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- Title
Evaluation Procedure for Mutually Exclusive Highway Safety Alternatives under Different Policy Objectives.
- Authors
Khasnabis, Snehamay; Mishra, Sabyasachee; Safi, Chirag
- Abstract
The purpose of evaluating mutually exclusive alternatives is to select the one with the most benefits for implementation. A number of analytic techniques are available for such evaluation purposes. This paper discusses four such techniques: cost effectiveness C/E, benefit-to-cost ratio B/C, internal rate of return (IRR), and payoff period (PP), including their theoretical foundation and data requirements. Also discussed are the measures of effectiveness (MOEs) associated with each of these techniques and how they are to be interpreted. Alternatives to be selected for implementation following such evaluation can typically be funded under different policy objectives. This paper identifies three such objectives: Objective A, constrained resource perspective; Objective B, investment perspective; and Objective C, face-value perspective. The possible relationship between the alternative selection and the program is discussed in the paper. A case study for a set of six mutually exclusive highway safety alternatives is presented using the four analytic techniques and three objectives, resulting in various possible solutions. Results show that under compatible assumptions, and for a given policy objective, the outcome of the evaluation is not affected by the choice of the analytic technique. However, for a given analytic technique, the outcome may be affected by the choice of the policy objective chosen. The principles presented are relevant for most public projects (e.g., transit, airports) involving the investment of taxpayer resources, even though the case study involves a highway safety project.
- Subjects
TRAFFIC safety; TRAFFIC safety policy; COST effectiveness; INTERNAL rate of return; AIRPORT safety
- Publication
Journal of Transportation Engineering, 2012, Vol 138, Issue 7, p940
- ISSN
0733-947X
- Publication type
Article
- DOI
10.1061/(ASCE)TE.1943-5436.0000397