A user destination is identified based on received location information from a user. A first seat in a vehicle is assigned to the user based on the user destination. At least one of the first seat and a second seat in the vehicle is moved upon user entry until a distance between the first seat and the second seat is greater than a distance threshold.

A system and method for evaluating pressure sensation of a vehicle seat in which body pressure sensors installed in a bolster of a seat cushion measure a body pressure are provided. The pressure sensation due to the bolster and a shield cover of the seat cushion is determined by analyzing the magnitudes of the measured body pressure and the distribution chart thereof. Whether the pressure sensation is caused by the bolster or the shield cover is determined based on the magnitudes of the body pressure and the distribution chart thereof to adjust the seat cushion to a position to release the pressure sensation.

The present disclosure provides a seat control system for a vehicle, which may sense whether passengers have been seated on a front seat and a rear seat, and easily implement sleep and rest postures of the front seat and the rear seat through the height adjustment, the reclining adjustment, and the like of the front seat and the rear seat according to the sensed result.

Various systems and methods are provided for determining a posture of an occupant of a vehicle. In one embodiment, a method comprises capturing images of an occupant in a vehicle via a vehicle camera, determining a current posture of the occupant and a recommended posture for the occupant based on the captured images and body measurements of the occupant, and outputting a guidance based on a difference between the current posture and the recommended posture. In this way, a comfort of the occupant may be increased by guiding the occupant toward a more ergonomic posture.

In a physical state sharable seat, a sensor is configured to acquire a measurement value specific to a physical state of an occupant seated on the seat body; and a controller connected to the sensor and thereby allowed to acquire the measurement value from the sensor is configured to be capable of communicating with other equipment. The controller includes: an evaluation unit configured to compute an evaluation value on the physical state, based on the measurement value; an evaluation value presentation unit configured to present the evaluation value at a terminal to be used by the occupant; a shared data acquisition unit configured to acquire an other-occupant evaluation value that is an evaluation value on a physical state of another person, acquired either by the evaluation unit or from another physical state sharable seat; and a shared data presentation unit configured to present the other-occupant evaluation value at the terminal.

The invention concerns a system for controlling a smart vehicle seat (1) having a seat base (1b) and a backrest (1c), the surfaces of which are provided with flat pressure sensors, the pressure sensors being connected to a microcontroller (6) via which an actuator element is controllable via a drive unit (9), whereby the actuator element is adapted to change the surface of the seat base (1b) and/or the backrest (1c). It is the object of the invention to develop the system in a way that it automatically adapts to a sitting posture of a user and adjusts the surface of the seat base and of the backrest in an extremely flexible and exactly way depending on the user's posture. Therefore, the invention proposes, that the actuator element comprises one or more valves via which one or more airbags are controllable. Furthermore the invention proposes to use graphene sensors as pressure sensors and to integrate an artificial intelligence module (7) on the microcontroller (6).

A vehicle seat track position sensor assembly is adapted for mounting to a moveable vehicle seat track. The vehicle seat track position sensor assembly comprises a bracket including a plurality of walls defining a central bracket cavity and a plurality of teeth. A sensor body is seated in the central bracket cavity of the bracket and includes another plurality of teeth adapted for engagement with the plurality of teeth on the bracket for securing the sensor body to the bracket. The vehicle seat track position sensor assembly is adapted for mounting into the interior cavity of a moveable vehicle seat track. The plurality of teeth on the sensor body are adapted for advancement relative to and against the teeth of the bracket for locking the vehicle seat track position sensor assembly in the interior cavity of the vehicle seat track at a selected position.

A system and method for adjusting seats of different vehicles, wherein the vehicles comprise means for retrieving an identifier of a seat user, wherein the system comprises means for storing data of seat adjustments made by an identified user in a first vehicle which are associated with the user identifier, comprises means for transmitting the seat adjustment data of the first vehicle and user identifier data to a second vehicle of a different type than the first vehicle, and comprises means for converting seat adjustment data of the first vehicle into seat adjustment data of the second vehicle so as to offer the user similar comfort in vehicles of different types.

In a vehicle seat system, lowering of a seat cushion further toward a vehicle lower side than a lowerable limit value corresponding to a recline angle of a seatback is restricted by a control device in cases in which the physical build of an occupant is smaller than a predetermined value. This enables a reduction in the ability to restrain the body of the occupant using a webbing to be suppressed.

A body-size class specification device of the present invention comprises a class feature-quantity information memorizing section to memorize class feature-quantity information to correlate plural classes for classifying a body size according to a dimension ratio of prescribed parts of a body with plural prescribed feature quantities for characterizing the plural classes, a first input section as an example of a feature-quantity acquiring section to acquire feature quantity of an object person to be specified for the class, an eye-height measuring section and an upper-body-length-ratio processing section, and a class specifying section to specify the class corresponding to the feature quantity of the object person acquired by the feature-quantity acquiring section based on the class feature-quantity information memorized by the class feature-quantity information memorizing section.