According to one embodiment, a method, computer system, and computer program product for managing medical events affecting a driver or passenger of a vehicle is provided. The present invention may include detecting, based on sensor data, a medical event affecting a driver of the vehicle; confirming, with a secondary decision maker, the medical event and one or more environmental changes to an internal environment of the vehicle based on the detected medical event; and executing the one or more environmental changes.

In one embodiment, an autonomous vehicle (AV) system determines that a collision between itself and another object is imminent based on data obtained from sensors attached to the AV. The AV system determines an optimal vehicle orientation for the collision, determines a vehicle path to position the vehicle in the optimal vehicle orientation, and autonomously controls the vehicle to travel along the determined vehicle path.

A computer-implemented method for moving an occupant of a vehicle seat to open airway position after a vehicle crash event. The vehicle seat having a seat cushion, a backrest and a headrest. The method includes detecting occurrence of a vehicle crash event, and moving at least a portion of the backrest and/or headrest backwards and pulling an occupant of the vehicle seat backwards towards the backrest by powered retraction of a seat belt of the occupant by means of a seat belt retractor.

The invention relates to a safety system for a vehicle seat in a commercial vehicle operating a vehicle seat motion actuation when the commercial vehicle is about to collide with an obstacle, comprising: —at least one actuator unit that comprises at least one seat actuator to move the vehicle seat from a driving position to a safety position—at least one control unit connected to said actuator unit to control the at least one seat actuator—at least one proximity sensor connected to said control unit and configured to detect an obstacle before the commercial vehicle collides it wherein the control unit, upon receiving an imminent and unavoidable collision alert signal from the proximity sensor, controls the at least one seat actuator to move the vehicle seat to the safety position.

A device and a method for detecting a passenger within a vehicle are provided. The device includes a sensor mounted inside the vehicle and a vehicle network connection device that receives a position and a backrest angle of each seat in the vehicle and transmits a control signal for adjusting the position and the backrest angle of each seat in the vehicle. A controller performs primary detection using the sensor in a precise detection mode determined based on the received position and backrest angle of each seat in the vehicle, and performs final detection using the sensor in a general detection mode while adjusting the position and backrest angle of each seat in the vehicle.

A multidirectional control apparatus for a vehicular seat is provided to perform anteroposterior tilting, lateral tilting, control of height and tilting in other directions in consideration of the body size of a passenger and the traveling environment. The multidirectional control apparatus improves passenger comfort by tilting the seat in a lateral direction when entering or exiting a vehicle, prevents the passenger from leaning to one side by tilting the seat in a lateral direction during turning of the vehicle, and offers a safety function of protecting the passenger by inclining the seat in the direction of a collision in the event of a collision of the vehicle.

A method for operating a vehicle seat device for motor vehicles, which has a vehicle seat with a seat part and a backrest, associated with the seat part, and at least one actuator which is associated with the seat part and/or the backrest and by means of which the vehicle seat can be brought automatically into a sitting position and into a reclining position, wherein the movement takes place as a function of a desired position that can be specified by a user and of at least one detectable vehicle seat state. It is provided that a current temperature is monitored as the vehicle seat state and that if the monitored temperature falls below a limit temperature, the vehicle seat is brought into a sitting position or left in a current sitting position regardless of the desired position.

A vehicle seat is provided with a wire that, in the event of a vehicle frontal collision, enables a pulling load applied by a vehicle occupant to a webbing to be transmitted between a cushion frame of a seat cushion and a movable rail of a sliding device. One end portion of the wire is anchored to a first anchoring member of the movable rail, while another end portion of the wire is anchored to a second anchoring member of the cushion frame.

The invention relates to a motor vehicle seat with a seat inclination adjustment device, with a first base element, a first seat frame element and a first actuator element, wherein the actuator element has a lower link arm connected to the base element via a lower link and movably arranged relative to the base element, an upper link arm connected to the lower link arm via a middle link and movably arranged relative to the lower link arm, wherein the upper link arm is connected to the seat frame element via an upper link and is arranged movably, and an inclination adjustment fitting with a first and a second fitting part, and wherein the inclination adjustment fitting is arranged on one of the links.

A vehicle seat console has at least one vehicle-side guide element and at least one seat-side guide element that is arranged parallel to the vehicle-side guide element. At least one longitudinal adjustment device that is acted upon by a drive device is designed to bring about a relative adjustment between the vehicle-side guide element and the seat-side guide element. The longitudinal adjustment device is provided with a toothed rack and a gearwheel that is in meshing engagement with the toothed rack. The teeth of the gearwheel and/or the teeth of at least one section of the toothed rack are made of materials of different shear strength.