Task Planning - PowerPoint PPT Presentation

1 / 7
About This Presentation
Title:

Task Planning

Description:

Gross Motion Planning concerns objects being moved from point A to point B ... point (e.g. centroid) while the obstacles are 'grown' to compensate the lost. ... – PowerPoint PPT presentation

Number of Views:135
Avg rating:3.0/5.0
Slides: 8
Provided by: ValuedSony5
Category:

less

Transcript and Presenter's Notes

Title: Task Planning


1
Task Planning
  • Three types of planning
  • Gross Motion Planning concerns objects being
    moved from point A to point B without problems,
    i.e. movement of manipulator without collision
    with obstacles
  • Grasping Planning concerns
  • where to grasp the object so that no collision
    will occur
  • the grasp configurations so that object will not
    fall off the gripper during transportation
  • Fine Motion Planning concerns the motions of the
    robot when it is
  • approaching a surface, i.e. guarded motion and
  • in contact with a surface, i.e. compliant motion

2
Gross Motion Planning
  • Concerns objects moving from Point A to Point B
    without collision gt obstacle avoidance problem
  • Gross in the sense that there is no contact of
    the robot with any parts
  • Objective is to plan a path to move a part from
    an initial position and orientation to a final
    position and orientationnin the presence of
    obstacle without colliding with the obstacls.
  • The planned path should be optimal, e.g. the
    shortest one.
  • In general, path planning is a search in the
    6-Dimension space (3 translational and 3
    rotational). However, the no. of degrees of
    freedom is usually less than 6. Why?
  • Configuration space is needed before an optimal
    path can be defined.

3
Gross Motion Planning (contd)
  • Configuration space defines the positions and
    orientations of the part (both initial and final)
    and the obstacles.
  • Path Planning is to define the explicit free
    space in the configuration space for the object
    to move from the intitial location to the final
    location.
  • One possible approach
  • Shapes and sizes of part (to be moved) and
    obstacles (stationary) are known
  • To define the configuration space, the moving
    part is shrinked to a reference point (e.g.
    centroid) while the obstacles are grown to
    compensate the lost.
  • Once the configuration is defined, the optimal
    path can be found.
  • Example (Given in class)

4
Grasping Planning
  • Concerns
  • where to grasp the object so that no collision
    will occur and
  • the object will not fall off during
    transportation.
  • Three main considerations
  • Safety - collision free, contact free
  • Reachability - able to reach initial
    configuration, with object in the gripper, move
    in a collision free path to the final
    destination and
  • Stability - the grasp should be stable in the
    presence of forces exerted on the object while in
    motion.

5
Grasping Planning (contd)
  • Three main goals
  • must identify a single configuration, i.e.
    position and orientation of the gripper
  • must consider the detailed interaction of the
    grippers shape, surfaces of contact and
  • must deal with the interaction of the choice of
    grasp consideration and the constraints imposed
    by the sequence of operations
  • Most approaches consist of three steps
  • choose a set of potential grasp configurations
  • Prune those that are not reachable by the robot
    or may lead to collision and
  • choose the optimal from the remaining ones.

6
Grasping Planning (contd)
  • Note
  • These approaches assume the configurations of
    objects are known
  • With the help of sensors, e.g. vision,
    configurations of objects can be computed
  • Touch sensors are often used to achieve the
    actual grasping of the objects.

7
Fine Motion Planning
  • Concerns the motions of the robot when it is
  • approaching a surface gt guarded motion
  • in contact with a surface gt compliant motion
  • Force and tactile sensors are usually used
  • Guarded Motion
  • Movement along a specific direction until certain
    event occurrs
  • Compliant Motion
  • After contact, the type of motion must comply
    with the constraints imposed by the surface
  • Motion is usually continuous and guided by
    contact with the surface
  • Example (given in class)
Write a Comment
User Comments (0)
About PowerShow.com