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1 Artificial Intelligence Dr Ahmed Rafat Abas Computer Science Dept, Faculty of Computers and Informatics, Zagazig University
2 Solving problems by searching Chapter 3
3 Uniform-cost search Expand least-cost unexpanded node Implementation: fringe = queue ordered by path cost Equivalent to breadth-first if step costs all equal Complete? Yes, if step cost ε Time? number of nodes with g cost of optimal solution, O(b ceiling(1+c*/ ε) ) where C * is the cost of the optimal solution Space? number of nodes with g cost of optimal solution, O(b ceiling(1+c*/ ε) ) Optimal? Yes nodes expanded in increasing order of g(n)
4 Depth-first search Expand deepest unexpanded node Implementation: fringe = LIFO queue (stack), i.e., put successors at front
5 Depth-first search Expand deepest unexpanded node Implementation: fringe = LIFO queue, i.e., put successors at front
6 Depth-first search Expand deepest unexpanded node Implementation: fringe = LIFO queue, i.e., put successors at front
7 Depth-first search Expand deepest unexpanded node Implementation: fringe = LIFO queue, i.e., put successors at front
8 Depth-first search Expand deepest unexpanded node Implementation: fringe = LIFO queue, i.e., put successors at front
9 Depth-first search Expand deepest unexpanded node Implementation: fringe = LIFO queue, i.e., put successors at front
10 Depth-first search Expand deepest unexpanded node Implementation: fringe = LIFO queue, i.e., put successors at front
11 Depth-first search Expand deepest unexpanded node Implementation: fringe = LIFO queue, i.e., put successors at front
12 Depth-first search Expand deepest unexpanded node Implementation: fringe = LIFO queue, i.e., put successors at front
13 Depth-first search Expand deepest unexpanded node Implementation: fringe = LIFO queue, i.e., put successors at front
14 Depth-first search Expand deepest unexpanded node Implementation: fringe = LIFO queue, i.e., put successors at front
15 Depth-first search Expand deepest unexpanded node Implementation: fringe = LIFO queue, i.e., put successors at front
16 Properties of depth-first search Complete? No: fails in infinite-depth spaces and, spaces with loops Modify to avoid repeated states along path complete in finite spaces Time? O(b m ): terrible if m is much larger than d but if solutions are deep, may be much faster than breadth-first Space? O(bm), i.e., linear space! Optimal? No
17 Depth-limited search This strategy is similar to depth-first search with depth limit l, i.e., nodes at depth l have no successors Recursive implementation:
18 Iterative deepening search
19 Iterative deepening search l =0
20 Iterative deepening search l =1
21 Iterative deepening search l =2
22 Iterative deepening search l =3
23 Iterative deepening search Number of nodes generated in a depth-limited search to depth d with branching factor b: 2 d N 1 b b... b DLS Number of nodes generated in an iterative deepening search to depth d with branching factor b: N IDS ( d 1) b ( d) b For b = 10, d = 5, 0 1 ( d 1) b 2... (3) b N DLS = , , ,000 = 111,111 N IDS = , , ,000 = 123,456 d 2 (2) b d 1 (1) b d Overhead = (123, ,111)/111,111 = 11%
24 Properties of iterative deepening search Complete? Yes Time? (d+1)b 0 + d b 1 + (d-1)b b d = O(b d ) Space? O(bd) Optimal? Yes, if step cost = 1 This strategy is preferred when there is a large search space and the depth of the solution is unknown.
25 Bidirectional search Consists of two simultaneous searches: One forward from the initial state The other backward from the goal It stops when the two searches meet in the middle. It is implemented by: having one or both of the searches check each node before it is expanded to see if it is in the fringe of the other search tree; if so, a solution is found.
26 Properties of the Bidirectional search Complete? Yes, if both searches are breadth-first with uniform step costs. Time? b 0 + b 1 + b b d/2 = O(b d/2 ) Space? O(b d/2 ) Optimal? Yes, if both searches are breadth-first with uniform step costs. This strategy reduces time complexity, but it is not always applicable and may require too much space.
27 Comparing uninformed search strategies
28 Repeated states Failure to detect repeated states can turn a linear problem into an exponential one!
29 Graph search This strategy eliminates all duplicate states.
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