DEVELOPMENT AND TESTING OF DATA STRUCTURES FOR THE CPM/MRP METHODOLOGY.

Abstract

A major purpose of this dissertation is to design and develop data structures for the Critical Path Method-Material Requirements Planning (CPM/MRP) methodology. The data structures developed consider the trade-off between processing time required to perform the required operations on data structures and the computer capacity utilization to store data. The CPM/MRP technique was designed to combine the capabilities of the critical path method and material requirements planning system. The critical path method is a project planning and control technique which schedules projects subject to technological sequence constraints and activity durations. When combined with material requirements planning, the methodology explicitly considers both the resources required by the activities comprising the project and the lead time to acquire the required resources. CPM/MRP contains algorithms for project scheduling subject to technological sequence and resource constraints. The early start and late start algorithms find feasible early start and late start schedules for both activity start times and resource order release times. The major drawback of the FORTRAN IV computer program which incorporated the CPM/MRP algorithms was the tremendous computer memory capacity requirements. This prohibited application of the CPM/MRP to large projects. The data structures developed in this dissertation are efficient with respect to both computer memory utilization and processing time. To design the data structures, the characteristics of storable and non-storable resources and the necessary operations within each resource category is studied. Another purpose of this dissertation is to develop an algorithm to schedule operating rooms for surgery procedures in hospitals subject to resource constraints to increase operating suite utilization. Since the major reason for low operating suite utilization is lack of required resources when they are needed and where they are needed, the CPM/MRP concept is applied to schedule surgeries. The late start algorithm outlined in this dissertation schedules surgeries and resources required for each surgery. The data structures and the surgery scheduling algorithm are incorporated into a FORTRAN IV computer program. The program has been tested with actual data gathered from a hospital. The results met the objectives of both computer memory utilization and low computation time.