Risk Assessment in Intelligent Manufacturing Process: A Case Study of an Optical Cable Automatic Arranging Robot

Wan, Neng; Li, Lei; Ye, Chunming; Bo, Wang

doi:10.1109/access.2019.2932756

Cited by 33 publications

(25 citation statements)

References 42 publications

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“…As a result, a framework based on the ISO 31000 for orienting design safeguards for collaborative robots to ensure a proper hazard, safety assurance, analysis and risk assessment. Wan et al developed TOPSIS as an extended Failure Mode and Effects Analysis (FMEA) model that introduces environmental impacts as risk factors and evaluates the potential failure risk of robots to ensure their effectiveness and feasibility [227]. George et al presented a multi-attacker multi-target graphical model for risk assessment which represents attackers, targets, and network's vulnerability [228].…”

Section: Qualitative Risk Assessment Methodsmentioning

confidence: 99%

Robotics cyber security: vulnerabilities, attacks, countermeasures, and recommendations

Yaacoub

Noura

Salman

et al. 2021

Int. J. Inf. Secur.

145

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The recent digital revolution led robots to become integrated more than ever into different domains such as agricultural, medical, industrial, military, police (law enforcement), and logistics. Robots are devoted to serve, facilitate, and enhance the human life. However, many incidents have been occurring, leading to serious injuries and devastating impacts such as the unnecessary loss of human lives. Unintended accidents will always take place, but the ones caused by malicious attacks represent a very challenging issue. This includes maliciously hijacking and controlling robots and causing serious economic and financial losses. This paper reviews the main security vulnerabilities, threats, risks, and their impacts, and the main security attacks within the robotics domain. In this context, different approaches and recommendations are presented in order to enhance and improve the security level of robotic systems such as multi-factor device/user authentication schemes, in addition to multi-factor cryptographic algorithms. We also review the recently presented security solutions for robotic systems.

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Section: Qualitative Risk Assessment Methodsmentioning

confidence: 99%

Robotics cyber security: vulnerabilities, attacks, countermeasures, and recommendations

Yaacoub

Noura

Salman

et al. 2021

Int. J. Inf. Secur.

145

View full text Add to dashboard Cite

show abstract

“…More details on FMEA and FMECA processes and applications are given in references [19]- [25]. Table 1 summarizes the factors that influence the criticality index and the rules to assess the rating of each one.…”

Section: Fmeca Methodology For Onshore Wind Turbinementioning

confidence: 99%

“…The FMECA is a powerful tool to carry out a risk analysis [25]. Therefore, this paper discusses the risk assessment using a FMECA tool of a Spanish onshore 2MW wind turbine located in the region of Aragon.…”

Section: Fmeca Methodology For Onshore Wind Turbinementioning

confidence: 99%

Risk Assessment of a Wind Turbine: A New FMECA-Based Tool With RPN Threshold Estimation

et al. 2020

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A wind turbine is a complex system used to convert the kinetic energy of the wind into electrical energy. During the turbine design phase, a risk assessment is mandatory to reduce the machine downtime and the Operation & Maintenance cost and to ensure service continuity. This paper proposes a procedure based on Failure Modes, Effects, and Criticality Analysis to take into account every possible criticality that could lead to a turbine shutdown. Currently, a standard procedure to be applied for evaluation of the risk priority number threshold is still not available. Trying to fill this need, this paper proposes a new approach for the Risk Priority Number (RPN) prioritization based on a statistical analysis and compares the proposed method with the only three quantitative prioritization techniques found in literature. The proposed procedure was applied to the electrical and electronic components included in a Spanish 2 MW onshore wind turbine. INDEX TERMS Reliability engineering, failure analysis, risk analysis, fault detection, wind energy.

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“…In recent years, the fourth industrial revolution with intelligent manufacturing as its main feature is influencing the world economy with unprecedented depth, breadth and speed, which is likely to further deepen the development gap existing in different countries, regions or strata. At the same time, intelligent manufacturing also causes people to worry about the social impact of "replacing workers with machine", such as unemployment, shortage of senior talents, and the coming "singularity" of environmental impact [9][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Sustainability Assessment of Intelligent Manufacturing Supported by Digital Twin

et al. 2020

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As a major challenge and opportunity for traditional manufacturing, intelligent manufacturing is facing the needs of sustainable development in future. Sustainability assessment undoubtedly plays a pivotal role for future development of intelligent manufacturing. Aiming at this, the paper presents the digital twin driven information architecture of sustainability assessment oriented for dynamic evolution under the whole life cycle based on the classic digital twin mapping system. The sustainability assessment method segment of the architecture includes indicator system building, indicator value determination, indicator importance degree determination and intelligent manufacturing project assessing. A novel approach for treating the ambiguity of expert' judgment in indicator value determination by introducing trapezoidal fuzzy number into analytic hierarchy process is proposed, while the complexity of the influence relationship among the indicators is processed by the integration of complex networks modeling and PROMETHEE II for the indicator importance degree determination. A two-stage evidence combination model based on evidence theory is built for intelligent manufacturing project assessing lastly. The presented digital-twin-driven information architecture and the sustainability assessment method is tested and validated on a study of sustainability assessment of 8 intelligent manufacturing projects of an air conditioning enterprise. The results of the presented method were validated by comparing them with the results of the fuzzy and rough extension of the PROMETHEE II, TOPSIS and VIKOR methods, indicator importance degree determining method by entropy and indicator value determining method by accurate expert scoring.

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Risk Assessment in Intelligent Manufacturing Process: A Case Study of an Optical Cable Automatic Arranging Robot

Cited by 33 publications

References 42 publications

Robotics cyber security: vulnerabilities, attacks, countermeasures, and recommendations

Robotics cyber security: vulnerabilities, attacks, countermeasures, and recommendations

Risk Assessment of a Wind Turbine: A New FMECA-Based Tool With RPN Threshold Estimation

Sustainability Assessment of Intelligent Manufacturing Supported by Digital Twin

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