Please answer the following question in detail and explain all the proofs and assumptions for all parts. The question has three parts, (a), (b) and (c).

 

Iterative lengthening search is an iterative analogue of uniform-cost search. The basic idea is to use increasing limits on path cost. If a node is generated whose path cost exceeds the current limit, it is immediately discarded. For each new iteration, the limit is set to the lowest path cost of any node discarded in the previous iteration. (a) Show that this algorithm is optimal for general path costs. You may assume that all costs are integers (this is not a loss of generality if the search space is finite). You may wish to consider the minimal path cost C; what happens when we set the path cost to be some limit l < C? (b) Consider a uniform tree with branching factor b, solution depth d, and unit step costs (each action costs one unit). How many iterations will iterative lengthening require? (c) (7 points) Now consider the case where each step cost is a randomly chosen real number from the interval [ε, 1] for some 0 < ε < 1. Howmanyiterations are required in the worst case? Try to derive the best estimate you can.