Methods, systems, and apparatus, including computer programs encoded on a storage device, for monitoring a vehicle are disclosed. A vehicle monitoring system for monitoring a vehicle includes one or more processors and one or more computer storage media storing instructions that are operable, when executed by the one or more processors, to cause the one or more processors to perform operations. The operations include: receiving, from a vehicle occupancy monitor and by the vehicle monitoring system, vehicle occupancy data that indicates presence of a vehicle occupant; receiving, by the vehicle monitoring system and from a sensor, sensor data that indicates an attribute of the vehicle; analyzing, by the vehicle monitoring system, the vehicle occupancy data and the sensor data; and based on analyzing the vehicle occupancy data and the sensor data, performing a vehicle monitoring system action.

The invention provides a seat device for a vehicle and a control method thereof. The seat device for the vehicle includes: an electric device for moving a seat of the vehicle; a pinch detection part detecting an obstacle being pinched by detecting a load change of the electric device when the seat is moved; an obstacle detection part classifying the obstacle in a moving direction of the seat; and a control part controlling the electric device according to a classification of the obstacle.

A vehicle seat includes a first electric device and a second electric device. The first electric device is configured to move a first electric seat to at least one of a first predetermined position and a first predetermined posture inside a vehicle. The second electric device is configured to move a second electric seat to at least one of a second predetermined position and a second predetermined posture inside the vehicle. When a predetermined condition is met, the vehicle seat controls the first electric device and the second electric device so that the first electric seat is in the at least one of the first predetermined position and the first predetermined posture and the second electric seat is in the at least one of the second predetermined position and the second predetermined posture.

A sensing system determines movement and position of passengers and objects within a vehicle or in another location. The sensing system is able to transmit a plurality of signals during a transmission period and use the sensed signals during a frame in order to create different heat maps that represent movement and position of person or an object during an integration period. The flexibility and capability of the sensing system and its antennas enable the sensing systems to be placed within or adjacent to components in such a manner as to reduce construction costs.

A wire harness connected to a sensor is positioned on a back surface of a pad of a vehicle seat supported by a panel. The vehicle seat includes a panel; a pad supported by the panel; a skin material covering a front surface of the pad; and a sensor provided between the front surface of the pad and the skin material for acquiring information on a seat occupant, wherein the pad is provided with a through hole passed from the front surface of the pad to a back surface of the pad, and a recess formed in the back surface of the pad and connected to the through hole, the wire harness connected to the sensor extending in the through hole and the recess.

A sensor system is sensitive to the determination of activity, movement and position of a passenger in a vehicle. In particular, the determination of the position and movement of passengers in a vehicle can be enhanced by providing groupings of transmitting antennas and/or multiple infusion antennas. The sensing system is able to determine the movement and activity of the passengers at various ranges and locations within the vehicle.

A wire harness connected to a sensor is positioned on a back surface of a pad of a vehicle seat supported by a panel. The vehicle seat includes a panel; a pad supported by the panel; a skin material covering a front surface of the pad; and a sensor provided between the front surface of the pad and the skin material for acquiring information on a seat occupant, wherein the pad is provided with a through hole passed from the front surface of the pad to a back surface of the pad, and a recess formed in the back surface of the pad and connected to the through hole, the wire harness connected to the sensor extending in the through hole and the recess.

A method for preparing a vehicle prior to an occupant entering the vehicle includes acquiring information indicative of an upcoming time of entry of the occupant into a compartment of the vehicle, and commencing air replacement of at least part of the air in the compartment of the vehicle prior to the upcoming time of entry of the occupant. In some embodiments, the method also includes detecting whether the compartment of the vehicle has occupants, and commencing the air replacement responsive to detecting that the compartment of the vehicle has no occupants. In some embodiments, the method further includes determining a latest possible time for commencing the air replacement provided that the air replacement is to be completed at the upcoming time of entry of the occupant, and commencing the air replacement based on the determined latest possible time.

The present embodiments relate to selection and execution of one or more output actions relating to a modification of at least one feature of a vehicle. A series of sensors on a vehicle can acquire data that can be used to identify vehicle environment characteristics indicative of a status of a vehicle environment and an emotional state of the user. The vehicle environment characteristics and the emotional state can be processed using a user model that corresponds to a user to generate one or more selected output actions. The output actions can be executed on the vehicle to increase user experience. The output actions can relate to any of entertainment features, safety features, and/or comfort features of the vehicle.