Abstract: An automatic implement attachment and detachment system having a ground utility robot a sensor, a computer processor, an artificial intelligence processing unit for learning, and a computer memory where the system also includes a quick hitch attachment apparatus having a body securable to the ground utility robot, at least one mateable connection part, and an implement having a connection member where the implement attachment system is configured to automatically attach and detach the implement to and from the ground utility robot.
Abstract: An automatic implement attachment and detachment system having a ground utility robot with at least one sensor; a computer processor; and a computer memory whereby the system also includes a quick hitch attachment apparatus having a body securable to the ground utility robot; at least one mateable connection part; and an implement having at least one connection member where the implement attachment system is configured to automatically attach and detach the implement to and from the ground utility robot.
Abstract: A powered implement system having a ground utility robot, at least one three-point hitch, a means to connect the at least one three-point hitch to at least one end of the ground utility robot, at least one power take-off on the ground utility robot that is connectable to at least one implement, and where the ground utility robot controls and powers the at least one power take-off.
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