Core temperature sensor with thermal conductivity compensation

The invention claimed is: 1. A temperature sensor system comprising: a housing; a sensor assembly including (i) a temperature sensing portion configured to generate a first signal based upon a temperature of a body proximate a surface portion of the temperature sensing portion, and (ii) a thermoelectric generator portion configured to receive heat flow from the body through the temperature sensing portion and to generate a second signal based upon the heat flow; a memory including program instructions and at least one correcting factor (K) stored therein; and a control unit operably connected to the sensor assembly and the memory, the control unit configured to execute the program instructions to obtain the first signal, obtain the second signal, obtain the at least one correction factor (K), calculate a corrected temperature (T c ) based upon the obtained first signal, the obtained second signal, and the obtained at least one correcting factor (K), and output the calculated corrected temperature, wherein: the at least one correcting factor (K) is determined based upon at least one of a thermal conductivity of the sensor assembly, a size of the sensor assembly, and an aspect ratio of the sensor assembly; the sensor assembly and control unit are housed by the housing; the housing is configured to expose the sensor assembly to the body through a first side of the housing; the housing includes a window on a side of the housing opposite the first side, the window configured to transfer the heat flow received by the thermoelectric generator portion out of the temperature sensor system; and the thermoelectric generator portion substantially surrounds the temperature sensing portion except at the surface portion. 2. The temperature sensor system of claim 1 , wherein the body includes an outer skin and the control unit is configured to calculate the corrected temperature based upon the following equation: Q ˙ s ⁢ k ⁢ i ⁢ n ″ = Q ˙ s ⁢ e ⁢ n ⁢ s ⁢ o ⁢ r ″ K wherein {dot over (Q)}″ skin is heat flux through the outer skin, and {dot over (Q)}″ sensor is heat flux through the sensor assembly. 3. The temperature sensor system of claim 2 , wherein the at least one correcting factor (K) is determined based upon the thermal conductivity of the sensor assembly, the size of the sensor assembly, and the aspect ratio of the sensor assembly. 4. The temperature sensor system of claim 1 , further comprising: a display, wherein the control unit is operably connected to the display and configured to execute the program instructions to display the calculated corrected temperature with the display. 5. The temperature system of claim 1 , wherein the control unit is further configured to execute the program instructions to calculate the corrected temperature (Tc) based upon a thermal resistance of an outer skin of the body. 6. A method of providing a corrected temperature, comprising: exposing a sensor assembly to the body through a first side of a housing; transferring a heat flow, received by a thermoelectric generator portion of the sensor assembly from the body through a temperature sensing portion of the sensor assembly, out of the sensor assembly through a window on a side of the housing opposite the first side; obtaining, using a control unit executing program instruction stored in a memory, a first signal from the temperature sensing portion of the sensor assembly, the first signal based upon a temperature of the body proximate a surface portion of the temperature sensing portion; obtaining, using the control unit, a second signal from the thermoelectric generator portion of the sensor assembly, the second signal based upon the heat flow received by the thermoelectric generator portion from the body through the temperature sensing portion; and calculating, with the control unit, the corrected temperature (Tc) based upon the obtained first signal, the obtained second signal, and at least one correcting factor (K) stored in the memory, the at least one correcting factor (K) determined based upon at least one of a thermal conductivity of the sensor assembly, a size of the sensor assembly, and an aspect ratio of the sensor assembly, wherein the control unit and sensor assembly are housed by the housing; and the thermoelectric generator portion substantially surrounds the temperature sensing portion except at the surface portion. 7. The method of claim 6 , wherein the calculating, with the control unit, a corrected temperature (Tc) comprises: calculating, with the control unit, the corrected temperature (Tc) based upon the following equation: Q ˙ s ⁢ k ⁢ i ⁢ n ″ = Q ˙ s ⁢ e ⁢ n ⁢ s ⁢ o ⁢ r ″ K wherein {dot over (Q)}″ skin is heat flux through an outer skin of the body, and {dot over (Q)}″ sensor is heat flux through the sensor assembly. 8. The method of claim 7 , further comprising: determining the at least one correcting factor (K) based upon the thermal conductivity of the sensor assembly, the size of the sensor assembly, and the aspect ratio of the sensor assembly. 9. The method of claim 6 , further comprising: displaying, under control of the control unit, the calculated corrected temperature on a display. 10. The method of claim 6 , wherein the calculating, with the control unit, the corrected temperature (Tc) comprises: calculating the corrected temperature (Tc) based upon a thermal resistance of an outer skin of the body.