Abstract: A system for determining if a motor vehicle is overloaded by utilizing the Tire Pressure Monitoring System and the Auto Leveling System installed on many vehicles, and optionally, also providing the proper tire pressure to provide a save driving condition for the motor vehicle.

Abstract: A tire/wheel assembly abnormality determining apparatus and a method thereof determines whether there is an abnormality in a tire/wheel assembly in a vehicle provided with the tire/wheel assembly constituted by fixing a tire, that is filled with compressed air, to a wheel. The apparatus includes a tire pressure sensor which directly detects an air pressure in the tire as a tire pressure and which outputs a tire pressure signal indicative of the detected tire pressure; and a determining device which determines whether there is a deformation state abnormality, that is an abnormality regarding a deformation state of the tire, in the tire/wheel assembly, based on frequency characteristics of the output tire pressure signal. Therefore, it is possible to accurately determine whether there is an abnormality in the tire/wheel assembly in the vehicle, regardless of fluctuation of a wheel speed.

Abstract: A tire assembly with integrated electronic components includes a tire structure and an integrated electronics assembly, which preferably includes at least a radio frequency (RF) device and a multi-frequency antenna that enables wireless communication in at least first and second resonant frequency bands. Such multi-frequency antenna further comprises at least first and second antenna wires connected to the RF device, thus facilitating the transmission of RF signals which may include information such as tire identification information or measured condition information such as tire temperature, pressure, and other characteristics. The first and second antenna wires preferably function together as at least two dipole antennas, for example, two half-wave dipole antennas, or one half-wave dipole antenna and one three-half-wave dipole antenna.

Abstract: Tires of wheels of a vehicle incorporate detectors that detect the pneumatic pressures and transmit them wirelessly to a plurality of receivers installed on the vehicle. A monitoring device monitors the pneumatic pressures in the tires based on the tire data obtained by the receivers. The receivers and the monitoring devices are connected together through a single communication line, and the monitoring device obtains tire data from the receivers by polling. For each receiver, a receiver ID necessary for the communication with the monitoring device of the vehicle-side is set through a connector that connects the single communication line and the power source line to the receiver.

Abstract: The present invention is directed to monitoring the loss of pressure in one or more tires by detecting the angular speed variations of one or more wheels of the vehicle over a specified wheel revolution period and analyzing the vibration of the speed various. Changes in the frequency are related to pressure loss, which is indicated to the driver, for example, by displaying the tire pressure loss information on a display.

Abstract: A pressure monitoring system (12) for a tire (14a) of an automotive vehicle includes a first pressure sensor (94) coupled to the wheel, a pressure transmitter (90) coupled to the pressure sensor (94) whereby the transmitter generates a pressure signal. A controller (22) is coupled to the pressure transmitter. The controller (22) receives the pressure signal and in a first stage, compares the pressure signal to a pressure threshold to obtain a sensor status. In a second stage, the controller (22) qualifies the sensor status signal by generating a warning status in response to the sensor status.

Abstract: A device for continuously measuring deformations in a tire mounted on a rim includes at least one emitter, at least one reflecting element, and at least one optical sensor of luminous intensity. The at least one emitter and the at least one optical sensor are disposed on the rim. The at least one reflecting element is disposed on a portion of an inner surface of the tire. The at least one emitter emits a light beam toward the at least one reflecting element, the at least one reflecting element reflects the light beam toward the at least one optical sensor, and the at least one optical sensor receives the reflected light beam, measures a prechosen physical parameter associated with the reflected light beam, and provides a signal representing a deformation of the tire on the portion of the inner surface of the tire.

Abstract: A transmitter, which is operated by a battery, wirelessly transmits data including data that represents the temperature T in a tire and data that represents the voltage V of the battery. A receiver judges whether or not the life of the battery is ending depending on the battery voltage V read from the received data. More specifically, the receiver performs the judgment regarding the life of the battery based on a comparison between the battery voltage V and a variable voltage reference value V0, which is selected in accordance with the temperature T in the tire. The judgment regarding the life of the battery is thus accurately performed.

Abstract: A thermal monitoring system for use with a tire is provided. The system includes one or more thermal sensors that are carried by a vehicle. One of the thermal sensors may produce a first sensor output signal that is representative of the temperature of a first location on the tire. Additionally, a second sensor output signal may be produced that is representative of the temperature of a second location on the tire. A signal processing device is included that receives the first and second sensor output signals. The signal processing device produces a processing device output signal that is representative of a potential damage condition of the tire. This signal is produced in response to a particular temperature difference between the first and second locations as indicated by the first and second sensor output signals. An indication device receives the processing device signal and indicates to a user of the vehicle that the tire is experiencing a potential damage condition.

Abstract: A device for monitoring air pressure in the tires of a vehicle includes devices for determining the wheel speed or other characteristic variables for the speed of the tires of the vehicle, a device for calculating differential variables on the basis of the wheel speed variables, a device for evaluating the differential variables with respect to a setpoint value deviation and for generating a warning signal if the setpoint value deviation exceeds a threshold value, and a device for directly measuring the air pressure in the tire of a wheel and for transferring an air pressure characteristic variable to the evaluation device. A warning signal is generated if the deviation of the air pressure characteristic variable with respect to a setpoint value exceeds a corresponding threshold value. A method of monitoring tire pressures is also provided.

Abstract: A tire pressure monitoring apparatus, for mounting on a vehicle wheel that is configured to have a tire mounted thereon and that has a first opening, includes a tire monitor for sensing pressure in the tire. The tire monitor includes a housing having a spherical surface and a second opening that extends through the spherical surface. A tire valve stem is configured to extend through the first and second openings, and the valve stem has a threaded portion. The apparatus further includes a threaded fastener that is engageable with the threaded portion of the valve stem for attaching together the tire monitor and the valve stem. The fastener has a spherical surface that is engageable with the spherical surface of the housing when the fastener is engaged with the threaded portion of the valve stem.

Abstract: A tire air pressure detection device includes an ideal driving status calculating portion (3e) and a rotational status value compensating portion (3f). The ideal driving status calculating portion calculates an ideal status value (?id) corresponding to a slip value under an ideal driving status without tire slippage. The rational status value compensating portion calculates and ideal rotational status value under the ideal driving status without tire slip based on the regression line calculated by a regression line calculating portion (3d) and the ideal slip status value calculated by the ideal driving status calculating portion.

Abstract: A device for detecting substantially sudden and significant loss of pressure in a tire, comprising: a pressure variation detector capable on the one hand of responding in a safety time interval to a substantially significant and rapid variation in the pressure inside the tire cavity, and on the other hand of acting on another element cooperating with said detector; a management module, cooperating with said detector and capable, on the basis of the information supplied by said detector, of sending a signal when a given pressure variation threshold is reached.

Abstract: A method for detecting decrease in tire air-pressure in which decrease in internal pressure of a tire is detected on the basis of rotational information obtained from tires attached to a vehicle. The method includes the steps of: detecting rotational information of the respective tires; storing the rotational information of the respective tires; obtaining a slip rate between the tires and a road surface during running; comparing the slip rate with a slip rate which has been preliminarily obtained when at normal internal pressure; and judging simultaneous decompression of two wheel tires of both front wheels or simultaneous decompression of two wheel tires of both rear wheels on the basis of a relationship between a value obtained through comparison of the two slip rates and a specified threshold. It is possible to judge simultaneous decompression of two wheel tires of both front wheels or wheel two tires of both rear wheels.

Abstract: Circuit and method for coupling signals to a tire pressure monitoring system assembled within the interior of a tire in the absence of a receiver are provided. The circuit comprises a coupling circuit that provides capacitance or electromagnetic coupling to pass an externally-derived stream of pulses to a microprocessor therein by either, in the case of capacitance coupling, connecting an external device that generates the stream of externally-derived of pulses to a valve stem of the tire and an electrical ground. In the case of electromagnetic coupling, by placing a suitable external device proximate the coupling circuit. The stream of pulses carries information usable by the microprocessor to perform a respective operational function.

Abstract: A method and apparatus of characterizing for tire pressure imbalances in a set of tires of vehicle, the vehicle having four wheels, and each wheel having a sensor generating a pulse for a predetermined amount of distance traveled by the wheel including entering a first characterization mode, accumulating a number of pulses from each sensor and adding the number of pulses from each sensor to generate a first record total pulse count in the characterization mode, generating a second record total pulse count in the characterization mode, determining if the first record is similar to the second record, and discarding at least one of the first and second records if the first and second records do not meet a criteria.

Abstract: The present invention describes a method and a device for monitoring an operating state of at least one tire of vehicle as a function of the coupling of a trailer to the vehicle. In this context, the operating state of the tire, i.e. the tire state, is particularly monitored for changes. Operation of the vehicle with a trailer causes the distribution of the axle load between the front and rear axles to change in the towing vehicle. This manifests itself in changed slip conditions for the wheels on both the front axle and the rear axle and results in the wheel speeds in trailer operation differing from those in trailerless operation, when the conditions are otherwise the same. Now, the essence of the present invention is to modify the wheel-speed-based monitoring of the tire state on the basis of detecting that the vehicle is being operated with a trailer. This modification allows, e.g. a loss in pressure of a tire to be determined with a better detection accuracy.

Abstract: The invention relates to a method for detecting a drop in pressure of a motor vehicle tire by evaluating wheel speeds determined by sensors. The method for detecting the drop in pressure is based on the detection of a large drop in pressure or a complete drop in pressure using a reduction of the angular velocity or an increase (8) in the dynamic read radius rd of one or more wheels. The invention also relates to a device for controlling the braking power and/or driving dynamics and for measuring the pressure of vehicle tires wherein a microcomputer, which is connected to wheel rotational speed sensors and optionally to driving dynamic sensors, is used to perform the aforementioned method and a known method for regulating the braking power and/or driving dynamics.

Abstract: An unsafe operating condition, such as low pressure, of a pneumatic tire is monitored by measuring a temperature (T) of the pneumatic tire, determining (304, 308) rates (R1, R2) at which the tire temperature is changing, and indicating (340) when the rate exceeds predetermined values (A, C). The rate (R1, R2) may be determined with respect to time (t), or with respect to some other parameter such as travel distance (x). The predetermined value (C) may be a function of the tire's rotational velocity (V). The rotation speed (V) of the tire may be taken into account. The driver may be alerted when the temperature exceeds a maximum acceptable operating temperature (D) for the tire, or when the temperature of one tire deviates significantly from the temperatures of the other tires on the vehicle.

Abstract: The present invention provides a method, a computer usable medium including a program, and a system for monitoring inflation in a plurality of vehicle tires. The method and computer usable medium include the steps of determining a direct pressure in at least one primary tire and determining a rolling radius for the primary tire and at least one secondary tire. A pressure difference is determined based on the determined rolling radius for the primary and secondary tires. The determined pressure difference is adjusted based on the determined direct pressure of the primary tire. The determined pressure difference is compared to at least one threshold value. The system includes means for achieving the method steps of the invention.

Abstract: A method for detecting decrease in tire air-pressure in which decrease in internal pressure of a tire is detected on the basis of rotational information obtained from tires attached to a vehicle.

Abstract: According to the invention the method, and the system or corresponding device, consist in measuring a signal proportional to the speed of rotation of the wheel and in calculating a harmonic signal of the round of wheel (rather equal to the energies of the harmonics of this signal) then in comparing the result with a threshold and in activating an alarm when over-passing this threshold.

Abstract: A method for alarming decrease in tire air-pressure. The method includes the steps of: detecting rotational information of respective tires; respectively calculating and storing a wheel speed, a vehicle acceleration, a slip ratio between front and rear wheels, a running distance and a turning radius; accumulating the running distance, the moving-averaged vehicle acceleration and the slip ratio between front and rear wheels; obtaining a linear regression coefficient and a correlation coefficient of the vehicle acceleration and the slip ratio; judging whether at least a driving wheel tire has decompressed upon comparing a judged value of the linear regression coefficient and a reference value for internal pressure of the linear regression coefficient; and issuing an alarm of decrease in tire air-pressure.

Abstract: An apparatus and method to estimate the condition amount of a vehicle tire in a vehicle equipped with vehicle wheels formed with air enclosed under pressure in an inside portion of a tire mounted to a disc wheel. A plurality of wheel speed sensors detect the vehicle speed of each vehicle wheel. An estimating unit obtains a reflected value reflecting the tire condition amount of a vehicle wheel based on the vehicle wheel speed, and estimates the tire condition based upon the reflected value. The estimating unit estimates a reflected value for a first vehicle wheel which is difficult to accurately obtain the reflected value based on the vehicle wheel speed by obtaining the reflected value for a second vehicle wheel which is easier to accurately obtain the reflected value based on the wheel speed.

Abstract: Transmitters of a tire condition monitoring apparatus are provided in the tires at the left side of a vehicle and in the tires at the right side of the vehicle. Each transmitter has a pressure sensor and a temperature sensor for detecting conditions of the associated tire. Each transmitter wirelessly transmits data representing the condition of the associated tire detected by the sensors. Each transmitter has an acceleration detection sensor for detecting a direction of acceleration due to rotation of the associated tire. Based on data representing the direction of acceleration detected by the acceleration detection sensor, whether the transmitter is located in the tire at the left side or in the tire at the right side is identified.

Abstract: An automotive tire pressure monitoring assembly 10 for installation in a vehicle 12 is provided. The automotive tire pressure monitoring assembly 10 includes at least one tire pressure sensor 34 generating a signal based on the pressure of air within a tire 14. The at least one tire pressure sensor 34 further includes a sensor receiver 68 in communication with a sensor control logic 38. The sensor control logic 38 is adapted to receive spectral noise 20 from at least one noise generating assembly 18. The automotive tire pressure monitoring assembly 10 further includes a controller assembly 52 positioned within the vehicle 12 and in remote communication with the at least one tire pressure sensor 34. The automotive tire pressure monitoring assembly 10 includes a positioning logic adapted to determine the position of the at least one tire pressure sensor 34 based on the strength of the spectral noise 20.

Abstract: A system for monitoring the inflation status of a tire comprising a sensor mounted to the wheel rim and adapted to transmit a distance signal indicative of a measured distance from the wheel rim to the inside surface of the tire adjacent the riding surface; a control unit in communication with the sensor and adapted to receive the distance signal, wherein the control unit determines the inflation status of the tire and transmits an inflation status signal indicative of the inflation status; and an indicator located within the passenger compartment of the vehicle and in communication with the control unit to receive the inflation status signal, wherein the indicator presents the inflation status of the tire.

Abstract: A tire air pressure detection device of the present invention includes a warning anticipation timing calculating portion for anticipating a warning timing at which tire air pressure decrease detecting portion will detect the tire air pressure decrease based on rotational status value compensated for by a rotational status value compensating portion. A tire air pressure decrease detecting portion detects a decrease in tire air pressure when a clocked determination time reaches the warning anticipation timing anticipated by the warning anticipation timing calculating portion.

Abstract: Arrangement and method for monitoring a tire mounted to the vehicle in which a thermal radiation detecting device detects the temperature of the tire at different circumferential locations along the circumference of the tire. The detected temperatures of the tire are analyzed to determine, for example, whether a difference in thermal radiation is present between the circumferential locations of the tire, and if so, an action is effected in response to the analysis. The thermal radiation detecting devices are preferably supplied with power wirelessly, e.g., through an inductive system, a capacitive system or a radio frequency energy transfer system.

Abstract: Arrangement and method for monitoring tires mounted to the vehicle in which thermal radiation detecting devices are arranged external of and apart from the tires for detecting the temperature of the tires. The detected temperature of the tires is analyzed, e.g., relative to a threshold or as to the magnitude of a difference between mated tires, and an action is effected in response to the analysis. The thermal radiation detecting devices are preferably supplied with power wirelessly, e.g., through an inductive system, a capacitive system or a radio frequency energy transfer system.

Abstract: A tire monitoring method and apparatus is provided to predict tire tread separation for a tire on a wheel of a vehicle. This may involve monitoring a parameter of a tire of a vehicle over time and comparing information regarding the monitored parameter (over time) with a reference threshold value of the parameter (over time). The method may also include providing information to a driver based on the comparison. The parameter may be acceleration (axial, radial or longitudinal) along an axis of the tire. The parameter may also be tire imbalance, temperature inside the tire, speed of the tire, load and/or pressure, for example. Information regarding the comparison may be transmitted to a driver if the monitored parameter exceeds the reference threshold value for a predetermined amount of time.

Abstract: A self training tire pressure monitoring system for a vehicle includes at least two pressure sensors, at least two wheel sensors and a control. The pressure sensors are positioned at respective tires and are operable to provide a measured pressure output indicative of the pressure of the respective tires. The wheel sensors are positioned at respective wheels of the vehicle and are operable to provide a characteristic output indicative of rotation of the wheels over a period of time. The control receives the characteristic outputs and the measured pressure outputs and is operable to integrate the outputs to determine the particular wheels at which the pressure sensors and associated tires are positioned. The measured pressure and location of the tires may be displayed at a display of the vehicle. Preferably, the control deduces a deduced rolling radius of the tires in response to the characteristic output of the wheel sensors.

Abstract: A tire pressure monitoring system connectable to a valve stem for supplying air to a respective tire is provided. The system includes a pressure sensing device. A circuit board is configured to receive one or more circuit components associated with the pressure sensing device. A flex circuit is electrically coupled to the circuit board and the pressure sensing device to pass electrical signals between one another. A joining structure is provided for electromechanically connecting the circuit board to a respective valve stem end disposed within the tire. The valve stem may receive one electrical signal indicative of the level of pressure sensed by the pressure sensing device and may radiate the electrical signal to the surrounding environment. The foregoing embodiment may be adapted to applications that do not use any coupling to the valve stem and/or avoid use of any circuit board. In such an adaptation, the antenna may be configured in the flex circuit.

Abstract: A method for alarming decrease in tire air-pressure in which a decrease in internal pressure of a tire is detected on the basis of rotational information obtainable from wheels mounted to a vehicle and a driver is accordingly alarmed. A plurality of thresholds for judging bad road are set. Decrease in air-pressure of a tire can be judged and alarm is issued upon decrease in air-pressure also when running on a bad road so that it is possible to secure safe driving for the driver.

Abstract: A device for monitoring air pressure in the tires of a vehicle includes devices for determining the wheel speed or other characteristic variables for the speed of the tires of the vehicle, a device for calculating differential variables on the basis of the wheel speed variables, a device for evaluating the differential variables with respect to a setpoint value deviation and for generating a warning signal if the setpoint value deviation exceeds a threshold value, and a device for directly measuring the air pressure in the tire of a wheel and for transferring an air pressure characteristic variable to the evaluation device. A warning signal is generated if the deviation of the air pressure characteristic variable with respect to a setpoint value exceeds a corresponding threshold value. A method of monitoring tire pressures is also provided.

Abstract: A system and method for monitoring the location of each of a plurality of tires that are selectively and rotatably attached to a vehicle. A plurality of monitors are placed on the vehicle either within the air compartment of tire or proximate to the tire, monitoring either the air pressure or rotation of one of the plurality of tires, and transmitting the monitoring data to a receiving module in the vehicle. The receiving module determines if a tire attachment location-changing event has occurred on the vehicle based upon a change in tire pressure or a predetermined sequence of tire rotation, and preferably requests input of new tire locations on the vehicle.

Abstract: A method for detecting decrease in tire air-pressure in which decrease in internal pressure of a tire is detected on the basis of rotational information obtained from tires attached to a vehicle. The method includes the steps of: detecting rotational information of the respective tires; storing the rotational information of the respective tires; obtaining a slip rate between the tires and a road surface during running; comparing the slip rate with a slip rate which has been preliminarily obtained when at normal internal pressure; and judging simultaneous decompression of two wheel tires of both front wheels or simultaneous decompression of two wheel tires of both rear wheels on the basis of a relationship between a value obtained through comparison of the two slip rates and a specified threshold. It is possible to judge simultaneous decompression of two wheel tires of both front wheels or wheel two tires of both rear wheels.

Abstract: Lowpass and highpass filters, having cutoff frequencies different from each other, are used to perform first to fourth filter processing. Then, product-sums of outputs of respective filter processing are obtained. Then, frequencies corresponding to the resonance frequency are obtained based on the result of respective product-sum calculations. The thus obtained frequencies are different from each other in the degree of influence of noise components. Then, among the obtained frequencies, an optimum frequency having less influence of noise components is selected. Then, the selected frequency is smoothed to obtain a resonance frequency for a pneumatic tire pressure estimation.

Abstract: A system for monitoring the inflation status of a tire comprising a sensor mounted to the wheel rim and adapted to transmit a distance signal indicative of a measured distance from the wheel rim to the inside surface of the tire adjacent the riding surface; a control unit in communication with the sensor and adapted to receive the distance signal, wherein the control unit determines the inflation status of the tire and transmits an inflation status signal indicative of the inflation status; and an indicator located within the passenger compartment of the vehicle and in communication with the control unit to receive the inflation status signal, wherein the indicator presents the inflation status of the tire.

Abstract: The present invention relates to an automobile flat tires/tire blowout alert system—a detecting system combining a micro-processor and several pairs of alert indicators with an ultrasonic sensor. With the ultrasonic sensor to detect the height variation between each tire and the ground, the system monitors the variation of the each tire's tire pressure. Then, after the micro-processor calculates and contrasts the detected status, the buzzer sends out alert signals and commands the alert indicators to signalize for identification, which in turn to maintain the security of the automobile's tires and prevent the them from being damaged.

Abstract: A method for alarming decrease in tire air-pressure. The method includes the steps of: detecting rotational information of respective tires; respectively calculating and storing a wheel speed, a vehicle acceleration, a slip ratio between front and rear wheels, a running distance and a turning radius; accumulating the running distance, the moving-averaged vehicle acceleration and the slip ratio between front and rear wheels; obtaining a linear regression coefficient and a correlation coefficient of the vehicle acceleration and the slip ratio; judging whether at least a driving wheel tire has decompressed upon comparing a judged value of the linear regression coefficient and a reference value for internal pressure of the linear regression coefficient; and issuing an alarm of decrease in tire air-pressure.

Abstract: A method for detecting decrease in tire air-pressure on the basis of rotational information obtained from tires attached to a vehicle. The method includes the steps of: detecting rotational information of the respective tires; storing the rotational information of the respective tires; obtaining an acceleration/deceleration of the vehicle; obtaining a slip rate when the acceleration/deceleration of the vehicle is within a specified range proximate to zero; comparing the slip rate with a slip rate which has been preliminarily obtained when the tire is under normal air pressure; and judging simultaneous decompression of both front wheel tires or simultaneous decompression of both rear wheel tires on the basis of a relationship between a value obtained through comparison of the two slip rates and a specified threshold. It is possible to judge simultaneous decompression of both front wheel tires or both rear wheel tires when employing the present invention.

Abstract: A method of detection of the limited slip differential device, wherein it is detected whether a vehicle is mounted with a limited slip differential device on the basis of a relationship between a lateral directional acceleration of a vehicle calculated by using rotational information obtained from tires attached to the vehicle or on the basis of a turning radius of the vehicle, and a specified judged value. It is possible to improve performance and safety of the vehicle since it is possible to accurately judge decrease in internal pressure of a tire.

Abstract: A low-pressure testing device for an automobile tire has a base, a warning device, two parallel separated resilient tubes The base is firmly placed on the ground. The warning device is mounted on one end of the base and has a first switch, a second switch and a warning circuit. Each of the parallel separated resilient tubes has a first closed end and a second end connected to the first switch or the second switch, as appropriate. When the two tubes are pressed simultaneously, the first and second switches close the warning circuit to sound an alarm.

Abstract: A method for detecting decrease in tire air-pressure in which decrease in internal pressure of a tire is detected on the basis of rotational information. The method includes the steps of: detecting rotational information of the tires; storing the rotational information; comparing rotational information of all left-sided wheels and rotational information of all right-sided wheels of the vehicle when the vehicle is performing straight-ahead running; and judging decompression on the basis of a relationship between a value obtained through comparison of the left-sided and right-sided rotational information and a specified threshold. It is possible to detect decompression of a single wheel tire while it is also possible to detect that two wheel tires on the left or right are simultaneously decreased.

Abstract: A tire air pressure detection device of the present invention includes a warning anticipation timing calculating portion for anticipating a warning timing at which tire air pressure decrease detecting portion will detect the tire air pressure decrease based on rotational status value compensated for by a rotational status value compensating portion. A tire air pressure decrease detecting portion detects a decrease in tire air pressure when a clocked determination time reaches the warning anticipation timing anticipated by the warning anticipation timing calculating portion.

Abstract: A system and method for monitoring vehicle tire pressure. A tire pressure monitor for each tire includes a pressure sensor for sensing tire pressure and a transmitter for transmitting a tire pressure signal representative of the sensed tire pressure. A receiver for mounting on the vehicle receives the tire pressure signals, and includes an antenna to be located at a vehicle site. Each tire pressure signal has an amplitude and, for each tire location, the amplitude has a unique pattern over time for the antenna site. A controller for mounting on the vehicle communicates with the receiver and collects and processes the tire pressure signals to automatically identify the tire location associated with each tire pressure signal based on the unique amplitude patterns. The controller further generates control signals for use in conveying tire pressure and location information to a vehicle occupant.

Abstract: The invention relates to the in-service monitoring of the condition of a tire of a wheel of a vehicle. To this end it proposes a process and, in particular, a device comprising: a sensor (4) mounted on the wheel, coupling means (BVF2, BRF2) for transmitting to the vehicle indications derived from this sensor (4), and electrical energizing means (BVF1, BRF1). According to the invention, the sensor (4) is a miniature acceleration-sensitive sensor implanted in the tread of the tire or in the vicinity of the tread. The coupling means, mounted on the wheel, then transmit indications relating to the measurements made at the moment at which the tread is in contact with the ground.

Abstract: Vehicle and vehicle tire monitoring system, apparatus and method determine the load-induced deflection or deformation of a vehicle tire and based thereon, deflection-related information, such as tire load, molar air content, total vehicle mass and distribution of vehicle mass, may be provided. The tire deflection region or contact region of the loaded tire is detected by sensing the acceleration of the rotating tire by means of an accelerometer mounted on the tire, preferably on an inner surface such as the tread lining thereof. As the tire rotates and the accelerometer is off of the contact region, a high centrifugal acceleration is sensed. Conversely, when the accelerometer is on the contact region and not rotating, a low acceleration is sensed. The deflection points delimiting the contact region are determined at the points where the sensed acceleration transitions between the high and low values.

Abstract: The invention relates to the in-service monitoring of the condition of a tire of a wheel of a vehicle. To this end it proposes a process and, in particular, a device comprising: a sensor (4) mounted on the wheel, coupling means (BVF2, BRF2) for transmitting to the vehicle indications derived from this sensor (4), and electrical energizing means (BVF1, BRF1). According to the invention, the sensor (4) is a miniature acceleration-sensitive sensor implanted in the tread of the tire or in the vicinity of the tread. The coupling means, mounted on the wheel, then transmit indications relating to the measurements made at the moment at which the tread is in contact with the ground.