Abstract
We consider a problem where a company must decide the order in which to launch new products within a given time horizon and budget constraints, and where the parameters of the adoption rate of these new products are subject to uncertainty. This uncertainty can bring significant change to the optimal launch sequence. We present a robust optimization approach that incorporates such uncertainty on the Bass diffusion model for new products as well as on the price response function of partners that collaborate with the company in order to bring its products to market. The decision-maker optimizes his worst-case profit over an uncertainty set where nature chooses the time periods in which (integer) units of the budgets of uncertainty are used for worst impact. This leads to uncertainty sets with binary variables. We show that a conservative approximation of the robust problem can nonetheless be reformulated as a mixed integer linear programming problem, is therefore of the same structure as the deterministic problem and can be solved in a tractable manner. Finally, we illustrate our approach on numerical experiments. Our model also incorporates contracts with potential commercialization partners. The key output of our work is a sequence of product launch times that protects the decision-maker against parameter uncertainty for the adoption rates of the new products and the response of potential partners to partnership offers.
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The authors would like to thank the editors of the special issue and two anonymous referees for their careful read and insightful comments that have substantially improved the paper.
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This work was done while Elcin Cetinkaya was a doctoral student at Lehigh University and was not sponsored by Amazon.com.
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Cetinkaya, E., Thiele, A. New product launch decisions with robust optimization. Comput Manag Sci 13, 263–292 (2016). https://doi.org/10.1007/s10287-015-0237-y
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DOI: https://doi.org/10.1007/s10287-015-0237-y