Stalking information: Bayesian inventory management with unobserved lost sales.

*(English)*Zbl 1231.90043Summary: Retailers are frequently uncertain about the underlying demand distribution of a new product. When taking the empirical Bayesian approach of H. Scarf [Ann. Math. Stat. 30, 490–508 (1959; Zbl 0089.36801)], they simultaneously stock the product over time and learn about the distribution. Assuming that unmet demand is lost and unobserved, this learning must be based on observing sales rather than demand, which differs from sales in the event of a stockout. Using the framework and results of D. J. Braden and M. Freimer [Manage. Sci. 37, No. 11, 1390–1404 (1991; Zbl 0746.62005)], the cumulative learning about the underlying demand distribution is captured by two parameters, a scale parameter that reflects the predicted size of the underlying market, and a shape parameter that indicates both the size of the market and the precision with which the underlying distribution is known. An important simplification result of H. E. Scarf [Nav. Res. Logist. Q. 7, 591–596 (1960; Zbl 0104.14103)] and K. S. Azoury [Manage. Sci. 31, No. 9, 1150–1160 (1985; Zbl 0648.90022)], which allows the scale parameter to be removed from the optimization, is shown to extend to this setting. We present examples that reveal two interesting phenomena: (1) A retailer may hope that, compared to stocking out, realized demand will be strictly less than the stock level, even though stocking out would signal a stochastically larger demand distribution, and (2) it can be optimal to drop a product after a period of successful sales. We also present specific conditions under which the following results hold: (1) Investment in excess stocks to enhance learning will occur in every dynamic problem, and (2) a product is never dropped after a period of poor sales. The model is extended to multiple independent markets whose distributions depend proportionately on a single unknown parameter. We argue that smaller markets should be given better service as an effective means of acquiring information.

##### MSC:

90B05 | Inventory, storage, reservoirs |