Multiple robot control system using grid coordinate system for tracking and completing travel over a mapped region containing obstructions
First Claim
1. A control system for a mobile robot for causing the robot to automatically run along a predetermined path, in a selected direction, and at a selected speed by controlling the rotation of right and left drive wheels thereof independently of each other, said control system comprising:
- position identification means for sensing the distance travelled by the robot and the change in direction of travel of the robot, calculating the position of the robot in two-dimensional coordinates in response to the sensed distance and the sensed change in direction, and generating a position signal representative of said robot position;
storage means for storing a map consisting of a number of unit blocks which are defined by parallel columns and parallel rows in two-dimensional coordinates;
obstruction sensor means connected to said storage means for sensing an obstruction to generate an obstruction signal, said obstruction sensor means being mounted on a front end and both sides of the robot with respect to an intended direction of travel of the robot;
teaching means for causing the robot to move along the boundary of an area range to be travelled by the robot, so that said area range is stored in the map of the storage means in response to the position signal output from the position identification means;
first operation means connected to said position identification means and said storage means for causing the robot to sequentially move back and forth along the rows and columns by moving along the rows of one of the columns of the map in the area range stored in the map and sequentially shifting to the subsequent row of columns;
second operation means connected to said obstruction sensor means for shifting the robot to one of the next columns in response to detection of an obstruction by said obstruction sensor means by turning the robot at a position where the obstruction is sensed;
non-travelled region discriminating means connected to said storage means for discriminating an initial non-travelled region by reading out the actual travelled region out of the storage means and comparing the actual travelled region with said stored area range as determined by said teaching means;
third operation means connected to said second operation means and to said non-travelled region discriminating means for moving the robot to said initial non-travelled region to cause the robot to initially resume reciprocation along a beginning of said initial non-travelled region, whereby the obstruction sensor means again detects said obstruction such that the robot continues to move along said initial non-travelled region, excluding the area occupied by said obstruction, until said third operation means returns said robot to said beginning of said initial non-travelled region upon the path travelled by the robot reaching the end of said initial non-travelled region; and
end-of-travel discriminating means connected to said storage means for discriminating completion of the travel of the robot after the initial non-travelled region has been travelled upon by the robot and the area range has been travelled upon by the robot except for the obstruction.
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Abstract
A control system for a mobile robot calculates the instantaneous position of the robot, and sequentially stores data representative of the respective robot positions. The system studies and stores a range which the robot is to travel, and calculates a running pattern of the robot in the specific range. The robot is allowed to travel within the range without leaving any region untravelled in spite of the presence of obstructions which alters its path, while checking its own position. Also, the robot compensates for dislocations caused by slippage of its drive wheels or errors in the operation of its motors.
440 Citations
2 Claims
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1. A control system for a mobile robot for causing the robot to automatically run along a predetermined path, in a selected direction, and at a selected speed by controlling the rotation of right and left drive wheels thereof independently of each other, said control system comprising:
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position identification means for sensing the distance travelled by the robot and the change in direction of travel of the robot, calculating the position of the robot in two-dimensional coordinates in response to the sensed distance and the sensed change in direction, and generating a position signal representative of said robot position; storage means for storing a map consisting of a number of unit blocks which are defined by parallel columns and parallel rows in two-dimensional coordinates; obstruction sensor means connected to said storage means for sensing an obstruction to generate an obstruction signal, said obstruction sensor means being mounted on a front end and both sides of the robot with respect to an intended direction of travel of the robot; teaching means for causing the robot to move along the boundary of an area range to be travelled by the robot, so that said area range is stored in the map of the storage means in response to the position signal output from the position identification means; first operation means connected to said position identification means and said storage means for causing the robot to sequentially move back and forth along the rows and columns by moving along the rows of one of the columns of the map in the area range stored in the map and sequentially shifting to the subsequent row of columns; second operation means connected to said obstruction sensor means for shifting the robot to one of the next columns in response to detection of an obstruction by said obstruction sensor means by turning the robot at a position where the obstruction is sensed; non-travelled region discriminating means connected to said storage means for discriminating an initial non-travelled region by reading out the actual travelled region out of the storage means and comparing the actual travelled region with said stored area range as determined by said teaching means; third operation means connected to said second operation means and to said non-travelled region discriminating means for moving the robot to said initial non-travelled region to cause the robot to initially resume reciprocation along a beginning of said initial non-travelled region, whereby the obstruction sensor means again detects said obstruction such that the robot continues to move along said initial non-travelled region, excluding the area occupied by said obstruction, until said third operation means returns said robot to said beginning of said initial non-travelled region upon the path travelled by the robot reaching the end of said initial non-travelled region; and end-of-travel discriminating means connected to said storage means for discriminating completion of the travel of the robot after the initial non-travelled region has been travelled upon by the robot and the area range has been travelled upon by the robot except for the obstruction. - View Dependent Claims (2)
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Specification