Accession Number : ADA300661
Title : A Comparison of Consistent Versus Inconsistent Scheduling Rules in a Flow Shop Environment.
Descriptive Note : Master thesis,
Corporate Author : AIR FORCE INST OF TECH WRIGHT-PATTERSON AFB OH SCHOOL OF LOGISTICS AND ACQUIS ITION MANAGEMENT
Personal Author(s) : Gismondi, Nicola
PDF Url : ADA300661
Report Date : SEP 1995
Pagination or Media Count : 38
Abstract : A consistent scheduling rule is one which will ensure a job's priority (relative to all other job's) will remain constant as it moves from queue to queue in a production system. Previous research concerning flow shop priority scheduling rules focused on comparison of either consistent or inconsistent rules. Conversely, this study sought to provide additional insight by comprising consistent and inconsistent rules in a flow shop environment The Air Force uses both types of rules in maintenance and logistics scheduling. Time and money can be saved if the scheduling managers can better understand the effect of consistency on a system. In order to try to provide some insight on this matter, a simulation study was conducted using The Pritsker Corporation's FACTOR/AIM simulation software. A 2X2 full factorial experimental design was used. The two factors were the level of consistency and type of operating characteristic used. The consistent and inconsistent forms of arrival based and due date based rules made up the 2X2 matrix. A third level of operating characteristic was also tested and discussed. A processing time based rule was tested but could not be included in the matrix because of the failure of the data to meet the assumptions of the required statistical test. Several common performance measures were used to provide a broad range of overall performance comparison. The data was statistically analyzed using a repeated measures ANOVA, Duncan's Multiple Range Test, and a paired t-test to determine whether differences were present. Results indicate that there were statistical differences that may provide some valuable information to scheduling managers.
Descriptors : *HEURISTIC METHODS, *JOB SHOP SCHEDULING, MATHEMATICAL MODELS, COMPUTERIZED SIMULATION, SOFTWARE ENGINEERING, QUEUEING THEORY, TIME DEPENDENCE, LOGISTICS MANAGEMENT, COMPARISON, ANALYSIS OF VARIANCE, THESES, INPUT OUTPUT PROCESSING, RULE BASED SYSTEMS, AIR FORCE PERSONNEL, MAINTENANCE MANAGEMENT.
Subject Categories : Operations Research
Logistics, Military Facilities and Supplies
Distribution Statement : APPROVED FOR PUBLIC RELEASE