An Alternative Approach to Multiple Models: Application to Control of a Production Cell

Al-Fedaghi, Sabah

doi:10.14257/ijca.2014.7.4.12

Cited by 5 publications

(9 citation statements)

References 9 publications

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“…For the sake of a self-contained paper, the next section briefly reviews the model [23][24][25][26][27][28][29][30] that forms the foundation of the theoretical development in this paper. The model has been adapted to several applications; however, the example given here is a new contribution.…”

Section: Contemporary Approaches: the Problem Of Event In Process Modmentioning

confidence: 99%

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Process Modeling for Analysis and Control: A Case Study of IT Services

Al-Fedaghi¹,

Alduwaisan²

2018

IJCA

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Section: Contemporary Approaches: the Problem Of Event In Process Modmentioning

confidence: 99%

“…The report is received (23) and processed (24) by the help desk. If the task is not complete, the following occurs: (ii) The report is added to the task folder (26). Accordingly, the revised task is assigned to the newly recruited technician, and the cycle of processing repeats.…”

Section: Help Desk Controlmentioning

confidence: 99%

Process Modeling for Analysis and Control: A Case Study of IT Services

Al-Fedaghi¹,

Alduwaisan²

2018

IJCA

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“…The model has been used in many applications [4][5][6][7][8], but the example presented here is new contribution.…”

Section: Flowthing Modelmentioning

confidence: 99%

Schematization of Flow-Based Production

Al-Fedaghi

2016

MATEC Web of Conferences

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Abstract. The basic issue in this paper is an interdisciplinary problem that directly involves several engineering disciplines. The problem is the lack of theoretical foundation and a uniform language to transcribe specification and enhance understanding. In this context, in production management a fundamental doctrine has been proposed based on the notion of flow. Recently, in computer science, the notion of flow has been utilized to develop a modeling methodology called Flowthing Model (FM) that schematizes the description of systems. This paper focuses on these two lines of research that explicitly assert that they adopt a flow-based paradigm. The paper applies FM to develop a schematic representation for processes and operation in the field of production. The resultant specification seems to provide a basic needed framework in this domain.

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“…A great deal of attention has focused on this, such as interest in the unified modeling language with its graphical notation, which is used for documentation, communication, and requirement capture, as well as being an abstraction base for implementation details. This paper explores the potential of the flow-based modeling [7][8][9][10][11][12] in expressing design requirements in real-time systems that include time constraints and synchronization. This paper focuses on the representation of timing constraints.…”

Section: Introductionmentioning

confidence: 99%

Flow-Based Specification of Time Design Requirements

Al-Fedaghi¹

2015

ijacsa

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Abstract-This paper focuses on design requirements in realtime systems where information is processed to produce a response within a specified time. Nowadays, computer control applications embedded in chips have grown in significance in many aspects of human life. These systems need a high level of reliability to gain the trust of users. Ensuring correctness in the early stages of the design process is especially a major challenge in these systems. Faulty requirements lead to errors in the final product that have to be fixed later, often at a high cost. A crucial step in this process is modeling the intended system. This paper explores the potential of flow-based modeling in expressing design requirements in real-time systems that include time constraints and synchronization. The main emphasized problem is how to represent time. The objective is to assist real-time system requirement engineers, in an early state of the development, to express the timing behavior of the developed system. Several known examples are modeled and the results point to the viability of the flow-based representation in comparison with such time specifications as state-based and linebased modeling.

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An Alternative Approach to Multiple Models: Application to Control of a Production Cell

Abstract: Abstract

Cited by 5 publications

References 9 publications

Process Modeling for Analysis and Control: A Case Study of IT Services

Process Modeling for Analysis and Control: A Case Study of IT Services

Schematization of Flow-Based Production

Flow-Based Specification of Time Design Requirements

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