Aspects of the present disclosure are generally related to one or more systems, methods, and devices for providing an integrated tire inflation system, mounted on each tire, wheel, rim, axle, or structure of the vehicle, that communicates with a remote device (e.g., communication device located in the cab of the vehicle and/or a remote network entity) and obtains an optimal tire pressure from the network entity that is calculated to maximize fuel economy, tread life, load, or an environmental condition. In some examples, the integrated telematics system may periodically measure and transmit data associated with the tire to the communication device in the cab and/or to a network entity that may calculate the optimal tire pressure for each tire on the vehicle. The integrated telematics system may receive the optimal tire pressure information from the communication device and/or the network entity and automatically adjust the tire pressure accordingly.

The invention relates to a universal monitoring device for monitoring one or several state variables of a vehicle tire, comprising at least one sensor for detecting a state variable of the vehicle tire; at least one transmitter for transmitting a wireless coded signal depending on the detected state variable; at least one control apparatus which is in connection with the sensor and the transmitter in order to control the detection of the state variable and the transmission of the signal, wherein a memory is assigned to the control apparatus or is integrated therein, in which a computer program which is executable by the control apparatus is stored, which controls the detection of the state variable and the transmission of the signal. The invention is characterized in that the computer program comprises a plurality of functional modules which can be activated individually or in groups and which are designed to change the content and the coding of the signal to be transmitted depending on their activation or deactivation, a receiver is assigned to the control apparatus for receiving a parameter set, the memory is designed for storing the parameter set received by the receiver, and the computer program is designed to activate and deactivate its functional modules depending on parameters of the stored parameter set, and to determine the change in the content and the coding of the signal to be transmitted by the functional modules depending on parameters of the stored parameter set.

An apparatus for setting inflation pressure used to support a vehicle comprising a tire includes an air dispensary, a transponder, and a data-processing system. The transponder is coupled to the air dispensary and to the data-processing system. It receives, from the vehicle, a wireless transmission having first information. The data-processing system executes a host process that receives the first information, and that obtains, based at least in part on the first information, second information. The first information comprises information from which an appropriate inflation pressure for the first tire is obtainable. The second information comprises information indicative of an appropriate inflation pressure for the first tire.

A tire parameter measurement method, device, and system of using the same are described herein. One method includes an inflatable tire and wheel assembly with an internally mounted pressure sensor apparatus, measuring pressure values, associating the sensor to an identification reader to receive the pressure values from the pressure sensor, and notifying a user of the measured pressure.

A device for tire pressure monitoring of a vehicle tire of a vehicle system includes a tire inflation system in communication with the vehicle tire. A control unit calculates a set pressure value to be maintained for the tire pressure. A storage unit is in communication with the control unit such that the control unit adjusts the calculated set pressure value in dependence on an operating state classification derived from operating state parameters of the vehicle system. The control unit determines a geoposition of the vehicle system correlating with the derived operating state classification and stores it with the operating state classification in the storage unit. The control unit further recalls from the storage unit the relevant operating state classification for purposes of anticipatory adjustment of the set pressure value of the tire pressure when a renewed approach of the vehicle system to the stored geoposition is detected.

A pressure of a spare tire of a vehicle is determined. Whether the spare tire is installed is determined based at least in part on the pressure. A vehicle subsystem is actuated based at least in part on whether the spare tire is installed.

A real time tire pressure sensing system includes sensors to collectively generate signals corresponding to a contained tire air temperature, a contained inflation pressure, and an ambient temperature associated with a tire mounted on a vehicle. A processor determines an effective tire inflation pressure based on the generated signals and further at least on a calculated moving average of the ambient temperature (e.g., over a defined time period such as 24 hours) and generates real time notifications associated with the determined effective tire inflation pressure to specified user interfaces. At least one sensor may be an inflation pressure sensor configured to generate event-based signals corresponding to detected changes per unit pressure. The processor may further generate real time feedback control signals to an automatic tire inflation device, based on the determined effective tire inflation pressure, or enable and prompt manual control of the tire inflation device via the user interface.

An arithmetic model generation system includes a tire information acquisition unit, a position information acquisition unit, a wear amount calculator, and an arithmetic model update unit. The tire information acquisition unit acquires tire data including a temperature and pressure of a tire. The position information acquisition unit acquires position data for a vehicle on which the tire is mounted. The wear amount calculator includes an arithmetic model that generates an estimated wear amount of at least one groove of the tire, the wear amount calculator calculating the estimated wear amount of at least one groove of the tire by using the arithmetic model by inputting the tire data and the position data. The arithmetic model update unit updates the arithmetic model based on a wear amount measured by a tire measurement device external to the vehicle and the estimated wear amount.

A wheel hub assembly apparatus comprising a housing configured for operative fitment to a wheel hub assembly. Also included is at least one air pressure sensor having a fluid connection for in situ fitment to tire valve and configured to selectively sense a pressure of a tire mounted on the wheel hub assembly, a temperature detector configured to detect an ambient temperature within the wheel hub assembly, a display configured to provide external display of information, and a controller arranged in signal communication with the pressure sensor, temperature detector and display, the controller configured to receive sensed pressure and/or detected temperature and to display same via the display.

There is disclosed a method of analysing tire temperature data from a temperature sensor arranged to measure the temperature of a tire on a vehicle. The method comprises receiving tire temperature data from the temperature sensor; receiving further data indicative of at least one different parameter related to the vehicle. The method further comprises determining expected temperature data based at least on the further data; and comparing the tire temperature data to the expected temperature data.