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References
Adams J (1995) Risk. UCL Press
Andrews JD, Moss TR (2002) Reliability and risk assessment, 2nd Edition. Professional Engineering Publishing http://www.palisade-europe.com/html/decisiontools_suite.html
Aven T, Pitblado R (1998) On risk analysis in the petroleum activities on the Norwegian and UK continental shelves. Reliability Engineering and System Safety, 61(1/2): 21–29
Balci O (2001) A methodology for certification of modelling and simulation approaches. TOMACS, 11(4): 352–377
Bea R (1998) Human and organisational factors in the safety of offshore structures. Reliability Engineering and System Safety, 61(1/2): 109–126
Bennett S (2001) Human error — by design. Perpetuity Press
Bloor M (1995) The sociology of HIV transmission. Sage
Boehm BW (1991) Software risk management: principles and practices. IEEE Software, 8(1): 32–41
BSI (1991) Reliability of systems, equipment and components. BS 5760: PART 5. http://www.bsi-global.com Chris McMahon and Jerry Busby
Bucher CG, Bourgund U (1990) A fast and efficient response surface approach for structural reliability problems. Structural Safety, 7: 57–66
Caillaud E, Gourc D, Garcia LA, Crossland R, McMahon C (1999) A framework for a knowledge-based system for risk management in concurrent engineering. Concurrent Engineering Research and Applications, 7(3): 257–268
Cambell P (2002) Learning from construction failures: applied forensic engineering. John Wiley
Carter B, Hancock T, Morin J-M, Robins M (1994) Introducing RISKMAN methodology: the European project risk management methodology. NCC Blackwell
CCTA (1995) An introduction to managing project risk. HMSO
Chapman CB, Ward S (1997) Project risk management: processes, techniques and insights. John Wiley
CIRIA RiskCom. http://www.ciria.org.uk/
Cooper DF, Chapman C (1987) Risk analysis for large projects: models, methods and cases. John Wiley
Coppendale J (1995) Manage risk in product and process development and avoid unpleasant surprises. Engineering Management Journal, 5(1): 35–38
Crossland R, McMahon CA, Sims Williams JH (1998) Survey of current practice in managing design risk. University of Bristol
Crossland R, McMahon CA, Sims Williams JH (2003) The practical application of design risk assessment models. IMechE, Part B, 214: 227–234
DOD (2000) Military standard 882D — standard practice for system safety. US Department of Defence. http://www.reliasoft.org/mil_std/mil_std_882d.pdf
DOH (2000) An organisation with a memory — report of an expert group on learning from adverse events in the NHS, chaired by the Chief Medical Officer. UK Department of Health. http://www.doh.gov.uk/orgmemreport/
Edwards L (1995) Practical risk management in the construction industry.Thomas Telford
FDA (2000) Medical device use-safety: incorporating human factors engineering into risk management. http://www.fda.gov/cdrh/humfac/1497.html
Fiessler B, Neumann H, Rackwitz R (1979) Quadratic limit states in structural reliability. Journal of Engineering Mechanics Division, 105(EM4): 661–676
Godfrey PS (1995) Control of risk: a guide to the systematic management of risk from construction. CIRIA
Hammersley JM, Handscomb DC (1964) Monte Carlo methods. Methuen
Hasofer M, Lind NC (1974) Exact and invariant second-moment code format. Journal of Engineering Mechanics Divisions, 100(EM1): 111–121
Hawkins FH (1993) Human factors in flight. Ashgate
Health & Safety Executive (1992) The tolerability of risk from nuclear power stations. HSE Books
Heising C, Enzenbach W (1991) The ocean ranger oil rig disaster: a risk analysis. Risk Analysis, 9(1)
ICE (Institute of Civil Engineers and Institute of Actuaries) (1998) Risk appraisal and management for projects (RAMP).Thomas Telford
ISO/IEC Guide 73 (2002) Risk management — vocabulary — guidelines for use in standards. International Organisation for Standardisation
Kammen DM, Hassenzahl DM (2001) Should we risk it? Princeton University Press
Kasperson R, Renn O, Slovic P et al. (1988) The social amplification of risk: a conceptual framework. Risk Analysis, 8(2): 177–187
Kletz TA (1992) Hazop and Hazan identifying and assessing process industry hazards. Rugby Institution of Chemical Engineers
Lomborg B (2001) The skeptical environmentalist. Cambridge University Press
Lucas D (1997) The causes of human error. In: Human factors in safety critical systems. Butterworth-Heinmann
Lupton D (1999) Risk (key ideas). Routledge
McMahon CA, Bennett S, Busby JS, Barr G (2002) Risk perception and assessment in design, research review and priority setting exercise. University of Bristol
MOD (1996a) Ministry of Defence: initiatives to manage technical risk on defence equipment programmes. Report HC 361, UK National Audit Office
MOD (1996b) Defence standard 00-56(PART 1)/2 — safety management requirements for defence systems — Part 1: requirements. UK Ministry of Defence. http://www.dstan.mod.uk
MOD (1996c) Defence standard 00-56(PART 2)/2 — safety management requirements for defence systems — Part 2: guidance. UK Ministry of Defence. http://www.dstan.mod.uk
Moder JJ, Phillips CR (1970) Project management with CPM and PERT. Van Nostrand
Monte Carlo for Primavera systems Inc. http://www.primavera.com/products/p3_montecarlo.html
Niwa K (1989) Knowledge-based risk management in engineering: a case study in human—computer cooperative systems. John Wiley
Ould M (1999) Managing software quality and business risk. John Wiley
Patterson FD et al. (1999) Managing the risks within automotive manufacturing. Risk Management, 1(3): 7–23
Petroski H (1991) Paconius and the pedestal for Apollo: a case study of error in conceptual design. Research in Engineering Design, 3: 123–128
Pidgeon NF (1999) Social amplification of risk: models, mechanisms and tools for policy. Risk, Decision and Policy, 4(2): 145–159
Rajabally E, Sen P, Whittle S, Dalton J (2003) Combining evidence to justify the appropriate use of models in engineering design. ICED’03, Stockholm, Sweden
SAE (2003) Society of Automotive Engineers. G-11 Probabilistic Methods Committee. http://www.sae.org
Sandman PM, Weinstein ND, Hallman WH (1997) Communications to reduce risk overestimation and underestimation. Risk Decision and Policy, 2: 1–16
Schneeweiss WG (1999a) Advanced fault tree modelling. Journal of Universal Computer Science, 5(10): 633–643
Schneeweiss WG (1999b) The fault tree method (in the fields of reliability and safety technology). Hagen
Simon P, Hillson D, Newland K eds (1997) Project risk analysis and management guide (PRAM). Association for Project Management
Slovic P (1987) Perception of risk. Science, 236: 280–285
Slovic P (2000) The perception of risk (Risk, Society and Policy Series). Earthscan Publications
Starkey CV (1992) Engineering design decisions. Edward Arnold
Stewart MG (1992) Simulation of human error in reinforced concrete design. Research in Engineering Design, 4(1): 51–60
Ward JR, Clarkson PJ (2004) An analysis of medical device-related errors: prevalence and possible solutions. Journal of Medical Engineering and Technology, 28(1): 2–21
Wood KL, Antonsson EK (1989) Computations with imprecise parameters in engineering design: background and theory. Transactions of the ASME, 111: 616–624
Wu YT, Millwater HR, Cruse TA (1990) Advanced probabilistic structural analysis method for implicit performance functions. American Institute of Aeronautics and Astronautics Journal, 28(9): 1663–1669
Wu YT, Wirsching PH (1987) New algorithm for structural reliability estimation. Journal of Engineering Mechanics, 113: 1319–1336
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McMahon, C., Busby, J. (2005). Risk in the design process. In: Clarkson, J., Eckert, C. (eds) Design process improvement. Springer, London. https://doi.org/10.1007/978-1-84628-061-0_12
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