Mounting a sensor module to an unmanned ground vehicle

What is claimed is: 1. An unmanned ground vehicle comprising: a main body; a drive system supported by the main body, the drive system comprising right and left driven track assemblies mounted on right and left sides of the main body; a manipulator arm pivotally coupled to the main body, wherein the manipulator arm comprises a first link coupled to the main body, a rotatable member coupled to the first link, and a second link coupled to the rotatable member, wherein the rotatable member is configured to rotate independently of the first and second links; and a sensor module mounted on the rotatable member, the sensor module comprising one or more sensors at least partially located below at least part of the second link when the second link is extended upward. 2. The unmanned ground vehicle of claim 1 , wherein the rotatable member is located below a distal end of the second link when the second link is extended upward. 3. The unmanned ground vehicle of claim 2 , further comprising a gripper or a head on the distal end of the second link. 4. The unmanned ground vehicle of claim 1 , wherein the sensor module comprises a camera whose field of view extends horizontally and/or upward in at least one rotational orientation of the rotatable member when the one or more sensors are at least partially located below at least part of the second link. 5. The unmanned ground vehicle of claim 1 , wherein the second link is detachable, and the unmanned ground vehicle is operable with the rotatable member and the sensor module without the second link. 6. The unmanned ground vehicle of claim 1 , wherein the second link comprises a mount for the sensor module at a distal end of the second link, and the sensor module is detachable from the rotatable member and mountable on the mount. 7. The unmanned ground vehicle of claim 6 , further comprising a gripper or a head on a distal end of the second link, wherein the mount is configured for mounting the second module in a position in which the one or more sensors are at least partially above the gripper and/or head. 8. The unmanned ground vehicle of claim 7 , wherein the one or more sensors comprise a camera, and the mount is configured for mounting the second module in a position in which the camera is above the gripper and/or head. 9. The unmanned ground vehicle of claim 1 , wherein the second link is pivotally coupled to the rotatable member, the first link includes a first motor for rotating the rotatable member, and the second link comprises a second motor for pivoting the second link about the rotatable member, such that the first and second motors are configured to control the positions of the sensor module and the second link with respect to the first link. 10. The unmanned ground vehicle of claim 1 , wherein the second link is pivotally coupled to the rotatable member, the first link includes a first motor for rotating the rotatable member, the second link comprises a second motor for pivoting the second link about the rotatable member, and the manipulator arm comprises a third motor for rotating the rotatable member independently of the first and second links. 11. The unmanned ground vehicle of claim 1 , wherein the manipulator arm is coupled to the main body by a turret configured to provide yaw capability for the manipulator arm. 12. An unmanned ground vehicle comprising: a main body; a drive system supported by the main body, the drive system comprising right and left driven track assemblies mounted on right and left sides of the main body; a manipulator arm pivotally coupled to the main body, wherein the manipulator arm comprises a first link coupled to the main body, a rotatable member coupled to the first link, and a second link coupled to the rotatable member, wherein a rotational orientation of the rotatable member is independent of rotational orientations of the first and second links; a gripper or a head on a distal end of the manipulator arm; and a sensor module mounted on the rotatable member, the sensor module comprising one or more sensors at least partially located below at least part of the gripper or head when the manipulator arm is extended upward. 13. The unmanned aerial vehicle of claim 12 , wherein the sensor module is located below the gripper or head when the arm is extended upward. 14. The unmanned aerial vehicle of claim 12 , wherein the sensor module is located below the gripper or head when the second link is extended upward. 15. The unmanned ground vehicle of claim 12 , comprising a motor dedicated to rotate the rotatable member independently of the first and second links. 16. The unmanned ground vehicle of claim 12 , wherein the sensor module comprises a camera whose field of view extends horizontally and/or upward in at least one rotational orientation of the rotatable member when the one or more sensors are at least partially located below at least part of the gripper or head. 17. The unmanned ground vehicle of claim 12 , wherein the second link is detachable, and the unmanned ground vehicle is operable with the rotatable member and the sensor module without the second link. 18. A method for operating the unmanned ground vehicle of claim 1 , the method comprising remotely controlling the vehicle to cause the vehicle to rotate the rotatable member to position the sensor module in a desired rotational orientation in which the one or more sensors are at least partially located below at least part of the second link. 19. A method for operating the unmanned ground vehicle of claim 12 , the method comprising remotely controlling the vehicle to cause the vehicle to rotate the rotatable member to position the sensor module in a desired rotational orientation in which the one or more sensors are at least partially located below at least part of the gripper or head. 20. A method for operating an unmanned ground vehicle, the method comprising: mounting a sensor module to a first location on a manipulator arm pivotally coupled to a main body of the unmanned ground vehicle, wherein the manipulator arm comprises a first link coupled to the main body, a rotatable member coupled to the first link, a second link coupled to the rotatable member, and one or more motors configured to rotate the rotatable member independently of the first and second links, and wherein mounting the sensor module to the first location comprises mounting the sensor module to the rotatable member; and remotely controlling at least one of the one or more motors to rotate the rotatable member into a first position in which at least one sensor in the sensor module is at least partially below at least part of the second link.