Development of a Multicriteria Decision Model for Prioritizing Air Force Environmental Restoration Program Projects
Abstract
Cleaning up hazardous and toxic wastes left from past activities has become one of the major goals of the Department of Defense. Within the Air Force, individual major commands (MAJCOMs) annually review numerous projects submitted under the Defense Environmental Restoration Program (DERP) and forward these projects to HQ USAF/CEVR for funding. Until recently, adequate resources have been available to fully fund all projects. However, within the last two years, funding shortfalls have been experienced, and projects have received only partial funding. The Air Force needs a decision support system that will assist in determining funding priorities for these projects. This thesis presents two possible methodologies and resulting multicriteria decision models for determining funding priorities within the constraints of a limited budget. The first method utilizes a Delphi procedure to elicit pertinent criteria, weights, and utilities from DERP experts. The second method utilizes multiattribute utility theory to determine the preference structure of a single decision maker. Each method results in a working model which can be used to prioritize DERP projects. Both models resulted in risk being the primary decision criterion. Additionally the Delphi model also utilized cost, community acceptance, technical feasibility, mission impact, ana socioeconomic impact. Environmental restoration, Environmental cleanup, Installation restoration program, Defense environmental restoration program, Prioritization, Multicritera decision model, Delphi, Multiattribute utility, Theory.
Document Details
- Document Type
- Technical Report
- Publication Date
- Sep 01, 1993
- Accession Number
- ADA270460
Entities
People
- T. G. Gallogly
- Thomas E. Ellingson
Organizations
- Air Force Institute of Technology