APPROXIMATE DYNAMIC PROGRAMMING FOR OPTIMAL SEARCH WITH AN OBSTACLE

In this paper, we study a class of optimal search problems where the search region includes a target and an obstacle, each of which has some shape. The search region is divided into small grid cells and the searcher examines one of those cells at each time period with the objective of finding the target with minimum expected cost. The searcher may either take an action that is quick but risky, or another one that is slow but safe, and incurs different cost for these actions. We formulate these problems as Markov Decision Processes (MDPs), but because of the intractability of the state space, we approximately solve the MDPs using an Approximate Dynamic Programming (ADP) technique and compare its performance against heuristic decision rules. Our numerical experiments reveal that the ADP technique outperforms heuristics on majority of problem instances