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Artificial Intelligence in Game Design Complex Steering Behaviors and Combining Behaviors.

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Presentation on theme: "Artificial Intelligence in Game Design Complex Steering Behaviors and Combining Behaviors."— Presentation transcript:

1 Artificial Intelligence in Game Design Complex Steering Behaviors and Combining Behaviors

2 Path Following Examples: –Move from one location to another along known route –Patrol area cyclically –Implementation of high-level path planning Go to door of bookstore Go down hall Go into PC room Path following moves character along these steps

3 Path Following Note that will never follow path perfectly –Like arrive, can’t ever reach an exact location –More realistic to move in smooth curves –More realistic if don’t follow exact path every time (patrolling) Desired path Actual path

4 Path Following Break desired path down into set of points along path Seek each point in sequence –When “close enough” to point, seek next point Possibly defined as slowRadius

5 Path Following Waypoints at important path points –Generated automatically or chosen manually by level designer –Most accurate to meet goal of path –Path planning algorithms used to create path from waypoints Desired path

6 Wall Avoidance Goal: keep character some avoidDistance from walls –Usually based on “bounding sphere” of object Most graphical objects represented this way avoidDistance

7 Wall Avoidance Project path of character to some lookahead away –lookahead > minimum distance required for stop at maxAccel when traveling at maxSpeed –Projection can use same algorithms that graphics use for ray casting If wall within lookahead, steer away lookahead

8 Wall Avoidance Determine collision point Project to point perpendicular to wall safeDistance away Seek that location avoidDistance Collision point Seek this point

9 Wall Avoidance May still collide with wall Algorithm will keep steering until parallel to wall New collision point Seek this new point

10 Wall Avoidance Corners can be problem if not detected by ray trace –Very common problem in robotics One solution: “whiskers” Project three lines from character No collision detected collision detected Steer away

11 Collision Avoidance Goal: avoid collisions with other characters who are also in motion –Is collision going to occur? –If so, how should we steer? Location of closest approach –Not where paths intersect

12 Collision Avoidance If distance less than some safeRadius at that point Flee that point If already in collision with object, just Flee its current location safeRadius Collision detected Flee where obstacle will be at that point safeRadius In collision Flee

13 Collision Avoidance Much more difficult if multiple obstacles –Determine time to collision of all –Flee from location of first collision –No perfect solution to problem No collisionFirst collision Later collision

14 Collision Avoidance Expensive to compute if many obstacles –C characters checking for collisions with each other  C 2 checks One solution: only check characters within some search radius

15 Jumping NPC jumping over obstacles key to many games –Run towards obstacle to achieve needed speed –Jump over obstacle –Land on other side Must be convincing –Speed, launch point must look realistic –Character should not jump unless can succeed (unless player interrupts) Going too slow for realistic jump Jump fails

16 Jumping Jump points –Target for “run up” by NPC –Usually have corresponding “landing pad” Large enough so covers all landing points from all of jump point –Created by level designer Ideally room designed so jump point looks “natural” Jump point Landing pad

17 Jumping “Starting radius” for run up based on maxSpeed, maxAccel –Outside radius  Seek jump point –Inside radius  Arrive point outside radius Seek jump point Jump point Landing pad

18 Combining Steering Behaviors What if multiple steering rules fire? –What should resulting steering be? –Blending results of rules –Prioritizing some rules over others $ $ $ $ $ Flee player Arrive gold Avoid wall

19 Blended Steering Behaviors Weighted sum of steering from different rules –Weights = relative importance of action –Can depend on “strength of stimulus (distance, etc.) Example: –Flee player with weight 0.5/distance from player –Arrive gold with weight 1/distance from gold –Steering = sum of these $ $ $ $ $

20 Blended Steering Behaviors Can result in “intelligent” path choices $ $ $ $ $

21 Blended Steering Behaviors Flocking –Seek “center of gravity” of flock –Align with average direction –Avoid direct collisions Center of gravity Avoid collision Average direction

22 Blended Steering Behaviors Blending conflicting behaviors can give results that meet no goals pursue Wall avoid result seek flee Stimuli perfectly balanced – no motion at all!

23 Prioritized Steering Behaviors Choose most important goal and execute its steering completely Often proximity based –Within safeRadius of wall  execute WallAvoid behavior –Within attackRadius of player  execute Seek behavior Pursue not considered Wall avoid has priority

24 Prioritized Steering Behaviors Can group similar behaviors –Give each unique priority Often based on “level of damage” to character if not handled –If total steering from high- priority group < threshold try next highest priority group Stimulus for high-priority behavior not strong enough to matter Avoid obstacles group Avoid walls to side Avoid wall on turns Avoid collisions group Avoid cars to side Avoid car in front Follow path group Seek next point on path around track

25 Prioritized Steering Behaviors Avoid obstacles group Avoid walls to side Avoid wall on turns Avoid collisions group Avoid cars to side Avoid car in front Follow path group Seek next point on path around track Next path point Steer away from wall has priority Ignore possible collisions with cars Ignore next point on path Steering

26 Prioritized Steering Behaviors Avoid obstacles group Avoid walls to side Avoid wall on turns Avoid collisions group Avoid cars to side Avoid car in front Follow path group Seek next point on path around track Avoid collision has priority Avoid obstacles steering below threshold Ignore next point on path Next path point Collision detected Minimal steering from walls Steering

27 Prioritized Steering Behaviors Avoid obstacles group Avoid walls to side Avoid wall on turns Avoid collisions group Avoid cars to side Avoid car in front Follow path group Seek next point on path around track Seek next path point has priority Avoid obstacles steering below threshold Avoid collisions steering below threshold Next path point Minimal steering from walls Steering Minimal steering from other cars

28 Prioritized Steering Behaviors Can still get stuck in cycles –Steer for one high-priority behavior Far enough away so no longer priority –Other behavior becomes priority Steers back toward first problem flee Flee enemies Seek target seek

29 Higher Level Control of Steering Conflicts best resolved by higher-level reasoning –What is current state? –What overall goal are we attempting to accomplish? Same room as player Seek player Different room as player Arrive door Player exits room Enter room where player is Arrive door Seek player


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