Planning. Search vs. planning STRIPS operators Partial-order planning. CS 561, Session 20 1
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1 Planning Search vs. planning STRIPS operators Partial-order planning CS 561, Session 20 1
2 What we have so far Can TELL KB about new percepts about the world KB maintains model of the current world state Can ASK KB about any fact that can be inferred from KB How can we use these components to build a planning agent, i.e., an agent that constructs plans that can achieve its goals, and that then executes these plans? CS 561, Session 20 2
3 Example: Robot Manipulators Example: (courtesy of Martin Rohrmeier) Puma 560 Kr6 CS 561, Session 20 3
4 Remember: Problem-Solving Agent tion Note: This is offline problem-solving. Online problem-solving involves acting w/o complete knowledge of the problem and environment CS 561, Session 20 4
5 Simple planning agent Use percepts to build model of current world state IDEAL-PLANNER: Given a goal, algorithm generates plan of action STATE-DESCRIPTION: given percept, return initial state description in format required by planner MAKE-GOAL-QUERY: used to ask KB what next goal should be CS 561, Session 20 5
6 A Simple Planning Agent function SIMPLE-PLANNING-AGENT(percept) returns an action static: KB, a knowledge base (includes action descriptions) p, a plan (initially, NoPlan) t, a time counter (initially 0) local variables:g, a goal current, a current state description TELL(KB, MAKE-PERCEPT-SENTENCE(percept, t)) current STATE-DESCRIPTION(KB, t) if p = NoPlan then G ASK(KB, MAKE-GOAL-QUERY(t)) p IDEAL-PLANNER(current, G, KB) if p = NoPlan or p is empty then action NoOp else action FIRST(p) Like popping from a stack p REST(p) TELL(KB, MAKE-ACTION-SENTENCE(action, t)) t t+1 return action CS 561, Session 20 6
7 Search vs. planning CS 561, Session 20 7
8 Search vs. planning CS 561, Session 20 8
9 Planning in situation calculus CS 561, Session 20 9
10 Basic representation for planning Most widely used approach: uses STRIPS language states: conjunctions of function-free ground literals (I.e., predicates applied to constant symbols, possibly negated); e.g., At(Home) Have(Milk) Have(Bananas) Have(Drill) goals: also conjunctions of literals; e.g., At(Home) Have(Milk) Have(Bananas) Have(Drill) but can also contain variables (implicitly universally quant.); e.g., At(x) Sells(x, Milk) CS 561, Session 20 10
11 Planner vs. theorem prover Planner: ask for sequence of actions that makes goal true if executed Theorem prover: ask whether query sentence is true given KB CS 561, Session 20 11
12 STRIPS operators Graphical notation: CS 561, Session 20 12
13 Types of planners Situation space planner: search through possible situations Progression planner: start with initial state, apply operators until goal is reached Problem: high branching factor! Regression planner: start from goal state and apply operators until start state reached Why desirable? usually many more operators are applicable to initial state than to goal state. Difficulty: when want to achieve a conjunction of goals Initial STRIPS algorithm: situation-space regression planner CS 561, Session 20 13
14 State space vs. plan space Search space of plans rather than of states. CS 561, Session 20 14
15 Operations on plans Refinement operators: add constraints to partial plan Modification operator: every other operators CS 561, Session 20 15
16 Types of planners Partial order planner: some steps are ordered, some are not Total order planner: all steps ordered (thus, plan is a simple list of steps) Linearization: process of deriving a totally ordered plan from a partially ordered plan. CS 561, Session 20 16
17 Partially ordered plans CS 561, Session 20 17
18 Plan We formally define a plan as a data structure consisting of: Set of plan steps (each is an operator for the problem) Set of step ordering constraints e.g., A B means A before B Set of variable binding constraints e.g., v = x where v variable and x constant or other variable Set of causal links e.g., A c B means A achieves c for B CS 561, Session 20 18
19 POP algorithm sketch CS 561, Session 20 19
20 POP algorithm (cont.) CS 561, Session 20 20
21 Clobbering and promotion/demotion CS 561, Session 20 21
22 Example: block world CS 561, Session 20 22
23 Example (cont.) CS 561, Session 20 23
24 Example (cont.) CS 561, Session 20 24
25 Example (cont.) CS 561, Session 20 25
26 Example (cont.) CS 561, Session 20 26
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