The disclosed method is stored as computer readable instructions and carried out by a processor that is part of a disclosed occupant monitoring system (OMS). The method starts with the receipt of an external signal by the processor. The external signal can be the starting of the vehicle engine, an indication of semi-autonomous or autonomous driving mode, or an indication that the occupant is seated, is in contact with a steering wheel, and/or is in contact with at least one dashboard control. The receipt of the external signal causes the processor to capture an image, analyze the image to determine if at least one monitoring condition is met, generate an adjustment signal if the monitoring condition is not met, and communicate the adjustment signal to at least one VCS, and repeating the monitoring loop. In some implementations, multiple images are captured and analyzed during the cycling of a monitoring loop.

A trim element having a trim panel that includes an inner face and an outer face and at least one support element extending over the inner face and protruding toward the outer face such that the trim panel marries at least part of the contour of the support element in order to form a support surface on the outer face. The support element can be positioned in a plurality of positions relative to the trim panel, which is deformable to marry at least part of the contour of the support element so that the support surface can be positioned in a plurality of areas of the outer face.

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.

A condition correction unit includes a plan storage unit configured to store correction plans showing contents of correction of the body condition of a seated person, a presentation unit configured to read a correction plan based on a current value measured by a measurement unit from the plan storage unit and present the correction plan to the seated person, and a processing execution unit configured to execute processing to correct posture by controlling an operating unit. The plan storage unit stores the correction plan presented by the presentation unit in association with information identifying the seated person when the correction plan is presented. The processing execution unit reads the correction plan associated with the information identifying the seated person from the plan storage unit, and executes the processing to correct the posture according to correction contents shown by the correction plan.

Disclosed is a control device for comfort equipment for a seat module in a passenger transport vehicle. The control device includes a control unit capable of transmitting adjustment commands to a piece of comfort equipment, and one imager capable of acquiring one image representing a part of the body of a passenger resting on a seat. The control unit communicates with the imager to receive the one acquired image. The control unit is capable of detecting an object in the image representing a part of the passenger's body and generating one adjustment command to be sent to the comfort equipment as a function of the detected part of the passenger's body.

Method and apparatus are disclosed for providing discrete autonomous notifications to a passenger of a vehicle. An example vehicle includes a plurality of seats, a plurality of audio transducers, and a processor. The processor is configured to determine a passenger seat corresponding to a passenger having a predetermined destination, determine a notification based on the predetermined destination, and transmit, via one or more of the plurality of audio transducers, a notification to the passenger based on a determined passenger head position.

A method for adjusting a seat of a vehicle is disclosed. The method includes the step of capturing loading data of the seat, evaluating the loading data to determine a control dataset for periodically adjusting the seat based on the control dataset.

A system includes a vehicle, the vehicle comprising a vehicle network. The system further includes a wireless earpiece worn by a user in operative communication with the vehicle network. The vehicle is configured to determine a role of the user and user settings for the vehicle from data received from the wireless earpiece and implement the user settings for the vehicle. A method for adjusting user settings associated with a vehicle based on data from a wireless earpiece includes acquiring user data from a wireless earpiece worn by a user at a vehicle, based on the user data, determining by the vehicle one or more user settings and a role of the user, and automatically adjusting by the vehicle of one or more vehicle features based on the one or more user settings in accordance with the role of the user.

Vehicle seat adjustment systems including cameras are disclosed. The vehicle seat adjustment system includes a camera configured to capture a seat arrangement of a front seat of a vehicle and one or more seats behind the front seat, a screen, communicatively coupled to the camera, configured to display the seat arrangement captured by the camera, an input device configured to receive an input from a user for adjusting positions of the one or more seats, an actuator communicatively coupled to the input device and configured to adjust positions of the one or more seats, and a controller communicatively coupled to the camera, the screen, the input device and the actuator. The controller receives the input from the input device and instruct the actuator to adjust the positions of the one or more seats based on the input from the user.

A vehicle control system includes: a seat (310) in which an occupant sits; a first slide mechanism (320) configured to enable movement of the seat in a longitudinal direction of a vehicle; a second slide mechanism (322) configured to enable movement of the seat in the longitudinal direction of the vehicle and to be movable in the longitudinal direction of the vehicle along the first slide mechanism; an automated driving control unit configured to execute automated driving of automatically controlling at least one of acceleration/deceleration and steering of the vehicle; and a seat control unit configured to enable movement of the seat using the first slide mechanism and the second slide mechanism in a case that the automated driving is being executed by the automated driving control unit and to enable movement of the seat using the first slide mechanism in a case that the automated driving is not being executed.