John E. Boylan

Intermittent Demand Forecasting


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      With regard to the review interval, for both left-parenthesis upper R comma upper S right-parenthesis and left-parenthesis upper R comma s comma upper S right-parenthesis systems, this can be either optimised or, as most often happens in practice, set to be equal to a convenient time unit. The review interval can be optimised by classical economic lot size computations. The expected time over which the economic order quantity (EOQ) will be demanded is used to determine the review interval, upper R (see, for example, Brown 1982). Alternatively, upper R may be set to a standard time unit such as, for example, half a day for a retailer, a week for a wholesaler, or a month for a manufacturer. The inventory review interval is usually decided by taking into account such factors as the nature of the business (the higher the volume of business the shorter the review interval will be to facilitate control), the lead times (if the lead time is one day it would not make much sense to set the review interval to one month), and inventory software related constraints. There is little guidance in the academic literature on setting appropriate inventory review intervals. Nevertheless, we remark that the forecast update interval is typically set to be equal to the inventory review interval, and this makes sense from a practical perspective.

      As previously discussed, one may question the practical relevance of continuous review when most inventory control systems seem to be relying upon some sort of periodic review. However, continuous systems tend to be easier to analyse mathematically. In addition, as the review interval becomes shorter and shorter, periodic formulations become hard to distinguish from continuous ones. For daily or even half‐daily review intervals commonly used by retailers, the continuous assumption is a reasonable one (e.g. Cattani et al. 2011).

      Fixing the inventory review interval to be the same for a number of SKUs facilitates their collective replenishment from a common supplier, and introduces some stability in the inventory and purchasing organisational functions. We do not mean to imply here that all periodic inventory control systems are necessarily easy to implement, but in an intermittent demand context at least, where we deal with very high numbers of items, these are more realistic than continuous policies. In the subsections to follow, the literature on periodic inventory control for intermittent demand items is summarised and the main approaches to managing intermittent demand stocks are discussed.

      2.5.3 Periodic Review Policies

      The left-parenthesis upper R comma s comma upper S right-parenthesis inventory control systems have been claimed, on the basis of theoretical arguments, to be the best for the management of intermittent demand items (Sani 1995). Many left-parenthesis upper R comma s comma upper S right-parenthesis policies have been developed in the academic literature, some giving optimal solutions (e.g. Veinott and Wagner 1965), and some not (e.g. Wagner 1975; Naddor 1975; Ehrhardt 1979; Ehrhardt and Mosier 1984; Porteus 1985). The policies that are non‐optimal are ‘heuristic’. ‘Heuristics’ here refer to the use of some (more) easily implementable rules and calculations, which reach a solution that may be close to optimal but does not necessarily achieve optimality (Sani and Kingsman 1997; Babai et al. 2010). Optimality is sacrificed in favour of some increased practical applicability.

      In practice, left-parenthesis upper R comma s comma upper S right-parenthesis systems are not used as much as left-parenthesis upper R comma upper S right-parenthesis systems. This emphasis is reflected in the academic literature,