . Amsterdam: Morgan Kaufmann, 2015.
  10. Chang, H. S., Hu, J., Fu, M. C., and Marcus, S. I., Simulation-based algorithms for Markov decision processes , Second edition. Communications and control engineering. London: Springer, 2013.
  11. Kolobov, M. and Kolobov, A., Planning with Markov decision processes: An AI perspective /  Mausam and Andrey Kolobov . Synthesis lectures on artificial intelligence and machine learning,  1939-4608 #17. San Rafael, Calif. Morgan & Claypool, 2012.
  12. Behrends, E., Introduction to Markov Chains: With Special Emphasis on Rapid Mixing. Springer eBook Collection Mathematics and Statistics. Wiesbaden: Vieweg+Teubner Verlag, 2000. swbplus.bsz-bw.de/bsz404645747cov.htm.
  13. Ross, S. M., Introduction to Probability Models , 12th ed. London, United Kingdom: Academic Press an imprint of Elsevier, 2019. www.sciencedirect.com/science/book/9780128143469.
  14. Aitkin, M. A., Statistical inference: an integrated Bayesian/likelihood approach /  Murray Aitkin . Monographs on statistics and applied probability 116. Boca Raton, FL: Chapman & Hall/CRC, 2010.
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  17. Koller, D. and Friedman, N., Probabilistic graphical models: principles and techniques /  Daphne Koller and Nir Friedman. Adaptive computation and machine learning. Cambridge, Mass., London: MIT Press, 2009.
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  1. Rausand, M., Barros, A., and Hoyland, A., System reliability theory: Models, statistical methods, and applications, Third edition. Wiley series in probability and statistics. Hoboken NJ: John Wiley & Sons Inc, 2020.
  2. Rausand, M. and Hoyland, A., System reliability theory: models, statistical methods, and applications /  Marvin Rausand, Arnljot Hoyland , 2nd ed. Wiley series in probability and statistics. Applied probability and statistics. Hoboken, NJ, Chichester: Wiley-Interscience, 2004.
  3. Birolini, A., Reliability engineering: theory and practice, 8th edition. New York NY: Springer Berlin Heidelberg, 2017.
  4. Kumamoto, H. and Henley, E. J., Probabilistic risk assessment and management for engineers and scientists, 2nd ed. New York: IEEE Press, 1996.
  5. Saglietti, F. and Oster, N., Computer safety, reliability, and security: 26th international conference, SAFECOMP 2007, Nuremberg, Germany, September 18-21, 2007 ; proceedings /  Francesca Saglietti, Norbert Oster (eds.) . Lecture notes in computer science,  0302-9743 4680. Berlin: Springer, 2007. www.springer.com/gb/  BLDSS.
  6. Börcsök, J., Electronic safety systems: hardware concepts, models, and calculations . Heidelberg: Hüthig, 2004.
  7. Börcsök, J., Functional Safety: Basic Principles of Safety-related Systems, 2nd, 02nd edition. Berlin: VDE VERLAG, 2017.
  8. Börcsök, J., Functional safety: basic principles of safety-related systems, 5th, revised edition. Berlin: VDE VERLAG, 2021.
  9. Ross, H.-L., Automotive functional safety: ISO 26262, systems engineering based on a safety life cycle and proven management systems. Munich: Carl Hanser Verlag GmbH & Co. KG, 2014. www.hanser-elibrary.com/doi/book/10.3139/9783446438408.
  10. Montenegro, S., Safe and fault-tolerant control systems: Development of safety-related systems. Munich, Vienna: Carl Hanser Verlag, 1999.
  11. Gehlen, P., Functional safety of machinery and equipment: implementing the European Machinery Directive in practice /  by Patrick Gehlen, 2nd revised edition. Erlangen: Publicis Publishing, 2010.
  12. Wratil, P., Kieviet, M., and Röhrs, W., Safety for machines and plants: mechanical units, electronic systems and safety-related programming, 2nd, newly edited ed. Berlin: VDE-Verl., 2015.
  13. Wratil, P. and Kieviet, M., Safety engineering for components and systems , 2nd, newly edited ed. Practice. Berlin: VDE-Verl., 2010.
  14. Marszal, E. M. and Scharpf, E. W., Safety integrity level selection: systematic methods including layer of protection analysis /  Edward M. Marszal, Eric W. Scharpf . Research Triangle Park, NC: Instrumentation, 2002.
  15. Great Britain. Health and Safety Executive, Out of control: why controls system go wrong and how to prevent failure, 2nd ed. Sudbury: HSE Books, 2003.
  16. ISO 26262:2018, Road vehicles - Functional safety - Parts 1-12, 2018.
  17. IEC 61508:2012 Parts 1-7, Functional safety of electrical/electronic/programmable electronic safety-related systems.
  18. DIN EN ISO 13849 Part 1 2016, DIN EN ISO 13849 Part 2 2008
  19. VDE VDI 2180: 2019; Safeguarding of process engineering plants by means of process control technology (PCT)
  20. DIN EN 61511-1 : 2019, Functional safety - Safety-related systems for the process industry
  21. Smith, D. J. and Simpson, K. G. L., Safety critical systems handbook: A straightforward guide to functional safety, IEC 61508 (2010 edition), IEC 61511 (2015 edition) and related guidance, Fourth edition. Amsterdam: Butterworth-Heinemann, 2016.
  22. Griffor, E. R., Handbook of system safety and security: cyber risk and risk management, cyber security, threat analysis, functional safety, software systems, and cyber physical systems /  edited by Edward Griffor . Rockland: Syngress, 2016.
  23. Medoff, M. D. and Faller, R. I., Functional safety: An IEC 61508 SIL 3 compliant development process, 3rd ed. Sellersville, Pa. exida, 2014.
  24. Marszal, E. M. and Scharpf, E. W., Safety integrity level selection: systematic methods including layer of protection analysis /  Edward M. Marszal, Eric W. Scharpf . Research Triangle Park, NC: Instrumentation, 2002.
  25. Thomson, J., High integrity systems and safety management in hazardous industries. Amsterdam: Butterworth-Heinemann, 2015.
  26. Institution of Chemical Engineers (Great Britain); European Process Safety Centre, Safety integrity: the implications of IEC 61508 and other standards for the process industries: proceedings of the European Process Safety Centre conference, 5 November 1999, La Maison de la Chimie, Paris . Rugby: Institution of Chemical Engineers, 2000.
  27. Dearden, H. T., Functional safety in practice , Third edition. Cheshire: SISSuite Publication, 2020.
  28. Functional Safety in the Process Industry : A Handbook of Practical Guidance in the Application of IEC61511 and ANSI/ISA-84.
  29. ISO 26262 A Complete Guide - 2020 Edition
  30. System and software verification using Petri nets: For functional safety of ISO-26262 requirements
  31. Functional Safety and Proof of Compliance
  32. IEC 61508 Standard Requirements
  33. American Institute of Chemical Engineers. Center for Chemical Process Safety, Guidelines for hazard evaluation procedures, 3rd ed. Hoboken, N.J. Wiley-Interscience; [Chichester:  John Wiley [distributor], 2008.
  34. Ericson, C. A., Hazard analysis techniques for system safety . Hoboken, N.J. Wiley; Chichester:  John Wiley [distributor], 2005.
  35. Smith, D. J., Reliability, maintainability, and risk: practical methods for engineers /  David J. Smith , 8th ed. Amsterdam, Boston: Butterworth-Heinemann/Elsevier, 2011.
  36. Zhang, W., Fault detection . Rijek, Crotia: InTech, 2010.
  37. Benbow, D. W. and Broome, H. W., The certified reliability engineer handbook . Milwaukee Wis. ASQ Quality Press, 2009.
  38. Dhillon, B. S., Computer system reliability: safety and usability /  B.S. Dhillon . Boca Raton: CRC Press, 2013.
  39. O'Connor, P. D. T. and Kleyner, A., Practical reliability engineering, 5th ed. /  Patrick P. O'Connor, Andre Kleyner. Oxford: Wiley-Blackwell, 2012.
  40. Rausand, M., Reliability of safety-critical systems: theory and application /  Marvin Rausand . Hoboken: Wiley, 2014.
  41. Verma, A. K., Ajit, S., and Karanki, D. R., Reliability and safety engineering, Second edition. Springer series in reliability engineering. London: Springer, 2015.
  42. Gnedenko, B. V., Ushakov, I. A., and Falk, J., Probabilistic reliability engineering. New York, Chichester: Wiley, 1995.
  43. Bâzu, M. I. and Băjenescu, T. I., Failure analysis: a practical guide for manufacturers of electronic components and systems /  Marius I. Bâzu, Titu-Marius I. Bâjenescu . Wiley series in quality & reliability engineering. Oxford: Wiley-Blackwell, 2011.
  44. Ohring, M. and Kasprzak, L., Reliability and failure of electronic materials and devices, Second edition. Amsterdam, Boston: Academic Press is an imprint of Elsevier, 2014.
  45. McDermott, R. E., Mikulak, R. J., and Beauregard, M. R., The basics of FMEA , 2nd ed. New York: CRC Press, 2009.
  1. Rausand, M., Barros, A., and Hoyland, A., System reliability theory: Models, statistical methods, and applications, Third edition. Wiley series in probability and statistics. Hoboken NJ: John Wiley & Sons Inc, 2020.
  2. Rausand, M. and Hoyland, A., System reliability theory: models, statistical methods, and applications /  Marvin Rausand, Arnljot Hoyland , 2nd ed. Wiley series in probability and statistics. Applied probability and statistics. Hoboken, NJ, Chichester: Wiley-Interscience, 2004.
  3. Birolini, A., Reliability engineering: theory and practice, 8th edition. New York NY: Springer Berlin Heidelberg, 2017.
  4. Kumamoto, H. and Henley, E. J., Probabilistic risk assessment and management for engineers and scientists, 2nd ed. New York: IEEE Press, 1996.
  5. Saglietti, F. and Oster, N., Computer safety, reliability, and security: 26th international conference, SAFECOMP 2007, Nuremberg, Germany, September 18-21, 2007 ; proceedings /  Francesca Saglietti, Norbert Oster (eds.) . Lecture notes in computer science,  0302-9743 4680. Berlin: Springer, 2007. www.springer.com/gb/  BLDSS.
  6. Börcsök, J., Electronic safety systems: hardware concepts, models, and calculations . Heidelberg: Hüthig, 2004.
  7. Börcsök, J., Functional Safety: Basic Principles of Safety-related Systems, 2nd, 02nd edition. Berlin: VDE VERLAG, 2017.
  8. Börcsök, J., Functional safety: basic principles of safety-related systems, 5th, revised edition. Berlin: VDE VERLAG, 2021.
  9. Singh, G., Jain, V., Chatterjee, J. M., and Gaur, L., eds, Cloud and IoT-based vehicular ad hoc networks. Hoboken NJ USA: Wiley-Scrivener, 2021.
  10. Montenegro, S., Safe and fault-tolerant control systems: Development of safety-related systems. Munich, Vienna: Carl Hanser Verlag, 1999.
  11. Gehlen, P., Functional safety of machinery and equipment: implementing the European Machinery Directive in practice /  by Patrick Gehlen, 2nd revised edition. Erlangen: Publicis Publishing, 2010.
  12. Wratil, P., Kieviet, M., and Röhrs, W., Safety for machines and plants: mechanical units, electronic systems and safety-related programming, 2nd, newly edited ed. Berlin: VDE-Verl., 2015.
  13. Wratil, P. and Kieviet, M., Safety engineering for components and systems , 2nd, newly edited ed. Practice. Berlin: VDE-Verl., 2010.
  14. Marszal, E. M. and Scharpf, E. W., Safety integrity level selection: systematic methods including layer of protection analysis /  Edward M. Marszal, Eric W. Scharpf . Research Triangle Park, NC: Instrumentation, 2002.
  15. Great Britain. Health and Safety Executive, Out of control: why controls system go wrong and how to prevent failure, 2nd ed. Sudbury: HSE Books, 2003.
  16. ISO 26262:2018, Road vehicles - Functional safety - Parts 1-12, 2018.
  17. IEC 61508:2012 Parts 1-7, Functional safety of electrical/electronic/programmable electronic safety-related systems.
  18. DIN EN ISO 13849 Part 1 2016, DIN EN ISO 13849 Part 2 2008
  19. VDE VDI 2180: 2019; Safeguarding of process engineering plants by means of process control technology (PCT)
  20. DIN EN 61511-1 : 2019, Functional safety - Safety-related systems for the process industry
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  29. ISO 26262 A Complete Guide - 2020 Edition.
  30. System and software verification using Petri nets: For functional safety of ISO-26262 requirements
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  32. IEC 61508 Standard Requirements
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  57. Guidelines for non-SIS independent protection layers. Chichester: Wiley, 2008.
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  59. Montenegro, S., Safe and fault-tolerant control systems: Development of safety-related systems. Munich, Vienna: Carl Hanser Verlag, 1999.
  60. Nachlas, J. A., Reliability engineering: probabilistic models and maintenance methods, Second edition. Boca Raton: CRC Press Routledge Taylor & Francis Group, 2017.
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  63. O'Connor, P. D. T. and Kleyner, A., Practical reliability engineering, 5th ed. /  Patrick P. O'Connor, Andre Kleyner. Oxford: Wiley-Blackwell, 2012.
  64. Ohring, M. and Kasprzak, L., Reliability and failure of electronic materials and devices, Second edition. Amsterdam, Boston: Academic Press is an imprint of Elsevier, 2014.
  65. Perpinya, X., Reliability and Safety in Railway: InTech, 2012.
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Please note: The given selection does not claim to be complete