Optical ground tracking apparatus, systems, and methods

We claim: 1. A buried object locator carried and controlled by a user over a ground to detect objects buried below the ground, the buried object locator comprising: a magnetic field sensing buried object locator module to detect a buried object based upon sensing magnetic fields emitted by the buried object, and generate buried object information corresponding to the detected buried object; a surface tracking module to: detect light reflected from a tracking surface; sense or compute a user-effected motion of the buried object locator over the ground relative to the tracking surface, based at least in part on analysis of light patterns associated with the tracking surface; and generate motion information corresponding with the sensed or computed user-effected motion; and an integration module configured to associate the buried object information with corresponding motion information and store the associated information in a memory. 2. The buried object locator of claim 1 , further comprising a light detection and ranging (LIDAR) apparatus to measure a height of the locator and/or distance of a reference point of the locator from the ground and provide a corresponding LIDAR output signal to the surface tracking module, wherein the motion information is further based on the LIDAR output signal. 3. The buried object locator of claim 2 , wherein the LIDAR apparatus measure the distance of the reference point of the locator from the ground, and wherein the reference point is a position of a magnetic field sensing antenna array of the locator. 4. The buried object locator of claim 1 , further comprising an upward facing camera positioned on or within the locator in an upward facing direction when the locator is vertically oriented in normal use. 5. The buried object locator of claim 4 , wherein the upward facing camera is coupled to a processing element to receive images from the camera of the sky and track or determine a position of the sun based at least in part on the received images. 6. The buried object locator of claim 5 , wherein the upward facing camera is programmed to capture images or a video stream of a user and store the images or video stream in a memory. 7. The buried object locator of claim 1 , further comprising a laser range finder apparatus to measure a height of the locator and/or a distance of a reference point of the locator from the ground. 8. The buried object locator of claim 7 , wherein the laser range finder apparatus measures the distance of the reference point of the locator from the ground, and wherein the reference point is a position of a magnetic field sensing antenna array of the locator. 9. The buried object locator of claim 1 , further comprising a laser Doppler apparatus. 10. The buried object locator of claim 9 , wherein the laser Doppler apparatus generates information for use in determining a motion of the locator over the ground. 11. The buried object locator of claim 10 , wherein the motion includes a speed and/or a direction of movement of the locator over the ground.