Disclosed is an electronic seat switch for a power seat of an autonomous vehicle and a method of operating the power seat by using the electronic seat switch, wherein the power seat is configured to be operated by using the electronic seat switch that is compact and slim.

A seat assembly is provided with a seat cushion, and a seat back. Sensors are operably connected to the seat cushion and the seat back to detect a seating position of an occupant. An actuator is operably connected to the seat cushion and the seat back for adjustment of a plurality of settings of the seat assembly. An interactive user interface permits manual adjustment of the actuator. A controller is in electrical communication with the plurality of sensors, the at least one actuator, and the user interface. The controller is configured to receive seating position data input indicative of a manually selected seating position. Detection data is received from the plurality of sensors, and compared to the manually selected seating position to determine if the occupant is seated evenly. The at least one actuator adjusts an occupant seating position to the manually selected seating position.

In order to improve steering operation operability during cornering while maintaining a driver holding property, a seat apparatus is provided with: a seat back frame; a cornering sensor for detecting a cornering direction of a vehicle; and a control unit that controls the seat back frame on the basis of the result of detection by the cornering sensor. The seat back frame is provided with: left and right side frames disposed on both sides of the seat back frame; a back plate disposed between the left and right side frames; and a swinging mechanism for swinging the back plate with respect to the direction of movement of the vehicle. The control unit controls the swinging mechanism such that, upon detection of a cornering direction of the vehicle by the cornering sensor, the inner one of the sides of the back plate with respect to the cornering direction is positioned rearward of the outer one of the sides with respect to the cornering direction.

A method to operate a customer-centric portable personal vehicle seat position system includes: generating pressure sensor profiles in response to a user seated on a vehicle seat of a first vehicle having a seat base and a seat back; correlating the pressure sensor profiles to individual user tasks; performing data reduction of the pressure sensor profiles after correlation to the individual user tasks; and encoding. multiple seat comfort preference profiles.

A vehicle seat includes a seat bottom and a seat back coupled to the seat bottom to extend upwardly away from the seat bottom. The vehicle seat further includes a seat-bottom foundation arranged to interconnect the seat bottom and seat back to translate back and forth relative to a vehicle floor.

Systems and methods for controlling movement of an active payload support system. In one example, a seat system for a vehicle includes a seat, a support structure coupled to the seat and including an actuator configured to move the seat at a command angle relative to a floor of the vehicle responsive to movement of the vehicle, at least one sensor positioned to detect movement of the vehicle, and a controller configured to receive a signal from the at least one sensor, generate a command signal to instruct the actuator to move the seat relative to a floor of the vehicle, determine whether the command signal will cause the seat to exceed a limit, scale the command signal to conform to movement of the vehicle within the limit, and provide a force command to the actuator to move the seat based on the scaled command signal.

A vehicle seat includes a seat foundation coupled to a floor of a vehicle, a seat bottom coupled to the seat foundation to move back and forth along a longitudinal axis relative to the floor, and a seat back coupled to the seat bottom to extend upwardly away from the seat bottom. The seat back pivots about an axis relative to the seat bottom.

Disclosed are an apparatus and a method for controlling a vehicle seat so as to control a seat back and a neck pillow based on a sound. The apparatus includes the vehicle seat installed in a vehicle and including a seat back and a neck pillow, a detector for detecting vehicle information and seat information, and a processor connected to the vehicle seat and the detector, wherein the processor determines a vehicle state and a seat sitting posture based on the vehicle information and the seat information, analyzes a sound being reproduced in the vehicle, determines a haptic pattern and a haptic pressure based on the vehicle state and the seat sitting posture, and the analysis of the sound, and controls the seat back and the neck pillow based on the determined haptic pattern and haptic pressure to provide a haptic effect.

A car seat system for automatically displacing the movable components of the car seat. The car seat including sensors and a computing module to detect the measurements of a child placed in the car seat. The car seat system determines the current position of the movable components and displaces the movable components automatically based on the child's measurements or a desired amount. The car seat system automatically learns child's behaviors when the child is placed in the car seat. The car seat system learns schedules utilized by the child, routes taken by the driver of the car, and other data over a period of time. The behavioral, scheduling, routing, and other data obtained is stored by the car seat system and utilized to enhance the safety and comfortability of the child during a car ride. The car seat system also determines thickness of clothing worn by the child while placed in the car seat and adjusts the shoulder belts to accommodate for the clothing while providing a snug fit of the shoulder belts that fall within safety recommendations. The car seat also auto reclines to a desired angle and also rotates about itself to face the door. The car seat system includes an auto-incident detection mode. In this mode, the system detects an incident, such as an accident, hard braking, or another hazard, and automatically displaces the features in the car seat to make the car seat secure during the crash minimizing the effect of the incident on the child. The car seat also includes pretionsioners and motors to release, pull back, and lock the car seat belts.

The disclosure relates to adjusting a vehicle seat configuration inside a vehicle. The vehicle seat configuration can comprise a vehicle seat and an actuator system for adjusting the vehicle seat configuration. The actuator system can comprise at least one actuator, and the at least one actuator can comprise a brushless electric motor. A corresponding method can comprise receiving, by a controller comprising a processor, at least one signal indicative of a collision situation of the vehicle, and providing, by the controller, upon receival of the at least one signal, control instructions for the actuator system to adjust the vehicle seat configuration.