1. Explain how this online search problem can be viewed as an offline search in belief-state space, where the initial belief state includes all possible environment configurations. How large is the initial belief state? How large is the space of belief states?
2. How many distinct percepts are possible in the initial state?
3. Describe the first few branches of a contingency plan for this problem. How large (roughly) is the complete plan?
Notice that this contingency plan is a solution for *every possible environment* fitting the given description. Therefore, interleaving of search and execution is not strictly necessary even in unknown environments.
Suppose that an agent is in a $3 \times 3$
maze environment like the one shown in
FigureĀ maze-3x3-figure. The agent knows that its
initial location is (3,3), that the goal is at (1,1), and that the four
actions *Up*, *Down*, *Left*, *Right* have their usual
effects unless blocked by a wall. The agent does *not* know
where the internal walls are. In any given state, the agent perceives
the set of legal actions; it can also tell whether the state is one it
has visited before or is a new state.
1. Explain how this online search problem can be viewed as an offline
search in belief-state space, where the initial belief state
includes all possible environment configurations. How large is the
initial belief state? How large is the space of belief states?
2. How many distinct percepts are possible in the initial state?
3. Describe the first few branches of a contingency plan for this
problem. How large (roughly) is the complete plan?
Notice that this contingency plan is a solution for *every
possible environment* fitting the given description. Therefore,
interleaving of search and execution is not strictly necessary even in
unknown environments.