Pose detection and control of unmanned underwater vehicles (UUVs) utilizing an optical detector array

The invention claimed is: 1. An optical detector system comprising: a plurality of light sensors configured to detect a broad spectral range of light; at least one controller coupled to the plurality of light sensors and configured to: receive a plurality of light intensity signals acquired from a light source by the plurality of light sensors; determine a first pose of the optical detector system relative to the light source based on the plurality of light intensity signals; determine a second pose of the optical detector system relative to the light source based on the plurality of light intensity signals; determine an estimated velocity of the optical detector system relative to the light source based at least in part on the plurality of light intensity signals, the first pose, and the second pose; determine at least one command based at least on the first pose and second pose; and transmit the at least one command to adjust a trajectory of the optical detector system. 2. The optical detector system of claim 1 , further comprising at least one band-pass filter coupled to the plurality of light sensors. 3. The optical detector system of claim 2 , wherein the at least one band-pass filter is configured to attenuate wavelengths outside of 500-550 nanometers. 4. The optical detector system of claim 1 , further comprising a data storage coupled to the at least one controller and configured to store data specifying that the second pose be within a distance of the light source specified by a reference value. 5. The optical detector system of claim 4 , wherein the reference value is 8.5 meters. 6. The optical detector system of claim 1 , wherein the array has a length of 0.6m. 7. The optical detector system of claim 1 , wherein the at least one controller is selected from a list including a proportional integral derivative (PID) controller, a sliding mode controller (SMC), and an adaptive controller. 8. The optical detector system of claim 1 , wherein an accuracy of pose estimation is within 0.1 meters in a y-direction and a z-direction and less than 0.3 m in an x-direction. 9. The optical detector system of claim 1 , wherein the optical detector system comprises a static-dynamic system, a dynamic-dynamic system, or both a static-dynamic system and a dynamic-dynamic system. 10. The optical detector system of claim 1 , wherein the at least one controller is configured to determine the first pose and the second pose using a spectral angle mapper, image moment invariants, or both a spectral angle mapper and image moment invariants. 11. The optical detector system of claim 1 , further comprising an optical modem, wherein the at least one controller is configured to transmit the at least one command via the optical modem. 12. The optical detector system of claim 1 , wherein determining the first pose, determining the second pose, or each of determining the first pose and determining the second pose comprises determining motion of the optical detector system in at least five degrees of freedom. 13. The optical detector system of claim 1 , wherein the at least one controller is configured to make corrections to a beam pattern formed by the plurality of signals based on environmental conditions. 14. The optical detector system of claim 1 , wherein the estimated velocity is within a speed of a target velocity. 15. The optical detector system of claim 14 , wherein the speed is 0.1 m/s. 16. The optical detector system of claim 1 , comprised within an unmanned underwater vehicle. 17. The optical detector system of claim 16 , wherein the at least one controller instructs translational or rotational movement of the unmanned underwater vehicle in predefined increments. 18. The optical detector system of claim 17 , wherein the predefined increments are at least 0.02 m along a y-axis and a z-axis, at least 1 m along a x-axis, and at least 3 degrees rotationally. 19. An unmanned underwater vehicle comprising: an optical detector array comprising: a plurality of light sensors configured to detect a broad spectral range of light; at least one controller coupled to the plurality of light sensors and configured to: receive a plurality of light intensity signals with the plurality of light sensors; determine a pose and an estimated velocity of the optical detector array relative to the light source based at least in part on the plurality of light intensity signals; and control and detect distance and control motion and orientation between the optical detector array and the light source. 20. The unmanned underwater vehicle of claim 19 , wherein the at least one controller is configured to navigate the unmanned underwater vehicle to a docking station and control the velocity during navigation into the docking station. 21. The unmanned underwater vehicle of claim 19 , wherein the unmanned underwater vehicle is configured to follow the light source. 22. The unmanned underwater vehicle of claim 21 , wherein the light source is comprised within another unmanned underwater vehicle.