Abstract: A system and method for monitoring operation of an autonomous robot. In one aspect, the invention can be a method comprising: defining, with a central processing unit of the autonomous robot, a perimeter of an area of confinement; storing the perimeter of the area of confinement within a memory device of the autonomous robot as map data; transmitting the map data from a transceiver of the autonomous robot to a server; overlaying, by the server, the area of confinement onto a satellite image corresponding to a geographic location that includes the area of confinement to create a visual representation of the area of confinement overlaid onto the satellite image; transmitting, from the server to an external device, the visual representation of the area of confinement overlaid onto the satellite image; and displaying, on a display, the visual representation of the area of confinement overlaid onto the satellite image.

Abstract: An autonomous robot apparatus that is activated to perform a work routine upon detecting the accumulation of precipitation. In one aspect, the invention can be an autonomous robot apparatus comprising: a chassis; a plurality of wheels mounted to the chassis; a drive system mounted to the chassis and operably coupled to the plurality of wheels; a control module operably coupled to the drive system; a precipitation sensing module comprising an accumulation level sensor configured to generate and transmit, to the control module, a first signal upon a predetermined initial accumulation level being detected; and the control module configured to activate the autonomous robot apparatus to perform a first instance of a work routine upon receipt of the first signal.