Article ID: | iaor199252 |
Country: | United States |
Volume: | 9 |
Start Page Number: | 406 |
End Page Number: | 418 |
Publication Date: | Nov 1990 |
Journal: | Journal of Operations Management |
Authors: | Singhal Vinod R., Raturi Amitabh, S. |
Inventory costs are typically calculated by adding the out-of-pocket cost of holding inventory and the opportunity cost of capital tied up in inventory. The concept of opportunity cost of capital is based on the business risk of the firm associated with particular decisions. Most firms use a fixed opportunity cost of capital; an assumption also made by most production and inventory models. In other words, it is assumed that the production and inventory decisions do not affect the business risk of the firm. But, this assumption may be inappropriate given that the competitive environment in most industries has altered significantly in the last decade. This is evidenced in the popularity of just-in-time manufacturing systems, concerns for justification of new manufacturing technologies such as flexible manufacturing systems and robotics, and efforts to reduce inventory and setup costs. All of these catalysts for becoming more competitive have one thing in common-they alter the business risk of the firm significantly. Hence, in adopting, implementing and sustaining any of these, it seems appropriate that the change in the business risk is reflected by varying the opportunity cost of capital. This paper uses a simple single product inventory model to present a conceptual framework to show how various inventory parameters and decisions affect the firm’s business risk, and hence the firm’s opportunity cost of capital. The inventory parameters considered are setup cost, out-of-pocket inventory holding cost, replenishment lead time, standard deviation of demand, and correlation of demand with the stock market. The decision parameters considered are lot size and safety stock decisions of the firm. The framework also discusses how this interdependency can be incorporated in the decision-making process. This paper applies existing finance theory to inventory problems to develop some new insights and discuss possible applications of these insights. The present analysis has three main results. First, the business risk, and hence the opportunity cost of capital for inventory investments, is an increasing function of setup cost, replenishment lead time, out-of-pocket inventory holding cost, standard deviation of demand, and the correlation of demand with the stock market. Second, the opportunity cost of capital is a decreasing function of variable profit per unit (selling price minus variable costs). Third, lot size reductions can increase the business risk of the firm, and hence, the opportunity cost of capital, unless accompanied by a simultaneous decrease in the setup cost. The above mentioned results have a number of interesting implications in the current manufacturing environments where firms are changing their cost accounting systems, developing new ways to measure performance, and developing better ways to evaluate investments in new technologies. First, the present results suggest that inventory of products with high lead times and high setup costs should be charged a higher opportunity cost of capital. This would not only lead to a more accurate estimate of the cost of producing