Abstract
Max-plus algebra is a discrete algebraic system developed on the operations max (<img src=image/13420822_01.gif>) and plus (<img src=image/13420822_03.gif>), where the max and plus operations are defined as addition and multiplication in conventional algebra. This algebraic structure is a semi-ring with its elements being real numbers along with ε=-∞ and e=0. On the other hand, the synchronized discrete event problem is a problem in which an event is scheduled to meet a deadline. There are two aspects of this problem. They include the events running simultaneously and the completion of the lengthiest event at the deadline. A recent survey on max-plus linear algebra shows that the operations max (<img src=image/13420822_01.gif>) and plus (<img src=image/13420822_03.gif>) play a significant role in modeling of human activities. However, numerous studies have shown that there are very limited literatures on the application of the max-plus algebra to real-life problems. This idea motivates the basic algebraic results and techniques of this research. This paper proposed the discrepancy method of max-plus for solving n×n system of linear equations with n≤n, and further show that an nxn linear system of equations will have either a unique solution, an infinitely many solutions or no solution whiles nxn linear system of equations has either an infinitely many solutions or no solution in (<img src=image/13420822_02.gif>). Also, the proposed concept was extended to the job-shop problem in a synchronized event. The results obtained have shown that the method is very efficient for solving n×n system of linear equations and is also applicable to job-shop problems.
Highlights
Max-plus algebra equipped with max as addition and + as multiplication is a class of discrete algebraic systems, that plays an important role in modeling and analyses of various types of discrete event systems (DES) including control systems, intelligent transportation systems, multiprocessor operating systems, multi-level monitoring, computer networks, telecommunication networks, railway networks, flexible manufacturing systems, traffic control systems, logistic systems, and many more [1,2]
Motivated by the above discussion, in this paper, we studied the discrepancy method of max-plus for solving aa × aa system of linear equations with aa ≤ aa, and further extended the proposed concept to solve real-life problem of job-shop scheduling in a synchronized event
The above analysis work for aa × aa system of equation which can be used as model in solving problem in discrete event system such as job rotation or job scheduling which we considered in section as application
Summary
Max-plus algebra equipped with max as addition and + as multiplication is a class of discrete algebraic systems, that plays an important role in modeling and analyses of various types of discrete event systems (DES) including control systems, intelligent transportation systems, multiprocessor operating systems, multi-level monitoring, computer networks, telecommunication networks, railway networks, flexible manufacturing systems, traffic control systems, logistic systems, and many more [1,2]. Discrete event systems whereby no concurrency, which means only the synchronization is been modeled via the operations plus (⨂) (conforming to the period of events: the starting time plus the duration equal the finishing time of an operation), and max (⨁) (conforming to synchronization: a new operation begins immediately the current operations finish) [8,9] This led to the “linear” description in the max-plus algebra. If AA is both row and column R-astic, it is called doubly R-astic
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