Title :
An Optimal-Control-Based Decision-Making Model and Consulting Methodology for Service Enterprises
Author :
Zhang, Liang-Jie ; Shan, Zhe ; Mao, Zhi-Hong
Author_Institution :
Thomas J. Watson Res. Center, Int. Bus. Machines Corp., Hawthorne, NY, USA
Abstract :
The service industry has become a primary point of growth in most countries. However, the current service business is largely constrained by human factors and lacks automated and quantitative techniques for operation and decision making. In this paper, we propose an optimal-control-based decision-making model that facilitates performance analysis and strategy planning for service enterprises. Using approximate dynamic programming, we are able to handle the model´s complexity and obtain a near-optimal solution for the decision making of employee management, advertisement, and asset investment. We validate our model and approach in a business simulation practice. Furthermore, we propose a consulting methodology based on the optimal-control model and describe its application in service consulting practices.
Keywords :
approximation theory; decision making; dynamic programming; optimal control; service industries; advertisement; approximate dynamic programming; asset investment; employee management; human factors; optimal-control-based decision-making model; performance analysis; service industry; strategy planning; Business; Decision making; Dynamic programming; Economic indicators; Humans; Industrial economics; Investments; Manufacturing industries; Productivity; Senior members; Approximate dynamic programming (ADP); consulting methodology; decision making; optimal control; service enterprises;
Journal_Title :
Engineering Management, IEEE Transactions on
DOI :
10.1109/TEM.2009.2034270
