Robot with seven or more degrees of freedom

What is claimed is: 1 . A robot, comprising: a positioning robot having m degrees of freedom, a first base end, and a first free moving end; and a manipulator robot having n degrees of freedom, the manipulator robot having a second base end coupled mechanically to the first free moving end of the positioning robot and a second free end configured to have a robotic end effector mounted thereon; wherein the robot is configured to be operated in a first mode of operation, in which the positioning robot is controlled to position move the manipulator robot into a position to perform a task and the manipulator robot is controlled independently of the positioning robot to perform the task; and in a second mode of operation, in which at least a subset of the m degrees of freedom of the positioning robot and at least a subset of the n degrees of freedom of the manipulator robot are controlled together, by a single controller, to perform the task. 2 . The robot of claim 1 , wherein the positioning robot comprises a single degree of freedom. 3 . The robot of claim 1 , wherein the positioning robot comprises a base structure configured to be rotated about an axis of rotation, the base structure having a mount location for the manipulator robot that is offset from the axis of rotation. 4 . The robot of claim 3 , wherein the base structure comprises a robotically controlled cam. 5 . The robot of claim 1 , wherein one or both of the positioning robot and the manipulator robot comprises a robotically controlled spherical joint that provides three degrees of freedom. 6 . The robot of claim 1 , wherein the positioning robot comprises a Cartesian robot configured to position the second base end of the manipulator robot in an x-y plane of the Cartesian robot. 7 . The robot of claim 6 , wherein first base end of the positioning robot is movable mounted to a vertical post, the robot further comprising a robotically controlled linear drive configured to move the first base end of the positioning robot up and down at least a portion of the vertical post. 8 . The robot of claim 7 , wherein the processor is further configured to operate one or both of the Cartesian robot and the linear drive to move the second base end of the manipulator robot to a selected location in three-dimensional space. 9 . The robot of claim 1 , wherein the second free end of the manipulator robot is neutrally buoyant when not loaded. 10 . The robot of claim 1 , wherein the second free end of the manipulator robot is neutrally buoyant when loaded. 11 . The robot of claim 1 , wherein the manipulator robot comprises a first manipulator robot and the robot further comprises a second manipulator robot having a third base end and a third free moving end, and wherein the third base end of the second manipulator robot is couple to the first free moving end of the positioning robot. 12 . The robot of claim 11 , wherein the m degrees of freedom of the positioning robot are shared by the first manipulator robot and the second manipulator robot. 13 . The robot of claim 11 , wherein the processor is configured to use the first manipulator is robot to perform a first task while simultaneously using the second manipulator robot to perform a second task. 14 . The robot of claim 11 , wherein the processor is configured to use the first manipulator robot and the second manipulator robot cooperatively to perform a task. 15 . The robot of claim 11 , wherein the positioning robot comprises a robotically controlled turntable to which both the second base end of the first manipulator robot and the third base end of the second manipulator robot are movably coupled. 16 . The robot of claim 15 , wherein the second base end of the first manipulator robot and the third base end of the second manipulator robot are movably coupled to a vertical post mounted on the turntable, and wherein the second base end of the first manipulator robot and the third base end of the second manipulator robot are configured to be moved independently of each other each to a corresponding position along the vertical post. 17 . The robot of claim 15 , wherein the second base end of the first manipulator robot and the third base end of the second manipulator robot are configured to be moved independently of each other each to a corresponding position along a groove or track that defines a path along a chord of the turntable. 18 . The robot of claim 1 , wherein first base end of the position robot is coupled to a robotically controlled movable chassis. 19 . The robot of claim 18 , wherein the movable chassis is configured to be moved along a rail or other linear guide. 20 . The robot of claim 18 , wherein the movable chassis provides one or more degrees of freedom in addition to the m degrees of freedom of the positioning robot and the n degrees of freedom of the manipulator robot.