Satellite and acoustic tracking device

What is claimed is: 1. An unmanned surface vessel for tracking an acoustic transmitter attached to a marine animal or object, comprising: a surface vessel, wherein the vessel is configured to track and follow the movement of an acoustic transmitter attached to a marine animal or object; a two-way communication module attached to the vessel, wherein the communication module is configured to communicate with a remote communication station; a GPS receiver attached to the vessel, wherein the GPS receiver receives location-based information from a global positioning system; an acoustic hydrophone attached to a bottom surface of the vessel, wherein the acoustic hydrophone is configured to receive an acoustic signal transmitted from the acoustic transmitter attached to the marine animal or object, and wherein the acoustic hydrophone is part of a three-element hydrophone array; a microprocessor attached to the three-element hydrophone array; and a propulsion system attached to the bottom surface of the vessel, wherein the propulsion system is configured to enable the vessel to follow the movement of the acoustic transmitter, wherein the three-element hydrophone array produces a sextant, and wherein the microprocessor determines a location of the acoustic transmitter by determining a sequential order of the acoustic signal received by each hydrophone element and associating the sequential order to a portion of the sextant. 2. The unmanned surface vessel of claim 1 , wherein each hydrophone element is coupled to an independent amplifier circuit. 3. The unmanned surface vessel of claim 1 , further comprising one or more sensors for determining water temperature, water salinity, water clarity, oceanographic current information, plankton concentration, water depth, water conductivity, or oxygen concentration. 4. The unmanned surface vessel of claim 1 , wherein the propulsion system comprises at least one thruster attached to the bottom surface of the vessel. 5. The unmanned surface vessel of claim 1 , further comprising a solar charging system comprising a battery, a solar panel attached to a top surface of the vessel, and a charge controller electrically connected between the battery and the solar panel. 6. The unmanned surface vessel of claim 5 , wherein the battery comprises a plurality of battery banks each connected to the charge controller. 7. The unmanned surface vessel of claim 6 , wherein the battery is a lithium polymer battery. 8. The unmanned surface vessel of claim 1 , wherein the communication module is configured to receive commands from the remote communication station. 9. The unmanned surface vessel of claim 1 , wherein the communication module is configured to transmit information to the remote communication station. 10. The unmanned surface vessel of claim 1 , further comprising a digital compass. 11. The unmanned surface vessel of claim 1 , further comprising an accelerometer. 12. The unmanned surface vessel of claim 1 , wherein the surface vessel has a length of about 2 meters and a width of about 1 meter. 13. A method for tracking an acoustic transmitter attached to a marine animal or object, the method comprising: receiving an acoustic signal transmitted from an acoustic transmitter with a hydrophone array attached to an unmanned surface vessel, wherein the acoustic hydrophone is part of a three-element hydrophone array that produces a sextant; determining a distance, speed, and direction of travel of the acoustic transmitter relative to the vessel based on the sequential order of the received acoustic signal at each hydrophone element and associating the sequential order of the received acoustic signal with a portion of the sextant; receiving a GPS signal from a global positioning system with a GPS receiver attached to the vessel; determining the location of the vessel based on the received GPS signal; propelling the vessel toward the acoustic transmitter based on the distance, speed, and direction of travel of the acoustic transmitter. 14. The method of claim 13 , further comprising taking into account a battery charge level when selecting a speed or direction at which to propel the vessel. 15. The method of claim 13 , further comprising taking into account an oceanographic current or a wind condition when selecting a speed or direction at which to propel the vessel. 16. The method of claim 13 , further comprising taking into account characteristics of the animal's movement when selecting a speed or direction at which to propel the vessel. 17. The method of claim 13 , further comprising transmitting information from a communication module attached to the vessel to a remote communication station. 18. The method of claim 17 , wherein information transmitted from the communication module to the remote communication station comprises battery charge level, vessel speed versus time, animal location versus time, animal speed versus time, animal depth versus time, or GPS coordinates of the vessel versus time. 19. The method of claim 13 , further comprising transmitting information from a remote communication station to a communication module attached to the vessel. 20. The method of claim 19 , wherein information transmitted from the remote communication station to the communication module comprise a high-level command. 21. The method of claim 19 , wherein the remote communication station is located on shore, on the ocean surface, or in the air. 22. The method of claim 13 , further comprising receiving sensor information at the vessel from one or more sensors proximate the vessel. 23. The method of claim 22 , further comprising determining water temperature, water salinity, water clarity, oceanographic current information, plankton concentration, water depth, water conductivity, or oxygen concentration based on the sensor information received from the sensor information received from the sensors proximate the vessel. 24. The method of claim 13 , further comprising receiving remote sensor information at the vessel from one or more remote sensors proximate the acoustic transmitter. 25. The method of claim 24 , further comprising determining water temperature, water salinity, water clarity, oceanographic current information, plankton concentration, water depth, water conductivity, or oxygen concentration based on the remote sensor information received from the remote sensors proximate the acoustic transmitter.