"Inventory." . . "Set theory." . . . . . . "An infinite Markov process with a finite number of states is studied in which the transition probabilities for each state range independently over sets which are either finite or are convex polyhedra. A finite computational procedure is given for choosing those transition probabilities which minimize appropriate functions of the resulting equilibrium probabilities. (Author)."@en . . . . . . . . . "LINEAR PROGRAMMING IN A MARKOV CHAIN"@en . . . . . "Linear programming in a Markov chain" . "Linear programming in a Markov chain"@en . "An infinite Markov process with a finite number of states is considered in which the transition probabilities for each stage range independently over sets that either are finite or are convex polyhedra. A finite computational procedure is given for choosing those transition probabilities which minimize appropriate functions of the resulting equilibrium probabilities. (Author)."@en . . . . . . . . "Linear programming in a markov chain. notes on linear programming and extensions. part 59"@en . "Statistical processes." . . "Linear programming." . . "(Linear programming." . "Linear programming)" . "Iterations." . . . . "Functions(mathematics)" . . "Probability)" . . "(Probability." . "RAND CORP SANTA MONICA CALIF." . . "Costs." . . "Scheduling." . . "Logistics." . .