A vehicle seating assembly is provided. The seat assembly includes a front seat assembly having a front seat bottom adapted to be mounted to the vehicle body and a front seat back adapted to be mounted to the vehicle body adjacent to the front seat bottom. A sensor cooperates with at least one of the front seat bottom and the front seat back. An actuator is disposed on at least one of the seat bottom and seat back. The seat assembly includes a rear seat assembly behind the front seat assembly. A vehicle seat controller receives an input indicative of a rear occupant seated information and convey a signal to an actuator to move a front seat assembly to an accommodation position in response to the input.

The specification and drawings present a new apparatus and method for providing an accurate and convenient weighing of a vehicle occupant using a relocatable/replaceable multi-purpose on-board vehicle occupant weighing (REMBOW) methodology including a REMBOW pad mounted on a REMBOW seat frame in a vehicle to improve safe engagement of an air bag as well as raising and monitoring possible health related issues of the vehicle occupant(s). The occupant weighing can be performed, using, as a non-limiting example, a kemoder elimination of a separate occupant's feet weighing (KEF) technology, where kemoder is a key element for moderating of an accuracy and convenience of an occupant weighing (i.e., a weighing moderator) and for starting a measuring process.

A system for testing a pressure sensor of a seat includes a loading device and a processor. The loading device removably applies weight to the seat. The processor receives a measurement of a pre-installation pressure offset of a bladder of the pressure sensor measured before installation of the pressure sensing assembly into the seat. The processor is programmed to receive a weighted measurement from the pressure sensor in the seat when the loading device applies weight to the seat and an empty seat measurement from the pressure sensor in the seat when the loading device does not apply weight to the seat. The processor determines a threshold value by subtracting the empty seat measurement from the weighted measurement. The processor determines a seat pressure offset value by subtracting the pre-installation pressure offset value from the threshold value. The processor compares the seat pressure offset value to a selected range.

A system for notifying emergency services of a vehicular crash may (i) receive sensor data of a vehicular crash from at least one mobile device associated with a user; (ii) generate a scenario model of the vehicular crash based upon the received sensor data; (iii) store the scenario model; and/or (iv) transmit a message to one or more emergency services based upon the scenario model. As a result, the speed and accuracy of deploying emergency services to the vehicular crash location is increased. The system may also utilize vehicle occupant positional data, and internal and external sensor data to detect potential imminent vehicle collisions, take corrective actions, automatically engage autonomous or semi-autonomous vehicle features, and/or generate virtual reconstructions of the vehicle collision.

A seating posture is stabilized for the shoulders of a passenger seated on a vehicle seat. A vehicle seat is provided with a seat back configured to support the seated person from the rear. A shoulder support portion of the seat back configured to support a corresponding one of the shoulders of the seated passenger includes an air cell configured to expand when air is supplied. When the air cell expands, one end portion of the shoulder support portion on the outside in the width direction of the vehicle seat moves more forward than the other end portion of the shoulder support portion on the inside in the width direction.

A system for detecting an occupant in a vehicle seat that includes a sensing electrode located in a seat bottom of a vehicle seat. The system also includes a shield electrode located in the vehicle seat below the sensing electrode. A sensing circuit is operatively coupled to the sensing electrode and the shield electrode. A controller is operatively coupled to the sensing circuit, wherein the controller operates to configure the sensing circuit to apply current to the shield and sensing electrodes. The controller is configured to detect the presence of an object in the seat by comparing a measure of the quadrature component of the sensing current to a threshold wherein the measure is adjusted by an offset value that varies based on a value of a non-volatile counter.

An occupant detection system includes a controller, a sensing electrode, and a shield electrode, the electrodes disposed in a vehicle seat. The controller is electrically coupled to the sensing electrode and shield electrode by a sensing circuit. The controller is configured to send an input signal to the sensing electrode, the shield electrode, or both and measures current, impedance, or capacitance values to determine the presence of an object on the seat, to classify the object, or both.

An alarm system can remind or alert an adult about the presence of a child in a vehicle. A child detector, such as a weight sensor or weight-activated circuit, can detect whether a child is occupying the child safety seat. The child detector may be integrated with or coupled to a child safety seat. The child detector can be used in coordination with a vehicle alarm system to remind or alert a driver that a child is occupying the child safety seat when a key is not in the ignition.

A load exerted on one of supporting parts supporting a seat of a vehicle is detected and is corrected according to an inclination of the vehicle. A load object on the seat is determined a plurality of times of turning on and turning off an ignition of the vehicle using the load thus corrected or the load detected. The load object is determined as an adult at least when the load is greater than or equal to a first threshold and determined as other than an adult at least when the load is less than a second threshold that is less than the first threshold. A function is further provided of determining the load object from a combination of a magnitude relation between the load and a third threshold less than or equal to the first threshold and greater than the second threshold and the inclination of the vehicle.

A vehicle seat includes a seat cushion provided with a seat cushion frame, a front link configured to adjust a height of the seat cushion with respect to a base that is a slide rail or a vehicle body floor, and a front load detection sensor attached to an upper rail and configured to detect a load applied to the vehicle seat. The seat cushion frame includes a pair of side frames separated from each other in a seat width direction, the front link includes a first rotation shaft configured to be rotatable with respect to the seat cushion frame and a second rotation shaft configured to be rotatable with respect to the base, and the front load detection sensor is arranged at a position different from the second rotation shaft in a front to back direction of the seat.