Component Design and Formal Validation of SFA Systems: A Case Study

Vyatkin, Valeriy; Hanisch, Hans-Michael

doi:10.1007/978-0-387-35613-6_35

Cited by 5 publications

(2 citation statements)

References 5 publications

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“…Industry 4.0 is improving the establishment of intelligent products and production processes. In future manufacturing, factories have to cope with the need of rapid product development, flexible production as well as complex environments (Vyatkin and Hanisch, 2002). Within the factory of the future also considered as a smart factory.…”

Section: Methodsmentioning

confidence: 99%

Blue-collar workers, career success and innovation in manufacturing

Cillo

García-Pérez²,

Giudice

et al. 2019

CDI

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Purpose The purpose of this paper is to contribute to the understanding of the relationship between employees’ knowledge and organisational performance. Design/methodology/approach Using a structural equation model, feedback received from 237 blue-collar workers from multinational high-tech manufacturing enterprises in Italy was studied to understand, from a dynamic capabilities perspective, the role of soft skills in the career success of production workers. Findings The results of the analysis indicate a positive relationship between workers’ commitment to develop their soft skills and their career success, as well as a positive relationship between an organisation’s approach to both knowledge exploration and knowledge exploitation and the prospects for career success of blue-collar workers. Research limitations/implications The research has both theoretical and practical implications, as any efforts by researchers and practitioners to find effective ways to motivate the workforce will be likely to lead to a positive attitude towards learning and, ultimately, to improved business performance. Originality/value The originality of the paper is the focus on the personality and interpersonal attributes of workforce – blue-collar workers – and how they can affect business performance in highly innovative contexts.

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Section: Methodsmentioning

confidence: 99%

Blue-collar workers, career success and innovation in manufacturing

Cillo

García-Pérez²,

Giudice

et al. 2019

CDI

View full text Add to dashboard Cite

show abstract

“…For example, members of the HMS consortium focused on defining a low-level control architecture [4,5] that is based on the IEC 61499 function block standard. With this work as a basis, IEC 61499 function blocks have been used at the device level for dynamic reconfiguration [4,6], safety management [7,8], and system validation [9]. This has led to range of industrial applications of real time distributed control such as DaimlerChrysler's holonic control implementation for engine assembly [10], Rockwell Automation's design of a reconfigurable ship-based chilled-water system, the integration of RFID (radio frequency identification) systems [11], and our recent work with C-Core and DRDC (Defence Research and Development Canada) on the use of holonic systems for sensor management on military platforms [12].…”

Section: Introductionmentioning

confidence: 99%

Re-evaluating Event-Triggered and Time-Triggered Systems

Scarlett

Brennan

2006

2006 IEEE Conference on Emerging Technologies and Factory Automation

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Industrial control system design is increasingly adopting Object Oriented (OO) approaches. These approaches use an event-triggered communication model where communication is triggered by the occurrence of a significant event. Traditional low-level control systems for safety-critical applications use a different approach, namely time-triggered. The truth is that both event-triggered and timetriggered protocols have their advantages. Timetriggered protocols are dependable and event-triggered protocols are more responsive. Safety-critical systems demand dependability and as a result, time-triggered protocols have been used to date. Promising new findings indicate that an eventtriggered protocol can be both responsive and dependable: a first in safety-critical control systems. This paper contrasts the two existing protocol paradigms and evaluation methodologies. A new protocol and new evaluation methodology are suggested that meet the stringent requirements of a safety-critical system. Initial findings are reported that indicate this to be a promising new direction.

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The future of industrial automation and IEC 614993 standard

Salazar

Alvarado

2014

2014 III International Congress of Engineering Mechatronics and Automation (CIIMA)

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Component Design and Formal Validation of SFA Systems: A Case Study

Cited by 5 publications

References 5 publications

Blue-collar workers, career success and innovation in manufacturing

Blue-collar workers, career success and innovation in manufacturing

Re-evaluating Event-Triggered and Time-Triggered Systems

The future of industrial automation and IEC 614993 standard

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