Reliability analysis of load-sharing man-machine systems subject to machine degradation, human errors, and random shocks

•Load-sharing man-machine system is focused on and its reliability is analyzed.•Human errors that cause DCFPsU are incorporated into reliability analysis.•Error intensity and machine degradation rate both increases as a MMU fails.•DCFPsU, DCFPsS, and MMUs’ dependence are investigated and modeled.•An...

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Vydané v:Reliability engineering & system safety Ročník 226; s. 108679
Hlavní autori: Che, Haiyang, Zeng, Shengkui, Li, Kehui, Guo, Jianbin
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Barking Elsevier Ltd 01.10.2022
Elsevier BV
Predmet:
Common cause failures
Conditional probability
Degradation
Dependent competing failure processes
Failure
Failure analysis
Human error
Human-computer interaction
Load distribution
Load-sharing man-machine system
Machine degradation
Man machine systems
Probability density functions
Random shocks
Reliability analysis
Reliability engineering
Reliability modeling
Shock loads
System reliability
Workload
Human error
Reliability modeling
Dependent competing failure processes
Machine degradation
Load-sharing man-machine system
Random shocks
ISSN:0951-8320, 1879-0836
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Abstract •Load-sharing man-machine system is focused on and its reliability is analyzed.•Human errors that cause DCFPsU are incorporated into reliability analysis.•Error intensity and machine degradation rate both increases as a MMU fails.•DCFPsU, DCFPsS, and MMUs’ dependence are investigated and modeled.•An reliability model is developed through analytical derivation. This paper considers a load-sharing man-machine system with multiple man-machine units (MMUs) subject to machine degradation, human errors, and random shocks. Human errors affect the machine that the person operates in a MMU and contribute to dependent competing failure processes (DCFPs) of unit (DCFPsU): soft and hard failure processes. Random shocks affect all MMUs and contribute to DCFPs of system (DCFPsS): unit soft/hard failure one after another until the system failure and common cause failures. In addition, once a MMU fails, more workloads are shared on surviving MMUs due to load-sharing characteristic, which increase not only machine degradation rates but also human error intensities. We incorporate human errors into reliability analysis besides degradation processes and random shocks and develop an analytical reliability model of load-sharing man-machine system. A Poisson-type human error model considering the effects of workload is proposed first. To model the DCFPsU, DCFPsS, and load-sharing characteristic, conditional distributions of DCFPsU and conditional probability density functions of MMU failures are investigated. A system reliability model is then developed based on total probability formula through analytical derivation. Finally, a load-sharing 2-out-of-3:G lathe system and small-, medium- and large-scale examples are implemented to illustrate the effectiveness of the reliability model.
AbstractList This paper considers a load-sharing man-machine system with multiple man-machine units (MMUs) subject to machine degradation, human errors, and random shocks. Human errors affect the machine that the person operates in a MMU and contribute to dependent competing failure processes (DCFPs) of unit (DCFPsU): soft and hard failure processes. Random shocks affect all MMUs and contribute to DCFPs of system (DCFPsS): unit soft/hard failure one after another until the system failure and common cause failures. In addition, once a MMU fails, more workloads are shared on surviving MMUs due to load-sharing characteristic, which increase not only machine degradation rates but also human error intensities. We incorporate human errors into reliability analysis besides degradation processes and random shocks and develop an analytical reliability model of load-sharing man-machine system. A Poisson-type human error model considering the effects of workload is proposed first. To model the DCFPsU, DCFPsS, and load-sharing characteristic, conditional distributions of DCFPsU and conditional probability density functions of MMU failures are investigated. A system reliability model is then developed based on total probability formula through analytical derivation. Finally, a load-sharing 2-out-of-3:G lathe system and small-, medium- and large-scale examples are implemented to illustrate the effectiveness of the reliability model.
•Load-sharing man-machine system is focused on and its reliability is analyzed.•Human errors that cause DCFPsU are incorporated into reliability analysis.•Error intensity and machine degradation rate both increases as a MMU fails.•DCFPsU, DCFPsS, and MMUs’ dependence are investigated and modeled.•An reliability model is developed through analytical derivation. This paper considers a load-sharing man-machine system with multiple man-machine units (MMUs) subject to machine degradation, human errors, and random shocks. Human errors affect the machine that the person operates in a MMU and contribute to dependent competing failure processes (DCFPs) of unit (DCFPsU): soft and hard failure processes. Random shocks affect all MMUs and contribute to DCFPs of system (DCFPsS): unit soft/hard failure one after another until the system failure and common cause failures. In addition, once a MMU fails, more workloads are shared on surviving MMUs due to load-sharing characteristic, which increase not only machine degradation rates but also human error intensities. We incorporate human errors into reliability analysis besides degradation processes and random shocks and develop an analytical reliability model of load-sharing man-machine system. A Poisson-type human error model considering the effects of workload is proposed first. To model the DCFPsU, DCFPsS, and load-sharing characteristic, conditional distributions of DCFPsU and conditional probability density functions of MMU failures are investigated. A system reliability model is then developed based on total probability formula through analytical derivation. Finally, a load-sharing 2-out-of-3:G lathe system and small-, medium- and large-scale examples are implemented to illustrate the effectiveness of the reliability model.
ArticleNumber 108679
Author Guo, Jianbin
Li, Kehui
Zeng, Shengkui
Che, Haiyang
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  surname: Zeng
  fullname: Zeng, Shengkui
  organization: School of Reliability and Systems Engineering, Beihang University, Beijing 100191, China
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  givenname: Kehui
  surname: Li
  fullname: Li, Kehui
  organization: School of Reliability and Systems Engineering, Beihang University, Beijing 100191, China
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  givenname: Jianbin
  orcidid: 0000-0002-7850-4570
  surname: Guo
  fullname: Guo, Jianbin
  email: guojianbin@buaa.edu.cn
  organization: School of Reliability and Systems Engineering, Beihang University, Beijing 100191, China
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Keywords Human error
Reliability modeling
Dependent competing failure processes
Machine degradation
Load-sharing man-machine system
Random shocks
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Snippet •Load-sharing man-machine system is focused on and its reliability is analyzed.•Human errors that cause DCFPsU are incorporated into reliability...
This paper considers a load-sharing man-machine system with multiple man-machine units (MMUs) subject to machine degradation, human errors, and random shocks....
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SubjectTerms Common cause failures
Conditional probability
Degradation
Dependent competing failure processes
Failure
Failure analysis
Human error
Human-computer interaction
Load distribution
Load-sharing man-machine system
Machine degradation
Man machine systems
Probability density functions
Random shocks
Reliability analysis
Reliability engineering
Reliability modeling
Shock loads
System reliability
Workload
Title Reliability analysis of load-sharing man-machine systems subject to machine degradation, human errors, and random shocks
URI https://dx.doi.org/10.1016/j.ress.2022.108679
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