A method for detecting a change in position of a wheel unit of a wheel on a motor vehicle, a position of each wheel unit having been identified and stored. Communication between each wheel unit and at least one control device takes place in accordance with a standard allowing the bidirectional exchange of UHF wave signals, each wheel unit performing scanning to intercept the signals sent by a given wheel unit whose signature is established by the wheel unit performing the scanning in accordance with a detected average power value. Current and starting signatures are compared. If the current signature differs by more than an experimentally determined percentage from its starting signature for a given wheel unit, a change in position of one of the two wheels is detected.

The present invention provides a tire pressure sensor identification method, apparatus and device. The method includes: sending an activation signal to a to-be-detected tire pressure sensor, till receiving a feedback signal sent for the activation signal by the to-be-detected tire pressure sensor, where the feedback signal includes feature information of the to-be-detected tire pressure sensor; and identifying the to-be-detected tire pressure sensor according to the feature information. The present invention implements automatic scanning of the tire pressure sensor and can accurately identify the tire pressure sensor according to a scanning result, thereby improving activation efficiency of the tire pressure sensor.

A tire mounting state detection system (100) is provided with a vehicle configuration holding unit (230) holding a vehicle configuration including the number of wheels of a vehicle (10); a transmitter number detection unit (250) detecting the number of transmitters based on a radio signal received by a receiving unit; a state detection unit (260) detecting whether or not the number of transmitters exceeds or is short the number of wheels based on the number of wheels based on the vehicle configuration and the number of transmitters detected; and an output unit (270) outputting that the state of the transmitter is abnormal when it is determined that the number of transmitters exceeds or is short the number of wheels.

A method for reconfiguring a device for monitoring a tire, incorporating a pressure sensor and a communication module. The device may receive and store configuration data intrinsic to the tire. Based on pressure measurements and the configuration data, the device generates and stores advanced data relating to use of the tire over time. Following reception of new configuration data, the method includes: detecting a tire change based on the previously stored configuration data and the newly received configuration data, if a tire change is detected: erasing the advanced data from the memory means of the device, if not, retaining the advanced data in the memory of the device.

A wheel registration apparatus applied to a vehicle comprises: a transmitter that is provided on each of the four traveling wheels provided with tires and has a first controller configured to create and transmit a frame including unique identification information; and a receiver that is provided on a vehicle body, receives the frames transmitted by the transmitters provided on the four traveling wheels via a reception antenna in a registration mode, and has a second controller configured to register four pieces of the identification information included in the respective frames as pieces of identification information of the transmitters provided on current four traveling wheels.

A tire pressure detection device includes an emitter and a receiver. The emitter is installed to a tire to detect tire pressure, and the emitter sends the tire pressure data via Bluetooth communication to the receiver. The receiver is operated by a user so as to pair the emitter on the tire that is to be checked. The receiver is an elongate part which includes an LF trigger coil connected to the front end thereof. The LF trigger coil is moved to close to the emitter and activates the emitter, such that the tire pressure is sent to the receiver. The emitter has to be paired with the receiver to send the tire pressure to the receiver.

The tire mount position detection system measures a first signal intensity, which is intensity of a radio signal received by a first receiver (R1), and a second signal intensity, which is intensity of a radio signal received by a second receiver (R2), for each transmitter, and calculates a difference of the first signal intensity and the second signal intensity and a total value of the first signal intensity and the second signal intensity for each transmitter. The tire mount position detection system detects the wheel position to which a tire having the transmitter is mounted, based on the difference and the total value of each transmitter.

This specification discloses an identification configuration method and apparatus, and a terminal. The method includes: reading identification information of an original tire pressure sensor stored in a tire pressure receiver, where the identification information includes an identification code of the original tire pressure sensor and position information of the original tire pressure sensor; and sending the identification information to a new tire pressure sensor, so that the new tire pressure sensor carries the identification information when sending tire pressure information to the tire pressure receiver. The new tire pressure sensor can be quickly matched with the tire pressure receiver.

The present invention provides a method and an apparatus for activating a tire pressure sensor, a storage medium and a front-end server. The method includes: obtaining a first identification number of the tire pressure sensor; determining a parameter of an activation signal according to the first identification number, the activation signal being used to activate the tire pressure sensor; and sending the activation signal to the tire pressure sensor according to the parameter. According to the method and the apparatus for activating a tire pressure sensor activation provided in the present invention, the first identification number in a one-to-one correspondence with a model of the tire pressure sensor is obtained, the parameter of the activation signal for activating the tire pressure sensor is determined using the first identification number, and the activation signal is sent according to the determined parameter to activate the tire pressure sensor, so that a plurality of automobile-related parameters do not need to be determined in advance during activation of the tire pressure sensor, thereby improving a success rate of activating the tire pressure sensor.

A vehicle has a rotation angle detecting section that detects, as a detection value, a rotation angle of each wheel assembly. A transmitter, which is provided in each wheel assembly, transmits transmission data including verification data, which is used by a receiver mounted on the vehicle to verify the identification information of the transmitter. The transmitter transmits the transmission data when the rotation angle of the wheel assembly is any of predetermined specific angles. At the performance of transmission at the specific angle, the transmitter changes data that is different from angular data indicating the rotation angle of the wheel assembly and is included in the transmission data in accordance with the specific angle. The receiver collects the detection values detected by the rotation angle detecting section upon reception of the transmission data. The receiver collects the detection values for each piece of the transmission data transmitted at the same specific angle based on a manner in which data included in the received transmission data is changed in accordance with the specific angle.