A seat air-conditioning device includes: a blower; a first ventilation path through which air is drawn in by the blower from a first inlet in a seat base of a seat on which a person sits; a second ventilation path through which the drawn air is discharged from a first outlet in the seat; a third ventilation path that is different from the second ventilation path and through which the drawn air is discharged from a second outlet in the seat; and an outlet ventilation path selection switch that is between the blower and the first and second outlets and selects at least one of the second and third ventilation path to which the drawn air is to be led. The first inlet is vertically below the first outlet and the second outlet.

An occupant feature detection method and system, and a computer-readable medium, where the method includes: inflating a seat cushion airbag (10) with a gas of a first predetermined volume, and measuring a reference pressure formed by the gas of the first predetermined volume when no occupant is seated; measuring a first pressure formed by the gas of the first predetermined volume after an occupant is seated; and obtaining a first weight based on a difference between the reference pressure and the first pressure, and using the first weight as a reference weight of the occupant. The seat cushion airbag (10) disposed in the vehicle seat is used to calculate the weight of the occupant and determine a sitting position of the occupant based on the difference between the pressure in the seat cushion airbag (10) obtained when no occupant is seated and the pressure in the seat cushion airbag obtained when the occupant is seated. Therefore, a feature of the occupant may be identified without additionally providing a pressure sensor, so that a targeted protection strategy is set for each occupant.

Provided is a vehicle seat device that includes a headrest to support a head of an occupant seated on a vehicle seat. The vehicle seat device includes a rest operation adjustment mechanism provided on the headrest and to restrict or allow movement of the head of the occupant seated on the vehicle seat and a controller that controls the rest operation adjustment mechanism to allow the movement of the head of the occupant when a frequency of a vibration in a width direction of a vehicle is equal to or larger than a predetermined value.

Disclosed are a shoulder airbag and a method of controlling deployment thereof that are capable of adjusting the amount of inflation of chambers covering an occupant's shoulders depending on the body type of the occupant and/or the collision direction of a vehicle, thereby safely protecting the occupant in various collision situations. The shoulder airbag includes an occupant detection sensor configured to detect the posture and body type of an occupant, an airbag cushion including chambers configured to be inflated and deployed so as to cover the front, side, and upper portions of each of the shoulders of the occupant, and a controller configured to variably control the amount of inflation of each of the chambers covering the front, side, and upper portions of each of the shoulders of the occupant based on occupant information analyzed based on the posture and body type of the occupant when a collision accident occurs.

Provided are a vehicle electric seat (10) adjustment method, apparatus, and system, and a vehicle. The method includes: obtaining, in response to a position adjustment instruction for an electric seat (10), an image of a seat at a direct rear side of the electric seat (10) that is currently captured by a camera system (12) disposed on the electric seat (10); analyzing, whether the seat at the direct rear side is occupied by a passenger; when the seat at the direct rear side is occupied by the passenger, calculating, based on the image, a current distance of the electric seat (10) relative to the passenger on the seat at the direct rear side, and obtaining a predetermined seat adjustment safety distance; calculating a position adjustment parameter of the electric seat (10); and adjusting a position of the electric seat (10) based on the position adjustment parameter, to a target position.

A child transportation system is disclosed. The system includes a seating component and various other modules. The system can check whether a seating component is located in a vehicle, whether the seating component is a proper component given the weight and height of the child in the seat, that the seating component is properly secured in the vehicle, and that the system is operating correctly. The system can monitor various conditions of the seat and the environment, and can provide alarms to users when cheks are not completed or dangerous environmental conditions are present, or when a child is left behind in a vehicle.

An occupant detection apparatus includes a first camera and a second camera. The first camera is arranged in a passenger compartment of a vehicle to capture images within a first field of view in the passenger compartment. The second camera is arranged at a different position in the passenger compartment from the first camera to capture images within a second field of view in the passenger compartment. The second field of view is different from the first field of view. Moreover, the first camera is arranged within the second field of view which is the field of view of the second camera. On the other hand, the second camera is arranged within the first field of view which is the field of view of the first camera.

Various implementations include seats and related systems for detecting user proximity and controlling one or more functions based on that proximity detection. In particular cases, the seats include an upper seat section with at least one two-dimensional (2D) contrast indicator that is detectable by a sensor system to indicate a position of the upper seat section.

In order to suppress a claustrophobic feeling that a person sitting on a rear seat receives due to a front seat, and to make the front seat easy to use as an ottoman by the person, a movement adjustment system is used for a passenger seat and a rear seat, and includes a slide rail for moving the rear seat in the front to back direction, and a control part for changing the movement region of the rear seat by the slide rail. The passenger seat has a seat cushion, and a seat back mounted to be changeable between an upright state and a lowered state with respect to the seat cushion. The control part changes the movement region so that the passenger seat and the rear seat can come closer when the seat back of the passenger seat is in the lowered state than in the upright state.

A vehicle computing platform may receive driver sensor data indicating whether a driver seat in a vehicle is occupied. The vehicle computing platform may determine, based on the driver sensor data, an identity of a driver of the vehicle. The vehicle computing platform may receive passenger sensor data indicating whether a passenger seat in the vehicle is occupied. The vehicle computing platform may, based on the passenger sensor data indicating that the passenger seat in the vehicle is occupied, obscure information on a screen of the vehicle.