A driver assist system for a vehicle includes at least one non-visual sensor and a forward-viewing camera disposed that is part of a multi-camera vision system of the vehicle that includes at least two side cameras and a rear backup camera. A video display screen is viewable by a driver of the vehicle when the driver is normally operating the vehicle. During a driving or parking maneuver of the vehicle, images derived, at least in part, from image data captured by at least some of the cameras are displayed by the video display screen, and at least one indication is provided to the driver of the vehicle during the driving maneuver. A unitary image is synthesized from image data captured by the multi-camera vision system and approximates a view as would be seen by a virtual camera at a single location exterior of the vehicle.

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 method is provided for storing tire information in a tire sensor. For this purpose, a tire sensor is fastened to a tire having a passive RFID transponder. The RFID transponder is then supplied with energy via an energy field, with the result that the RFID transponder emits the stored tire information. If the tire sensor has determined that the tire sensor is fastened to the tire, the tire information is received and is permanently stored in the tire sensor. The tire information written to a tire sensor is preferably transmitted to the vehicle by the tire sensor and is then taken into account during a movement-dynamic function, for example.

The invention relates to a system (1) for measuring at least one physical characteristic for a pneumatic assembly (21), comprising a device (9) for detecting the physical characteristic, a device (11) for wireless transmission of values representing the measurements obtained by the detection device (9), a one-way fluid passage device (13) for inflating the pneumatic assembly (21), and a source (15) of electrical energy. According to the invention, the measuring system (1) comprises an electrically conductive metal body (3) closed by a cover (5) made of material transparent to the waves of the wireless transmission device (11), allowing the body (3) to be used as a receptacle which provides for stable positioning, the transmission of electrical energy, and the mechanical protection of the devices (9, 11) of the measuring system (1) while allowing wireless transmission through the cover (5) of values representing the measurements obtained by the detection device (9).

A system includes a wheel, a hubcap coupled to the wheel and a tire pressure sensor coupled to the wheel. The system also includes a brake control unit (BCU) and an active hubcap circuit coupled to the hubcap. The active hubcap circuit is electrically coupled to the tire pressure sensor and the BCU and configured to receive an input signal from at least one of the tire pressure sensor or the BCU, generate an output signal by increasing a signal to noise ratio of the input signal and output the output signal to at least one of the BCU or the tire pressure sensor.

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 tire wear estimation system is provided. The system includes at least one tire that supports a vehicle. At least one sensor is affixed to the tire to generate a first predictor. A lookup table or a database stores data for a second predictor. One of the predictors includes at least one vehicle effect. A model receives the predictors and generates an estimated wear rate for the at least one tire.

An assembly (8) for a central tire inflation system includes a housing having a first end and a second end. The housing defines a fluid conduit disposed through the first and second ends. The assembly also includes one or more sensors (205, 210) having a portion disposed in the fluid conduit. Further, a power source (245) is in electrical communication with the sensor. The assembly additionally includes a kinetic energy device (220) in electrical communication with the power source. The kinetic energy device may comprise a magnet (255) sliding on a guide (265). As an alternative, the kinetic energy device may comprise a turbine (275).

The present disclosure discusses a method of operating a vehicle having a set of tires and an active suspension system. The method includes operating the vehicle to travel along a road surface, sensing, using a smart tire assembly, a magnitude of one or more physical quantities associated with at least one tire of the set of tires, and controlling the active suspension system of the vehicle based at least in part on the magnitude of the sensed one or more physical quantities.

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.