A blood alcohol level sensing system for a vehicle is steering wheel with infrared sensors that are able to detect variations in body chemistry from contact with the palms of the hands to determine if a driver is either alcohol impaired or impaired from certain medical conditions that might affect driving. The system has a digital readout that may be located on the dashboard of the vehicle, and the readout may also be transmitted to a cell phone. In the event of an exceedance of a predetermined set point, an interlock will interrupt the start circuit of the vehicle to prevent it from starting.

A vehicle includes a front seating assembly and a rear seating assembly. An occupant sensor senses occupancy of the front seating assembly. A proximity sensor senses an object in a footwell behind the front seating assembly. A rear door sensor senses the opening of a rear door. A controller activates an actuator to move the front seating assembly forward based on the sensed occupancy, a sensed object, and sensed door opening. A method of controlling a vehicle seating assembly includes the steps of: sensing the front seating assembly is unoccupied with the occupant sensor; detecting in the footwell behind the front seating assembly with the proximity sensor; sensing a rear door position with the door sensor; and moving the front seating assembly forward when the front seating assembly is unoccupied, an object is in the footwell, and the rear door is in an open position.

Embodiments of the present invention provide a method and system for enacting various driving profiles based on identifying the age and gender of the user. Initially, identifying information is acquired from a user of a vehicle. An identification program determines whether the driver is known, by comparing the identifying information to a set of stored identifying information. If the driver of the vehicle is known, as the identifying information from the user is similar to stored identifying information, then a specific driver profile associated with the specific driver is activated. If the driver is not known, as the identifying information from the user of the vehicle is not similar to the stored identifying information, then the age and gender of the user of the vehicle is determined. Based on the determined age and gender of the driver of the vehicle, various vehicle setting ranges are enacted.

A head restraint is provided for a seat for use with a motor vehicle. The head restraint includes a base configured to be attached to the seat, and a main portion configured to be positioned between the base and a head of a seat occupant when the base is attached to the seat and the seat is mounted in the vehicle. The head restraint further includes at least one movement mechanism associated with at least one of the base and the main portion and configured to move at least part of the main portion laterally or upwardly and downwardly relative to the base.

A method and an apparatus for identifying occupancy of a seat use a camera. In order to achieve permanently reliable identification of the occupancy of a seat, the camera is oriented such that it captures at least one area of interest of the seat. An evaluation apparatus is used to identify the area of interest in a picture taken by the camera and to store a position for the area of interest. The evaluation apparatus selects the area of interest in pictures subsequently taken by the camera at the stored position and compares the area of interest with at least one stored picture sample. A result of this comparison is taken as a basis for identifying the seat as being occupied. In addition, an apparatus having a camera and an evaluation apparatus is described for performing the method.

A thigh support, a seat and a vehicle are provided. The thigh support includes a thigh-support fixing portion, a thigh-support moving portion, a thigh-support driving portion, and a thigh-support bracing portion disposed to the thigh-support fixing portion and located at a rear side of the thigh-support moving portion, in which the rear edge of the thigh-support moving portion is provided with a rear edge recessed portion recessed forwards, a front edge of the thigh-support bracing portion is formed with a front edge protruding portion protruding forwards, and the front edge protruding portion matches the rear edge recessed portion in shape. The seat and the vehicle have the above thigh support.

A vehicle is provided that includes a safety system that can provide an alert, external to the vehicle, that can warn other vehicles, people, etc. that a driver and/or passenger(s) are exiting the vehicle. Methods and systems determine when an occupant of a vehicle is about to exit by sensing the exit movement or an exit sequence, which may be detected by internal vehicle sensors. In response to the exit sequence, the vehicle may control one or more alert features, associated with the vehicle, to provide an external alert to other vehicles and/or users outside of the vehicle that a driver and/or passenger(s) is/are about to exit.

Methods and systems for tracking user behavior, the user behavior including one or more of: one or more user actions and one or more user interactions with a vehicle. A storage system stores the user behavior, where the tracked user behavior is associated with a driver and the storage system is capable of storing the tracked behavior for the driver from a plurality of vehicles.

There is provided a system comprising a plurality of movable seats arranged in a seating area, a detection device, a non-transitory memory storing an executable code, a hardware processor executing the executable code to receive a first input from the detection device indicating an individual is present in the seating area, determine a first position of the individual in the seating area at a first time based on the first input, and arrange the plurality of seats in a first configuration based on the first position of the individual, wherein arranging the plurality of seats includes moving at least one of the plurality of seats to a new position.

The systems and methods described herein can be applied to a vehicle equipped with a sensor suite that can observe information about a location, for example, a traffic light duration. The system can record information, e.g., the traffic light colors, duration of color changes, and location of the traffic lights and can upload this information to the cloud. Then, the system can augment or learn about the location, e.g., learning of traffic patterns, and store the augmented data as database-based information, where available. The learned information can help a requesting vehicle to better estimate an estimated time of arrival (ETA) for common routes taken, provide more accurate ETAs based on historical knowledge, and/or calculate or provide alternative route information.