A system for performing interactions within a physical environment including a robot base that undergoes movement relative to the environment, a robot arm mounted to the robot base, the robot arm including an end effector mounted thereon and a tracking system that measures a robot base position indicative of a position of the robot base relative to the environment. A control system acquires an indication of an end effector destination, determines a reference robot base position, calculates an end effector path extending to the end effector destination and repeatedly determines a current robot base position using signals from the tracking system, calculates a correction based on the current robot base position, the correction being indicative of a path modification, and controls the robot arm in accordance with the correction to move the end effector towards the end effector destination.

A system for performing interactions within a physical environment including a robot base, a robot base actuator that moves the robot base relative to the environment, a robot arm mounted to the robot base, the robot arm including an end effector mounted thereon and a tracking system that measures a tracking target position indicative of a position of a target mounted on the robot base. A control system acquires an indication of an end effector destination, determines a tracking target position at least in part using signals from the tracking system, determines a virtual robot base position offset from the robot base and calculates a robot base path extending from the virtual robot base position to the end effector destination, using this to control the robot base actuator to cause the robot base to be moved along the robot base path.

A system for performing interactions within a physical environment including a robot base that undergoes movement relative to the environment, a robot arm mounted to the robot base, the robot arm including an end effector mounted thereon and a tracking system that measures a robot base position indicative of a position of the robot base relative to the environment. A control system acquires an indication of an end effector destination, determines a reference robot base position, calculates an end effector path extending to the end effector destination and repeatedly determines a current robot base position using signals from the tracking system, calculates robot arm kinematics using the current robot base position and the end effector path and controls the robot arm to cause the end effector to be moved towards the end effector destination.

A spacer designed for use with two pieces of carpet or floor covering maintains the edges of these pieces equidistant apart and above the floor. This arrangement aids in the application of seam sealer adhesive along the edges. The spacer includes a lower foot section in contact with the floor and an upper tower section with a notch-cut to hold the edge of the carpet. The spacer is flat and rigid, with the lower section having two feet separated by a gap, which may be semi-circular. The upper section's outer edges may be inwardly arcuate, and the device can be used with seam tape and seam sealer adhesive.