A vehicle control method is disclosed which is a method for adjusting a seat inside a vehicle. The vehicle control method includes: monitoring the surroundings of a passenger sitting in the seat through a camera installed inside the vehicle; sensing an object around the passenger through the monitoring; sending information on the sensed object to a server; receiving a preset seat setting value corresponding to the object information from the server; and adjusting the position of the seat according to the seat setting value. One or more of an autonomous vehicle according to the present invention, a user terminal, and a server may be associated with artificial intelligence, a robot, augmented reality (AR), virtual reality (VR), etc.

A system and method are provided for controlling an interior configuration of a vehicle. The system may include an interior vehicle component, an actuator component configured to adjust a physical configuration of the interior vehicle component, a vehicle operation controller configured to generate vehicle operation data representing the operation of the vehicle, and one or more processors configured to receive vehicle operation data and detect, by processing the vehicle operation data, a specific action taken by the vehicle. When the one or more processors detect a specific action taken by the vehicle, the one or more processors may cause the actuator component to adjust the interior vehicle component from a first physical configuration to a second physical configuration.

A system including a light source that provides visual indications to a user of a reserved multiple-passenger vehicle. The light source operates when the user comes within a predetermined distance from the vehicle to thereby identify the vehicle as the one that was reserved by the user. The light source emits light that also specifies a predetermined seat, from among the plurality of seats, to be occupied by the user; specifies a predetermined door from among a plurality of doors by which the user should enter the vehicle to reach the predetermined seat; and specifies a predetermined path, among a plurality of paths by which the user is to travel from the exterior of the vehicle or from the predetermined door, to the predetermined seat.

A device and a method for automatically restoring a seatback is provided in which a seatback is electrically deployed at a predetermined angle by being interlocked when a seat of a vehicle is moved to a predetermined position to facilitate a passenger to get into and out of the vehicle. The device includes a seat cushion, a seatback installed in the seat cushion to be adjustable in angle, a seat rail, and a seat track slidably installed in the seat rail. A seat position detection sensor detects a position of the seat track and a seat position detection member operates the seat position detection sensor. A seatback angle adjustment motor adjusts an angle of the seatback. When the seat position detection sensor detects that the seat track reaches a predetermined operating position, the seatback angle adjustment motor deploys the seatback.

A vehicle that can be customized and personalized via a mobile user profile. The vehicle can include a body, a powertrain, vehicle electronics, and a computing system. The computing system of the vehicle can be configured to: receive data fields of a driver profile of a user from a mobile device; estimate, using machine learning, configurations of vehicle functions for the vehicle according to the data fields; and control settings of a set of components of the vehicle, via the vehicle electronics, according to the estimated configurations.

A component is provided having a component body defining at least one touch point. The component body includes an antimicrobial material operable to deactivate a microbe arranged in contact with a surface of the touch point.

A system for adjusting at least one adjustable component (30, 32, 34, 36, 38) of a vehicle (10) is disclosed. The system may include an exterior sensor (44) configured to generate a signal indicative of an identity a user before the user enters the vehicle (10), and a controller (60) in communication with the exterior sensor (44) and an actuator (40) configured to adjust the at least one adjustable component (30, 32, 34, 36, 38). The controller (60) may be configured to automatically cause the actuator (40) to adjust the at least one adjustable component (30, 32, 34, 36, 38) responsive to the signal.

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.

A system and method for entrainment of a user based on bio rhythm of the user. The system includes an analyzing unit and an entraining rhythm generation unit. The analyzing unit receives bio rhythm information of a user, analyzes the bio rhythm information, and sets an entraining target based on an analysis of the bio rhythm information. The entraining rhythm generation unit generates an entraining rhythm based on the entraining target for providing an entrainment experience to the user, and control one or more human sensory inputs to the user based on the entraining rhythm. The bio-rhythm information may be information related to a breathing rate, a heart rate, brain waves, circadian rhythm, body rhythm, emotion, etc. The entrainment experience may be provided either inside or outside a vehicle.

A vehicle seating assembly is provided that includes a seat base, a seat back pivotally coupled to the seat base and having a front portion and a rear portion, and an actuator operable to change a position of the seating assembly. The assembly also includes a capacitive proximity sensor located on the seat back and configured to detect a user touch command and a user pressure command, and a controller for receiving the user touch command and pressure command and controlling the actuator to change a position of the seating assembly based on a user input.