An infant safety car seat seamlessly and permanently integrated into the bench seat between two adult seats or replacing the adult seats if more than one is incorporated into the vehicle. The child seat is sunken or not below and behind the vehicle bench and seat and safety harnesses are permanently installed to secure an infant in the safety seat. The seat adjusts to allow forward or rearward facing configurations suitable to different ages of the infant, from zero to eight years old. Security features are internally integrated to prevent the incidence of leaving an unbuckled and/or an unattended infant in a vehicle that includes some combination of a scale, hasps sensors in display and video monitor of cameras in screen.

A method of automatically switching between manners of answering calls by vehicle occupants in a vehicle connects a vehicle-mounted system with terminal device of occupant. Information as to persons in the vehicle is detected. Information as to different occupants allows method to recommend one of a first manner, a second manner, and a third manner of responding to an incoming call, the driver being able to select his preferred manner by pushbutton mounted on steering wheel. Driving safety is improved, and privacy of a personal conversation can be maintained. A vehicle-mounted system applying the method is also disclosed.

A vehicle-mounted device installed in a vehicle comprising a mobile terminal communication unit that communicates with a mobile terminal located inside the vehicle, and a control unit that provides an interface for operating the vehicle-mounted device from the mobile terminal, wherein the control unit compares a vehicle interior image taken inside the vehicle interior with a facial image of the user of the mobile terminal and changes the interface provided to the mobile terminal based on the determined seating position of the user. The vehicle-mounted device further comprises a display unit, wherein the control unit causes the mobile terminal to display expanded display details on the display unit if the seating position is in a front seat, and causes the mobile terminal to display the same display details as those on the display unit if the seating position is other than one in a front seat.

One or more embodiments of techniques or systems for privacy management are provided herein. In one or more embodiments, privacy management may be provided by adjusting the way a system provides notifications, handles communications, or executes applications based on the presence or positioning of one or more occupants within a vehicle. In other words, a vehicle may provide notifications in a first manner when merely a driver is present but provide notifications in a second manner (e.g., different than the first manner) when an additional occupant is detected. Sensors may be utilized to detect the presence or positioning of occupants and communications or applications may be managed accordingly. In this manner, privacy management is provided, thus enhancing security of applications or communications utilized by occupants of a vehicle, such as a driver, for example.

A user interface apparatus for a vehicle including a touch screen; a gesture input unit configured to detect a gesture of a user; and a processor configured to in response to the gesture detected by the gesture input unit being applied from a driver seat of the vehicle, display a preset first screen on the touch screen corresponding to driver operations of the vehicle, and in response to the gesture detected by the gesture input unit being applied from a front passenger seat of the vehicle, display a preset third screen on the touch screen corresponding to passenger operations of the vehicle excluding vehicle driving operations.

A method and system for controlling one or more functions associated with a vehicle display includes providing a steering wheel having a left zone and a right zone. The method includes determining a left contact value and a right contact value based on at least one of a plurality of sensors of the steering wheel. Further, the method includes comparing the left contact value to a left contact threshold that maximizes contact of a left hand with the steering wheel within the left zone and comparing the right contact value to a right contact threshold that maximizes contact of a right hand with the steering wheel within the right zone. Upon determining a non-driving passenger is present in the vehicle, the one or more functions associated with the vehicle display are enabled or disabled.

Automated driver assistance systems (ADAS) and methods that provide user-specific ADAS warnings each involve determining an identify of the driver of the vehicle, accessing a memory configured to store a set of user profiles, each user profile defining a set of ADAS warnings, identifying a target user profile based on whether the driver identity corresponds to any of the set of user profiles, including accessing one of the set of stored user profiles or creating and storing a new user profile, and, during a period after identifying the target user profile, updating the set of ADAS warnings defined by the target user profile based on the vehicle's operation and providing ADAS warnings based on the set of ADAS warnings defined by the target user profile.

A display assembly includes a display console displaying at least one image on an image plane. The image is divided into a plurality of pixels. A controller is operatively connected to the display console and includes a processor and tangible, non-transitory memory on which is recorded instructions for executing a method for dynamically adjusting the image in real-time for off-axis viewing. The controller is programmed to generate a compensation-over-viewing-angle map which includes respective compensation factors for each of the plurality of pixels for multiple viewing positions. In one embodiment, the controller is programmed to apply separate respective compensation factors for the instantaneous viewing positions of a first user at a time j and a second user at a time k. In another embodiment, the controller is programmed to apply first and second compensation factors simultaneously at a time m, for a first image and a second image, respectively.

A vehicle includes a camera configured to capture an image of the interior of a vehicle, an output apparatus configured to output an image and a sound, a scent output apparatus configured to output a scent, and a control apparatus. The control apparatus is configured to determine whether only a pet or only an infant is on board the vehicle based on an image captured by the camera, and upon determining that only a pet or only an infant is on board the vehicle, execute an anxiety reduction action to output an image, a sound, and/or a scent.

A determination is made as to whether a driver or a front-seat passenger of the motor vehicle would like to operate a display device. If it is detected that only the driver would like to operate the display device, the display device is put in a first operating mode in which a graphic user interface is displayed exclusively in a driver-side display region of the display device. If it is detected that only the front-seat passenger of the motor vehicle would like to operate the display device, the display device is put in a second operating mode in which the graphic user interface is displayed exclusively in a front-seat-passenger-side display region of the display device. If it is detected that the driver and the front-seat passenger of the motor vehicle both would like to operate the display device, the display device is put in a third operating mode in which the graphic user interface is displayed in the driver-side display region and at least part of the graphic user interface is additionally also displayed in the front-seat-passenger-side display region.