To provide a seat system that allows the information of the user seated in the seat to be acquired by another user, a seat system includes: a seat main body; at least one sensor provided in the seat main body; a control device for processing a signal from the sensor; and a first user interface communicating with the control device and notifying information based on a signal from the control device. Preferably, the sensor acquires information obtained from a seated person who is seated on the seat main body. Preferably, the seat system includes a camera for capturing an image of the seated person who is seated on the seat main body, and the control device causes the first user interface to display the image captured by the camera.

An occupant customized seat control apparatus and method are provided. The method includes recognizing, by a camera, an occupant that approaches a vehicle, controlling a display to move based on a height of the recognized occupant, determining whether the recognized occupant is an infant, and when the recognized occupant is determined to be an infant, determining whether a booster seat needs to be controlled based on the height of the recognized occupant, and when at least one of the booster seat, a footrest, or the combination thereof needs to be controlled, converting a value of the recognized height into a booster seat actuator movement amount value, and controlling the booster seat to move based on the converted actuator movement amount value.

Vehicle systems configured to interact with remotely located smart systems are disclosed. An example vehicle includes memory, machine-readable instructions, and one or more processors. The one or more processors are configured to execute the machine-readable instructions to send, from the vehicle to a smart system located remotely relative to the vehicle, a first message configured to cause the smart system to adjust one or more functions of a device controllable via the smart system. The one or more processors are further configured to execute the machine-readable instructions to receive, at the vehicle from the smart system, a second message including information associated with the smart system or the device.

Guided driver positioning system and methods are disclosed herein. An example method can include determining gait for a user of a vehicle from images obtained from a camera, the gait being indicative of a posture of the user, determining a distance between the user and a display of the vehicle, and automatically adjusting a vehicle component in response to the gait and the distance to change a user position relative to the display.

Lighting device indicating a configuration state of a seat of a motor vehicle, the lighting device being arranged to illuminate at least one part of the seat as a function of at least one datum relating to the configuration state of this at least one part of a seat relative to a configuration instruction for a given user.

A method for customizing a vehicular massage function includes providing massage element indicia, creating massage subroutines using the massage element indicia, selecting a vehicle that includes a seat having a massage element configuration, placing the massage subroutines in communication with the vehicle, adapting the massage subroutines to be compatible with the massage element configuration and activating the seat to perform at least one massage subroutine.

Various systems and methods for providing an occupant profiling system are described herein. A system for profiling a vehicle occupant includes a vehicle control system, comprising: a sensor fusion circuit coupled to a plurality of sensors installed a vehicle seat, the sensor fusion circuit to: determine that a human occupant is seated in the vehicle seat; sample a backrest sensor arrangement and a base cushion sensor arrangement of the vehicle seat to obtain backrest sensor data and base cushion sensor data, when the human occupant is determined to be seated in the vehicle seat; sample, when the human occupant is determined to be seated in the vehicle seat, a height sensor to obtain a height sensor value; and statistically determine from the backrest sensor data, the base cushion sensor data, and the high sensor data, whether the human occupant matches a reference profile.

An image is received from an image sensor. The image includes an occupant's head. A seated height of the occupant is determined based at least in part on a distance from the image sensor to the occupant's head, and a detected angle of a vehicle seat. A safety device is adjusted based at least in part on the seated height of the occupant.

A vehicle seat includes a group of first inflatable bladders, each first bladder having a respective first valve coupled therewith and a pump coupled with each of the first valves. The seat further includes a controller in communication with the pump and with the first valves to cause the pump to inflate the first group of bladders to a predetermined pressure and to close the valves to maintain a subsequent inflation level of each of the first bladders.

Example embodiments presented herein are directed towards a seat assembly, and corresponding method and computer readable medium, for adjusting a seat in an autonomous vehicle. The adjustment is provided such that a seat occupant may control the adjustment may providing a natural pushing force once the vehicle is in an autonomous driving mode.