Wireless skin temperature measurements in diving

What is claimed is: 1. A dive computer system, comprising: a dive computer having a display on which information is displayed and a processor; and a sensor that takes skin temperature measurements directly from the diver's skin, the sensor is operably coupled to the dive computer such that the skin temperature measurements can be supplied to the processor of the dive computer from the sensor, the processor is configured to utilize a decompression algorithm to calculate dive parameters and the skin temperature measurements to compensate the decompression algorithm for diver skin temperature, wherein the sensor also takes heart rate measurements in addition to the skin temperature measurements, and wherein the sensor is attached to a measurement device that includes a measurement device processor and a wireless transmitter, the measurement device processor applies a transmission coding to the heart rate measurements and the skin temperature measurements such that the heart rate measurements and the skin temperature measurements are transformed into a coded data, the transmission coding is based on a diver heart rate and a diver skin temperature, the transmitter modulates the coded data to a higher frequency and wirelessly transmits the coded data to a receiver of the dive computer; the receiver demodulates the coded data to a baseband frequency and provides the coded data to the processor of the dive computer. 2. The dive computer system of claim 1 , wherein the sensor is in direct contact with a diver's skin. 3. The dive computer system of claim 1 , wherein the sensor is embedded in a measurement device and attached to a strap that is worn on a diver's chest. 4. The dive computer system of claim 1 , wherein the transmitter modulates the coded data to a carrier frequency within a VLF spectrum. 5. A method of compensating a dive algorithm with diver skin temperature, comprising the steps of: measuring the skin temperature directly from the skin of a diver during a dive; transmitting the measured skin temperature of the diver to a diver computer; and calculating an updated dive specific skin perfusion factor. 6. The method of compensating a dive algorithm of claim 5 , further comprising the steps of: calculating an updated half time for a skin compartment of the dive algorithm based on the updated dive specific skin perfusion factor; comparing the updated dive specific skin perfusion factor to a previously stored skin perfusion factor; increasing a recommended ascent and decompression stop time if the updated dive specific skin perfusion factor has increased from the previously stored skin perfusion factor; and maintaining or decreasing a recommended ascent and decompression stop time if the updated dive specific skin perfusion factor has decreased from the previously stored skin perfusion factor. 7. The method of compensating a dive algorithm of claim 5 , further comprising the steps of: determining an updated inert gas saturation within a skin compartment of the dive algorithm based on the updated dive specific perfusion factor; comparing the updated insert gas saturation with a previously stored inert gas saturation of the skin compartment of the dive algorithm; maintaining or increasing the skin compartment pressure tolerance if the updated inert gas saturation within the skin compartment has decreased from the previously stored inert gas saturation of the skin compartment; and decreasing the skin compartment pressure tolerance if the updated inert gas saturation within the skin compartment has increased from the previously stored inert gas saturation of the skin compartment. 8. The method of compensating a dive algorithm of claim 5 , wherein the step of transmitting the measured skin temperature of the diver to a diver computer is done wirelessly.