| Article ID: | iaor19982991 |
| Country: | United States |
| Volume: | 43 |
| Issue: | 7 |
| Start Page Number: | 895 |
| End Page Number: | 907 |
| Publication Date: | Jul 1997 |
| Journal: | Management Science |
| Authors: | Mulvey John M., Carpenter Tamra, Bai Dawei |
| Keywords: | financial, networks, programming: nonlinear |
Robust optimization searches for recommendations that are relatively immune to anticipated uncertainty in the problem parameters. Stochasticities are addressed via a set of discrete scenarios. This paper presents applications in which the traditional stochastic linear program fails to identify a robust solution—despite the presence of a cheap robust point. Limitations of piecewise linearization are discussed. We argue that a concave utility function should be incorporated in a model whenever the decision maker is risk averse. Examples are taken from telecommunications and financial planning.