Zied Ghrairi scite author profile

The paper introduces a security framework for the application of human-robot collaboration in a futuristic industrial cyber-physical system (CPS) context of industry 4.0. The basic elements and functional requirements of a secure collaborative robotic cyber-physical system are explained and then the cyber-attack modes are discussed in the context of collaborative CPS whereas a defense mechanism strategy is proposed for such a complex system. The cyber-attacks are categorized according to the extent on controllability and the possible effects on the performance and efficiency of such CPS. The paper also describes the severity and categorization of such cyber-attacks and the causal effect on the human worker safety during human-robot collaboration. Attacks in three dimensions of availability, authentication and confidentiality are proposed as the basis of a consolidated mitigation plan. We propose a security framework based on a two-pronged strategy where the impact of this methodology is demonstrated on a teleoperation benchmark (NeCS-Car). The mitigation strategy includes enhanced data security at important interconnected adaptor nodes and development of an intelligent module that employs a concept similar to system health monitoring and reconfiguration.

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A methodology to develop collaborative robotic cyber physical systems for production environments

Khalid

Kirisci

Ghrairi³

et al. 2016

Logist. Res.

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The paper identifies the need for human robot collaboration for conventional light weight and heavy payload robots in future manufacturing environment. An overview of state of the art for these types of robots shows that there exists no solution for human robot collaboration. Here, we consider cyber physical systems, which are based on human worker participation as an integrated role in addition to its basic components. First, the paper identifies the collaborative schemes and a formal grading system is formulated based on four performance indicators. A detailed sensor catalog is established for one of the collaboration schemes, and performance indices are computed with various sensors. This study reveals an assessment of best and worst possible ranges of performance indices that are useful in the categorization of collaboration levels. To illustrate a possible solution, a hypothetical industrial scenario is discussed in a production environment. Generalizing this approach, a design methodology is developed for such human robot collaborative environments for various industrial scenarios to enable solution implementation. Keywords Cyber physical system Á Human robot collaboration Á Collaborative robotics This article is part of a focus collection on ''Dynamics in Logistics: Digital Technologies and Related Management Methods''.

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Safety Requirements in Collaborative Human–Robot Cyber-Physical System

Khalid¹,

Kirisci²,

Ghrairi³

et al. 2016

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The production industry is moving towards the next generation of assembly, which is conducted based on safe and reliable robots working in the same workplace alongside with humans. Focusing on assembly tasks, this paper presents a review of human-robot collaboration research and its classification works. Aside from defining key terms and relations, the paper also proposes means of describing human-robot collaboration that can be relied on during detailed elaboration of solutions. A human-robot collaborative assembly system is developed with a novel and comprehensive structure, and a case study is presented to validate the proposed framework. Assembly, man-machine system, human-robot collaboration

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New Approaches to Through-life Asset Management in the Maritime Industry

Norden

Hribernik²,

Ghrairi³

et al. 2013

Procedia CIRP

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Understanding vulnerabilities in cyber physical production systems

Khalid

Khan

Idrees

et al. 2021

International Journal of Computer Integrated Manufacturing

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Zied Ghrairi

Security framework for industrial collaborative robotic cyber-physical systems

A methodology to develop collaborative robotic cyber physical systems for production environments

Safety Requirements in Collaborative Human–Robot Cyber-Physical System

New Approaches to Through-life Asset Management in the Maritime Industry

Understanding vulnerabilities in cyber physical production systems

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