Integrated sensing unit and method for determining vehicle wheel speed and tire pressure

The invention claimed is: 1. A method for determining vehicle wheel speed with an integrated sensing unit, wherein the integrated sensing unit is mounted on the vehicle wheel and includes a pressure sensor, an inertial measurement unit (IMU), a processor, and an antenna, the method comprising the steps of: gathering pressure sensor readings from the pressure sensor, wherein the pressure sensor readings indicate a tire pressure value; gathering rotational wheel speed readings from the IMU of the integrated sensing unit; using one or more rotational wheel speed readings gathered from the IMU of the integrated sensing unit to determine an integrated sensor wheel speed value; after determining the integrated sensor wheel speed value, wirelessly transmitting the integrated sensor wheel speed value to a control module via the antenna of the integrated sensing unit; and wirelessly transmitting the tire pressure value to a control module via the antenna of the integrated sensing unit, wherein the transmission rate for wirelessly transmitting the tire pressure value is less than the transmission rate for wirelessly transmitting the integrated sensor wheel speed value. 2. The method of claim 1 , wherein a plurality of wireless messages containing integrated sensor wheel speed values are transmitted to the control module between wireless messages containing tire pressure values. 3. The method of claim 1 , wherein the processor of the integrated sensing unit converts one or more rotational wheel speed readings to a linear wheel speed value such that the integrated sensor wheel speed value is the linear wheel speed value. 4. The method of claim 1 , further comprising the steps of comparing the integrated sensor wheel speed value to a first wheel speed sensor value from a stationary wheel speed sensor, and if the integrated sensor wheel speed value corroborates the first wheel speed sensor value, then determining that wheel speed data from the stationary wheel speed sensor is valid. 5. The method of claim 4 , further comprising the step of comparing the first wheel speed sensor value to a second wheel speed sensor value if the first wheel speed sensor value does not corroborate the integrated sensor wheel speed value, and if the first and second wheel speed sensor values corroborate each other, then determining that wheel speed data from the integrated sensing unit is invalid. 6. The method of claim 5 , further comprising the step of comparing the integrated sensor wheel speed value to the second wheel speed sensor value if the first and second wheel speed sensor values do not corroborate each other, and if the second wheel speed sensor value corroborates the integrated sensor wheel speed value, then determining that wheel speed data from the first wheel speed sensor is invalid. 7. The method of claim 6 , further comprising the steps of disregarding wheel speed data from the first wheel speed sensor and using integrated sensor wheel speed data to preserve the availability of systems that use wheel speed data. 8. The method of claim 1 , wherein the IMU is a multi-axis inertial measurement unit (multi-axis IMU) comprising one or more accelerometers and one or more gyroscopes. 9. The method of claim 1 , wherein the one or more rotational wheel speed readings from the IMU are in the form of an angular rate about the x-, y-, or z-axis of the IMU depending on the mounting arrangement of the integrated sensing unit. 10. The method of claim 9 , wherein the integrated sensing unit is mounted on a valve stem of the vehicle wheel such that rotation about the x-axis of the IMU corresponds to the axis of rotation of the wheel about an axle of the wheel, thereby providing an IMU pitch rate as the rotational wheel speed reading. 11. A method of corroborating wheel speed data from one or more vehicle wheel speed sensors with an integrated sensing unit, wherein the integrated sensing unit is mounted on the vehicle wheel and includes a pressure sensor, an inertial measurement unit (IMU), a processor, and an antenna, the method comprising the steps of: gathering rotational wheel speed readings from the IMU of the integrated sensing unit; using one or more rotational wheel speed readings gathered from the IMU of the integrated sensing unit to determine an integrated sensor wheel speed value; gathering a first wheel speed sensor value from a first wheel speed sensor that is stationary and is configured to collect data relating to the vehicle wheel; and performing intrawheel corroboration with the integrated sensing unit that rotates in the vehicle wheel, wherein intrawheel corroboration verifies the validity of wheel speed data from the first wheel speed sensor that is stationary through a comparison of the first wheel speed sensor value to the integrated sensor wheel speed value. 12. The method of claim 11 , wherein if the integrated sensor wheel speed value corroborates the first wheel speed sensor value, then determining that wheel speed data from the first wheel speed sensor is valid. 13. The method of claim 12 , wherein the integrated sensor wheel speed value and the first wheel speed sensor value are compared using an error-based, speed dependent threshold. 14. The method of claim 11 , further including the step of performing interwheel corroboration to verify the validity of the wheel speed data from the first wheel speed sensor, wherein interwheel corroboration includes comparing the first wheel speed sensor value to an average of two or more wheel speed values from another vehicle wheel speed sensor or another integrated sensing unit. 15. A method of corroborating wheel speed data from one or more vehicle wheel speed sensors with an integrated sensing unit, wherein the integrated sensing unit is mounted on the vehicle wheel and includes a pressure sensor, an inertial measurement unit (IMU), a processor, and an antenna, the method comprising the steps of: gathering rotational wheel speed readings from the IMU of the integrated sensing unit; using one or more rotational wheel speed readings gathered from the IMU of the integrated sensing unit to determine an integrated sensor wheel speed value; performing intrawheel corroboration with the integrated sensing unit that rotates in the vehicle wheel, wherein intrawheel corroboration verifies the validity of wheel speed data from a first wheel speed sensor that is stationary; and performing interwheel corroboration to verify the validity of the wheel speed data from the first wheel speed sensor, wherein interwheel corroboration includes comparing a first wheel speed sensor value to a second wheel speed sensor value from a second wheel speed sensor or a second integrated sensor value from a second integrated sensing unit, and if the validity of the first wheel speed sensor value is not verified by the intrawheel corroboration but is verified by the interwheel corroboration, then determining that wheel speed data from the integrated sensing unit is invalid. 16. The method of claim 15 , wherein the first wheel speed sensor value and the second wheel speed sensor value or the second integrated sensor value are compared using an error-based, speed dependent threshold that is greater than an error-based, speed dependent threshold used for intrawheel corroboration. 17. An integrated sensing unit, comprising: a valve stem; an inertial measurement unit (IMU) for providing rotational wheel speed readings; a pressure sensor for providing tire pressure sensor readings; and sensor circuitry for the IMU and the pressure sensor including memory, a processing unit, and a