Method to localize physical positions of Bluetooth tire pressure monitoring sensors

What is claimed is: 1. A method of determining a particular wheel where a replacement Bluetooth tire pressure monitoring system (TPMS) sensor is located on a particular type of vehicle, the replacement Bluetooth TPMS sensor being capable of transmitting a Bluetooth-compliant radio frequency signal to a plurality of Bluetooth Low Energy Antenna Modules (BLEAMs) mounted at predetermined locations on the particular type of vehicle the method comprising: obtaining reference TPMS sensor signal strength information for each vehicle wheel TPMS sensor by: receiving at each BLEAM, a first signal from each TPMS sensor in each tire; determining a received signal strength indicator (RSSI) value for each BLEAM for each TPMS sensor in each tire; for each RSSI value obtained for the first signal transmitted from each TPMS attached to each wheel, recording the RSSI values for each wheel's TPMS into a table of RSSI values for each wheel's TPMS; storing the tables of recorded RSSI values for the wheels in a processor on the vehicle; when a TPMS on the vehicle wheel is replaced; receiving a second signal from the replacement TPMS at each BLEAM; obtaining a received signal strength indicator (RSSI) from each BLEAM mounted on the vehicle for the second signal; comparing the RSSI values from each BLEAM to RSSI values recorded in each table for the first signal; and identifying the particular wheel where the replacement TPMS is located as corresponding to the recorded RSSI values that are closest to the recorded RSSI values for the first signal. 2. The method of claim 1 , wherein the method uses thirteen BLEAMs. 3. The method of claim 1 , wherein the vehicle has two wheels on each side of the vehicle and wherein two BLEAMs of the plurality of BLEAMs are located between the wheels on each side of the vehicle. 4. The method of claim 3 , wherein the vehicle has a rear windshield and wherein two BLEAMs of the plurality of BLEAMs are located behind the rear windshield. 5. The method claim 4 , wherein the vehicle has a passenger compartment and wherein a first BLEAM of the plurality of BLEAMs is located at a front portion of the passenger compartment and wherein a second BLEAM of the plurality of BLEAMs is located at a rear portion of the passenger compartment. 6. A motor vehicle configured to determine a particular wheel where a replacement Bluetooth tire pressure monitoring sensor (TPMS) is located, the replacement Bluetooth TPMS being capable of transmitting a Bluetooth-compliant radio frequency signal to a plurality of Bluetooth transceivers mounted at predetermined locations on the particular type of vehicle, the vehicle comprising: a reference TPMS signal strength information determiner configured to: receive information from the TPMS sensor attached to each wheel of the vehicle at each of the plurality of Bluetooth transceivers on the vehicle; obtain a received signal strength indicator (RSSI) values from each of the plurality of Bluetooth transceivers mounted on the vehicle, for a first signal transmitted from the TPMS attached to each wheel of the vehicle and for each RSSI value obtained for the first signal transmitted from each TPMS attached to each wheel, record the RSSI values for each wheel's TPMS into a table of RSSI values for each wheel's TPMS; and store the tables of recorded RSSI values for the wheels in a processor on the vehicle; when a TPMS on the vehicle wheel is replaced; the reference TPMS signal strength information determiner being configured to receive a second signal from the replacement TPMS; obtain a received signal strength indicator (RSSI) from each of the plurality of Bluetooth transceivers mounted on the vehicle for the second signal; compare the RSSI from each Bluetooth transceiver for the second signal transmitted by the replacement TPMS, to the values recorded in each table for the first signal; and identify the particular wheel where the replacement TPMS is located as corresponding to the recorded RSSI values that are closest to the recorded RSSI values for the first signal.