Buoy hull corrosion detection system

What is claimed is: 1. A buoy, comprising: a generally hollow core having a hull; a section of the core having a double hull, the double hull section positioned on the buoy at a waterline area, the double hull section comprising an inner hull and an outer hull, the outer hull comprising at least one exterior wall; a compartment enclosed by the inner hull and outer hull; a moisture detector in the compartment; and a signaling circuit in communication with the moisture detector, configured to send a signal that corrosion has occurred, wherein the at least one exterior wall of the outer hull is adapted to corrode and fail prior to the rest of the hull. 2. The buoy of claim 1 , wherein the exterior wall of the outer hull has a thickness that is lower than the rest of the hull. 3. The buoy of claim 1 , wherein the double hull section is centered at the waterline. 4. The buoy of claim 1 , further comprising a battery that powers the moisture detector and signaling circuit, and a regenerative energy system to charge the battery. 5. The buoy of claim 4 , wherein the regenerative energy system utilizes kinetic energy generated by rolling motion of the buoy to charge the battery. 6. The buoy of claim 1 , wherein the signaling circuit is configured to send the signal by a Global System for Mobile Communication network or by a satellite transmitter. 7. The buoy of claim 1 , wherein the exterior wall of the outer hull is flush with the buoy hull, and the compartment is inside the buoy hull. 8. The buoy of claim 1 , wherein the compartment is installed on the buoy hull and is outside the buoy hull. 9. The buoy of claim 1 , wherein the exterior wall of the outer hull has a thickness that is 0.9 to 0.1 times the thickness of the rest of the hull. 10. The buoy of claim 1 , wherein the moisture detector comprises a plurality of moisture activated switches. 11. A method of detecting corrosion in a buoy, comprising: providing a buoy comprising a generally hollow core having a hull; a section of the core having a double hull, the double hull section positioned on the buoy at a waterline area, the double hull section comprising an inner hull and an outer hull, the outer hull comprising at least one exterior wall; a compartment enclosed by the inner hull and outer hull; a moisture detector in the compartment; and a signaling circuit in communication with the moisture detector, configured to send a signal that corrosion has occurred, wherein the at least one exterior wall of the outer hull is adapted to corrode and fail prior to the rest of the hull; deploying the buoy in a body of water; detecting water entering the compartment through the exterior wall of the outer hull with the moisture detector; relaying a signal from the moisture detector to the signaling circuit that water has entered the compartment, the water indicating the presence of corrosion; and sending a communication to a user that the buoy has corrosion. 12. The method of claim 11 , wherein the at least one exterior wall of the outer hull has a thickness that is lower than the rest of the hull. 13. The method of claim 11 , wherein the double hull section is centered at the waterline when the buoy is deployed. 14. The method of claim 11 , further comprising powering the moisture detector and the signaling circuit with a battery, and charging the battery with a regenerative energy system. 15. The method of claim 14 , wherein the regenerative energy system utilizes kinetic energy generated by rolling motion of the buoy. 16. The method of claim 11 , wherein the communication is sent by a Global System for Mobile Communication network or by a satellite transmitter. 17. The method of claim 11 , wherein the communication is sent only when requested by a control center.