Title :
Optimal control of a queueing system with two interacting service stations and three classes of impatient tasks
Author :
Wu, Zhen-jiang ; Luh, Peter B. ; Chang, Shi-Chung ; Castanon, David A.
Author_Institution :
Dept. of Electron. Eng., Changsha Inst. of Technol., China
Abstract :
The problem of task selection and service priority is studied for a queueing network with two interacting service stations and three classes of impatient tasks. By using stochastic dynamic programming, a functional equation for the optimal, state-dependent priority assignment policy is derived. Properties of the optimal cost-to-go functions and the optimal policy are established through inductive proofs. It is shown that the optimal policy is governed by two switching surfaces in the three-dimensional state space (one dimension for each task class). For the infinite-time-horizon case, the optimal policy is shown to be stationary. In this case, the optimal cost-to-go function and switching surfaces are obtained numerically by using the overrelaxed Gauss-Seidel method. Sensitivities of the optimal policy with respect to key system parameters are also investigated.<>
Keywords :
dynamic programming; functional equations; optimal control; queueing theory; stochastic programming; dynamic programming; impatient tasks; optimal control; optimal cost-to-go function; overrelaxed Gauss-Seidel method; queueing network; queueing system; queueing theory; service priority; stochastic programming; switching surfaces; task selection; Control systems; Cost function; Network servers; Optimal control; Routing; Subcontracting; Supervisory control; Systems engineering and theory; Telecommunication traffic; Traffic control;
Journal_Title :
Automatic Control, IEEE Transactions on
