ROBOT AND TASK EXECUTION SYSTEM

1. A robot which executes a task by making autonomous actions on the basis of communication with a support server provided with a task database, comprising:

• a plurality of active sensors with directivity configured to output electromagnetic waves or elastic oscillation waves, and output signals related to an external state of the robot according to the received reflection waves of the electromagnetic waves or the elastic oscillation waves; and
  
  a controller configured to control actions of a self robot on the basis of the output signals from the plurality of active sensors;
  
  wherein the controller is provided with a first processing element and a second processing element,the first processing element is configured to determine a position and an orientation of the self robot,store the position and the orientation in the task database on the basis of communication with the support server,recognize a position and an orientation of another robot in the task database on the basis of communication with support server, anddesignate in the plurality of active sensors disposed in the self robot an active sensor which has a possibility to interfere with either of the plurality of active sensors disposed in the other robot on the basis of the determination result and the recognition result, andthe second processing element is configured to evaluate a degree of contribution of each of the plurality of active sensors to a task being executed by the self robot,store the degree of contribution in the task database on the basis of communication with the support server,recognize at least the degree of contribution of an active sensor of the other robot designated by the first processing element in the task database on the basis of communication with the support server,compare the degree of contribution of the designated active sensor of the self robot with the degree of contribution of the designated active sensor of the other robot on the basis of the determination result and the recognition result, anddecrease an output intensity of the designated active sensor of the self robot on a condition that the degree of contribution of the designated active sensor of the self robot is lower than the degree of contribution of the designated active sensor of the other robot.