Details

Title

Shock safety modeling method for low-voltage electric devices

Journal title

Archives of Electrical Engineering

Yearbook

2010

Volume

vol. 59

Issue

No 3 - 4 December

Authors

Keywords

safety management process ; expert system ; Bayesian network ; total probability ; protection reliability states ; appearance of touch and electric shock states ; risk analysis and assessment

Divisions of PAS

Nauki Techniczne

Coverage

153-167

Publisher

Polish Academy of Sciences

Date

2010

Type

Artykuły / Articles

Identifier

DOI: 10.2478/s10171-010-0012-1 ; ISSN: 1427-4221 ; eISSN: 2300-2506

Source

Archives of Electrical Engineering; 2010; vol. 59; No 3 - 4 December; 153-167

References

Korniluk W. (1995), Mathematical modeling of shock safety of electronic device - human body systems, null, 75. ; Korniluk W. (2001), Method of occupational risk assessment of electric shock associated with low-voltage equipment. Basic assumptions and algorithms, null, 108. ; Korniluk W. (2001), Method of occupational risk assessment of electric shock associated with low-voltage equipment. Mathematical models of risk, null, 118. ; Korniluk W. (2005), An idea of application of Bayesian networks in expert system for examination of electric shock accidents, Electrotechnical News, 12, 23. ; Masny J. (1993), Reliability assessment of shock protection systems in low-voltage equipment, null, 93. ; Korniluk W. (2007), Matching criteria for protection against electric shock - probabilistic approach, Electrotechnical News, 7, 29. ; Sobolewski R. A. <i>Method of analysing electric shock risk for low-voltage equipment users.</i> Ph.D. dissertation, Białystok (2002). ; Severcev N. (1989), Nadiożnost stożnych sistem v ekspłuatacji i otrabotkie. ; Korniluk W. (1993), Probabilistic methods of assessing effectiveness of shock safety protection in low-voltage equipment. ; Korniluk W. (2006), Probabilistic model of human body impedance, Electrotechnical News, 12, 23. ; Korniluk W. (2007), Probabilistic model of electric current inducing ventricular fibrillation in human hearts, Electrotechnical News, 2, 20. ; Korniluk W. (2007), Probabilistic model of fibrillation currents at superposition of two shock currents, Electrotechnical News, 10, 31.
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