Methods and devices for measuring core body temperature

Having thus described the preferred embodiments, the invention is now claimed to be: 1. A physiological sensor device for measuring core body temperature of a subject, the physiological sensor device comprising: a plurality of electronic temperature sensors wherein each electronic temperature sensor includes a first conductive body arranged to be placed in thermal contact with a surface having a surface temperature approximate the core body temperature of the subject and a second conductive body spaced apart from the first conductive body and the surface by a dielectric disposed between the first and second conductive bodies, a first temperature sensor configured to measure the temperature of the first conductive body, a second temperature sensor configured to measure the temperature of the second conductive body, actuators configured to control separation of the spaced-apart first and second conductive bodies, a capacitance meter configured to measure mutual capacitance of the spaced-apart first and second conductive bodies with the dielectric disposed between the first and second conductive bodies; and a readout controller comprising a microchip configured to, for each electronic temperature sensor: receive measurements of the respective temperatures of the spaced-apart first and second conductive bodies from the first and second temperature sensors and measurement of a mutual capacitance of the spaced apart first and second conductive bodies from the capacitance meter for a plurality of different separations of the spaced-apart first and second conductive bodies controlled using the actuators, estimate a skin temperature drop based on received measurements of the respective temperatures of the spaced-apart first and second conductive bodies and of the mutual capacitance at the different separations of the spaced-apart first and second conductive bodies, and correct the received temperature of the first conductive body for the estimated skin temperature drop to generate a temperature reading from the electronic temperature sensor, wherein the readout controller is further configured to output a core body temperature based on a highest usable temperature reading of the acquired temperature readings. 2. The physiological sensor device as set forth in claim 1 , wherein the plurality of electronic temperature sensors are configured to be operatively coupled with said surface selected from the group consisting of: (i) skin overlaying a portion of a superficial temporal artery disposed anterior to an auricle, (ii) skin overlaying a portion of an artery ascending posterior to an auricle, and (iii) a brain tunnel between the eyes. 3. The physiological sensor device as set forth in claim 1 , further comprising: a head mountable mechanical frame or pad configured to operatively couple the electronic temperature sensors with said surface having a surface temperature approximating the core body temperature. 4. The physiological sensor device as set forth in claim 1 , wherein the readout controller is configured to identify the highest usable temperature reading of the acquired temperature readings by spatial interpolation of temperature readings of the plurality of electronic temperature sensors to generate an interpolation; and detection of the highest usable temperature reading of the acquired temperature readings as a peak of the interpolation. 5. The physiological sensor device as set forth in claim 4 , wherein the interpolation is one of (i) a two dimensional interpolated temperature surface and (ii) a one dimensional interpolated temperature versus position curve. 6. A core body temperature measurement device for measuring core body temperature of a subject, the core body temperature measurement device comprising: spaced-apart first and second conductive bodies configured to be arranged with the first conductive body in thermal contact with a surface having a surface temperature approximate the core body temperature of the subject and the second conductive body spaced apart from the first conductive body and the surface by a dielectric disposed between the first and second conductive bodies; a first temperature sensor configured to measure the temperature of the first conductive body; a second temperature sensor configured to measure the temperature of the second conductive body; actuators configured to control separation of the spaced-apart first and second conductive bodies; a capacitance meter configured to measure mutual capacitance of the spaced-apart first and second conductive bodies with the dielectric disposed between the first and second conductive bodies; and a controller comprising a microchip configured to: (i) receive measurements of the respective temperatures of the spaced-apart first and second conductive bodies from the first and second temperature sensors, (ii) receive measurement of a mutual capacitance of the spaced apart first and second conductive bodies from the capacitance meter, (iii) repeat operations (i) and (ii) for a plurality of different separations of the spaced-apart first and second conductive bodies controlled using the actuators, (iv) estimate a skin temperature drop based on received measurements of the respective temperatures of the spaced-apart first and second conductive bodies and of the mutual capacitance at the different separations of the spaced-apart first and second conductive bodies; (v) correct the received temperature of the first conductive body for the estimated skin temperature drop to generate a measurement of the core body temperature. 7. The core body temperature measurement device as set forth in claim 6 , wherein the core body temperature measurement device is configured to be operatively coupled with said surface selected from the group consisting of: skin overlaying a portion of a superficial temporal artery disposed anterior to an auricle, skin overlaying a portion of an artery ascending posterior to an auricle, a brain tunnel between the eyes; and a sublingual pocket inside of a mouth. 8. The core body temperature measurement device as set forth in claim 6 , comprising a head mountable mechanical frame or pad configured to place the first conductive body in thermal contact with said surface. 9. A core body temperature measurement device for measuring core body temperature of a subject, the core body temperature measurement device comprising: a first conductive body arranged to be placed in thermal contact with a surface having a surface temperature approximate the core body temperature of the subject; a second conductive body spaced apart from the first conductive body and the surface by a dielectric disposed between the first and second conductive bodies; actuators configured to control separation of the spaced-apart first and second conductive bodies; temperature sensors configured to measure temperature of the first conductive body and to measure temperature of the second conductive body; a capacitance meter configured to measure mutual capacitance of the spaced-apart first and second conductive bodies with the dielectric disposed between the first and second conductive bodies; and a readout controller comprising a microchip, the readout controller configured to: (i) estimate a skin temperature drop based on mutual capacitance of the spaced-apart first and second conductive bodies measured by the capacitance meter and temperatures of the first and second conductive bodies measured by the temperature sensors at different separations of the spaced-apart first and second conductive bodies; and (ii) correct the measured temperature of the first conductive body for the estimated skin temperature drop to generate a measurement of the core body temperature.