Method and apparatus for subsea wireless communication

What is claimed is: 1. A system for communicating the state of a subsea well including a wellhead, comprising: a wellbore, with at least one sensor disposed therein; a means to communicate information from the sensor to the wellhead; a seabed data governor disposed on the seafloor proximate to the wellhead to receive information transmitted from the sensor, wherein the seabed data governor comprises: a housing; a plurality of buoyant signaling devices contained within the housing, each buoyant signaling device comprising a transmitting device to transmit a signal receivable by a remote receiver device after the buoyant signaling device is released from the seabed data governor, the signal containing a portion of the information received from the sensor disposed in the wellbore; a data storage to store the information received from the sensor; a controller to determine a portion of the received information to store on one of the plurality of buoyant signaling devices, to determine when the one buoyant signaling device should be released, and to generate a release signal to select for release only the one buoyant signaling device that is storing the determined portion of the received information; and a release module to selectively release only the one buoyant signaling device from the housing in response to the release signal. 2. The system of claim 1 , further comprising: a communication satellite device suitable to receive a signal from at least one of the buoyant signaling devices, after the buoyant signaling device is released from the seabed data governor and travels to the sea surface; and a land based receiver device, suitable to receive a signal from the communication satellite device, the signal containing at least part of the information transmitted from the sensor disposed in the wellbore. 3. The system of claim 2 , wherein the buoyant signaling devices further comprise: a power source; and a data storage device; wherein the power source is suitable to provide sufficient power for the data storage device to cooperate with the transmitting device, and transmit a signal of sufficient strength so as to be received by the satellite device. 4. The system of claim 3 , wherein the seabed data governor further comprises a data transmitting means suitable to transmit the determined portion of the information into the data storage device portion of the one buoyant signaling device. 5. The system of claim 1 , wherein the one buoyant signaling device is sufficiently buoyant that upon release from the seabed data governor, the one buoyant signaling device will float to sea surface, where it will be situated so as to communicate with the communication satellite device. 6. The system of claim 5 , wherein the one buoyant signaling device is sufficiently buoyant to remain at the sea surface for a period of at least about 1 week. 7. A method of communicating the state of a subsea well including a wellhead, comprising: transmitting information from at least one sensor disposed in a subsea wellbore to a seabed data governor which is disposed on the seafloor, proximate the wellhead; determining a portion of the information to store on one of a plurality of buoyant signaling devices which are contained within a housing of the seabed data governor; determining the one buoyant signaling device to store the determined portion of the information; storing the determined portion of the information on the one buoyant signaling device; determining when to release the one buoyant signaling device; selecting for release only the one buoyant signaling device that is storing the at least part of the information; and releasing, in response to an input indicating the selection for release, only the one buoyant signaling device with the stored information from the housing of the seabed data governor; bringing the released buoyant signaling device from its location on the seafloor to the sea surface; and transmitting a signal from the buoyant signaling device for receipt by a communication satellite device, wherein the signal comprises at least part of the information received from the sensor. 8. The method of claim 7 , further comprising: receiving the signal transmitted from the buoyant signaling device at the communication satellite device; transmitting a signal from the communication satellite device, wherein the signal comprises at least part of the information received from the sensor; receiving the signal transmitted from the communication satellite device at a land based receiver device; and determining a status of the downhole well, based upon the signal received by the land based receiver device. 9. The method of claim 8 , wherein transmitting a signal from the buoyant signaling device further comprises the buoyant signaling device floating on the sea surface for a period of time ranging between about 1 week to about 1 month, and wherein the buoyant signaling device transmits the signal comprising at least part of the information received from the sensor during at least part of the time it is floating. 10. The method of claim 7 , further comprising: initially storing the information from at least one sensor in a controller disposed in the seabed data governor; transmitting the determined portion of information to the buoyant signaling device. 11. The method of claim 7 , further comprising: determining the number of buoyant signaling devices remaining in the housing of the seabed data governor; and adding additional buoyant signaling devices to the seabed data governor when the number of buoyant signaling devices in the housing of the governor reaches a lower limit. 12. The method of claim 7 , further comprising determining when to release the one buoyant signaling device from the seabed data governor based upon the nature of the information stored on the buoyant signaling device. 13. The method of claim 7 , further comprising determining when to release the one buoyant signaling device from the seabed data governor based upon a set schedule based on a clock function. 14. The method of claim 7 , wherein bringing the buoyant signaling device to the sea surface comprises allowing the buoyant signaling device to float to the surface due to the buoyancy of the buoyant signaling device.