Mohamed Dbouk scite author profile

Mohamed Dbouk

5Publications

26Citation Statements Received

71Citation Statements Given

How they've been cited

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Affiliations

Lebanese University, Université du Québec à Chicoutimi, Université du Québec

Publications

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Combining the Analytical Hierarchy Process and the Genetic Algorithm to Solve the Timetable Problem

Sbeity¹,

Dbouk²,

Kobeissi³

2014

IJSEA

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The main problems of school course timetabling are time, curriculum, and classrooms. In addition there are other problems that vary from one institution to another. This paper is intended to solve the problem of satisfying the teachers' preferred schedule in a way that regards the importance of the teacher to the supervising institute, i.e. his score according to some criteria. Genetic algorithm (GA) has been presented as an elegant method in solving timetable problem (TTP) in order to produce solutions with no conflict. In this paper, we consider the analytic hierarchy process (AHP) to efficiently obtain a score for each teacher, and consequently produce a GA-based TTP solution that satisfies most of the teachers' preferences.

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IBRIDIA: A hybrid solution for processing big logistics data

AlShaer

Taher

Haque³

et al. 2019

Future Generation Computer Systems

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ProLoD: An Efficient Framework for Processing Logistics Data

Alshaer¹,

Taher²,

Haque³

et al. 2017

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MSpace: An Emergent Approach, Modelling and Exploring Mutable Business-Entities

Dbouk¹,

Mcheick²,

Sbeity³

2012

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Towards Intelligent Distributed Computing: Cell-Oriented Computing

Karawash

Mcheick

Dbouk

2014

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Distributed computing systems are of huge importance in a number of recently established and future functions in computer science. For example, they are vital to banking applications, communication of electronic systems, air traffic control, manufacturing automation, biomedical operation works, space monitoring systems and robotics information systems. As the nature of computing comes to be increasingly directed towards intelligence and autonomy, intelligent computations will be the key for all future applications. Intelligent distributed computing will become the base for the growth of an innovative generation of intelligent distributed systems. Nowadays, research centres require the development of architectures of intelligent and collaborated systems; these systems must be capable of solving problems by themselves to save processing time and reduce costs. Building an intelligent style of distributed computing that controls the whole distributed system requires communications that must be based on a completely consistent system. The model of the ideal system to be adopted in building an intelligent distributed computing structure is the human body system, specifically the body's cells. As an artificial and virtual simulation of the high degree of intelligence that controls the body's cells, this chapter proposes a Cell-Oriented Computing model as a solution to accomplish the desired Intelligent Distributed Computing system.

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Mohamed Dbouk

Combining the Analytical Hierarchy Process and the Genetic Algorithm to Solve the Timetable Problem

IBRIDIA: A hybrid solution for processing big logistics data

ProLoD: An Efficient Framework for Processing Logistics Data

MSpace: An Emergent Approach, Modelling and Exploring Mutable Business-Entities

Towards Intelligent Distributed Computing: Cell-Oriented Computing

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