Author(s)

Hajime Yokoyama, Hiroyuki Goto

Department of Industrial & System Engineering, Hosei University, Tokyo, Japan.

This research develops a solution method for project scheduling represented by a max-plus-linear (MPL) form. Max-plus-linear representation is an approach to model and analyze a class of discrete-event systems, in which the behavior of a target system is represented by linear equations in max-plus algebra. Several types of MPL equations can be reduced to a constraint satisfaction problem (CSP) for mixed integer programming. The resulting formulation is flexible and easy-to-use for project scheduling; for example, we can obtain the earliest output times, latest task-starting times, and latest input times using an MPL form. We also develop a key method for identifying critical tasks under the framework of CSP. The developed methods are validated through a numerical example.

Max-Plus Algebra, Scheduling, Critical Path, Constraint Satisfaction Problems, Mixed Integer Programing

Yokoyama, H. and Goto, H. (2017) Reduction and Analysis of a Max-Plus Linear System to a Constraint Satisfaction Problem for Mixed Integer Programming. American Journal of Operations Research, 7, 113-120. doi: 10.4236/ajor.2017.72008.