An integrated switch device for a vehicle includes: an input device configured to receive a user's fingerprint; a touch device configured to generate a mirror angle adjustment signal; a touch display configured to display a door control interface, a mirror selection interface, a mirror control interface, and a seat setting interface; and a controller configured to determine an operation mode based on whether the vehicle in a driving mode, a power condition, and whether a door is open and to set an interface displayed on the touch display among the door control interface, the mirror selection interface, the mirror control interface, and the seat setting interface depending on the operation mode.

A user interface capable of controlling various functions in a vehicle is disclosed. The vehicle control method using a smart key includes an integrated operation unit detecting attachment of the smart key through a smart key detector disposed in a predetermined attachment area inside a vehicle, the integrated operation unit transmitting information on a controlled function corresponding to a vehicle state to the smart key, outputting a first user interface corresponding to the information on the controlled function on a first display of the smart key, transmitting information on a result of operation from the smart key to the integrated operation unit when an operation unit provided in the smart key is operated, and the integrated operation unit controlling the controlled function based on the information on the result. The smart key is fixed in the attachment area using magnetic force.

A system may include an in-vehicle component, including a first control set to configure the component, configured to identify a device associated with a user approach to the component; and send an interaction request to the device to cause the device to display a user interface for the component including a second control set to configure the component, the second control set including at least one function unavailable in the first control set. A personal device may receive, from an in-vehicle component including a first control set to configure the component, a user interface definition descriptive of a second control set to configure the component; and receive, from the component, a request to display a user interface for the component including the second control set to configure the component, the second control set including at least one function unavailable in the first control set.

A system for directing content among a plurality of displays. The content may be selected by a user or may be determined by an event, such as a user-interactive input or an input initiated by an event associated with a vehicle system. The input command causes selected content to be moved from a first display to a second display. The input command causes articulation of the second display in order to display the selected content The input command may come from a portable device, or a user interactive command such as a voice command, a visual command such as a gesture, or a touch command. The input command may also come from a vehicle system, such as a navigation system, an infotainment system, a climate control system to name a few.

Provided is an electronic device comprising a sensor configured to detect a gesture without touching an own device and a controller configured to determine a hand of a user used for operation according to a driver's seat position and determine, according to the hand of the user used for operation, a direction of the gesture based on an output from the sensor.

A system comprising an interface module (IM) for receiving input and generating outputs, the IM being associated with processor (17) and memory (19); a controller module (18) (CM) that is operable independently of and communicatively connected to the IM and that is associated with processor (20) and memory (22) and that receives inputs and generates outputs to control accessories wherein each memory stores a copy of a parameter list (38) and rules governing generation of the outputs, wherein each of the IM and CM is configured such that responsive to each input, the processor of the respective module IM, CM defines a state in the associated copy of the list and communicates with the other module IM, CM to cause the state to be defined in the other copy, wherein each rule requires a state to be present in the list for generation of an associated output by each module.

A multifunctional switch device for operating a plurality of vehicle functions and services including an adjustment member which is a rotary-push-pull actuator; and an upper casing and a lower casing that together enclose a stationary inner body; an inner cover rotatable based on the rotation of the adjustment member; a pin; an electronic card; and an upper dome positioned on an upper surface of the electronic card. The multifunctional switch device further includes a lower dome positioned on a lower surface of the electronic card to generate an actuating signal for performing an assigned function. When the adjustment member and thus the pin are pulled in upwards direction, through the +y direction of the multifunctional switch device, the lower dome is also pulled up and come into contact with the lower surface of the electronic card under an action of an applied pulling force.

A vehicle periphery monitoring device acquires first image information of a vehicle rear side and second image information of vehicle rear lateral sides. Second points at infinity of the second image information are made to approximately coincide with a first point at infinity of the first image information, and the first image information and the second image information are combined, and first composite image information is generated. When sensing a request to change a viewpoint toward a vehicle rear lateral side, second composite image information that is viewed with a virtual viewpoint having been moved toward a vehicle lateral side is generated. Further, when a path changing operation of an operation portion that is used in changing a path is completed, third composite image information that is viewed with a virtual viewpoint having been moved toward the side of the path change is generated.

A method for having an occupant of a vehicle that is in a highly automated driving mode take over a driving task includes the steps of determining that the occupant has taken over the driving task and, in response thereto, automatically actuating a handle element, which can change its shape, in order to affect the haptics of a rim of a steering wheel of the vehicle.

A vehicular control system includes a forward viewing camera disposed at an in-cabin side of a windshield of a vehicle and viewing forward of the vehicle. Road curvature of a road along which the vehicle is traveling is determined responsive at least in part to processing by an image processor of image data captured by the camera. Responsive at least in part to processing of captured image data, a traffic lane of the road along which the vehicle is traveling is determined. Upon approach of the vehicle to a curve in the road, speed of the vehicle is reduced to a reduced speed for traveling around the curve in the road at least in part responsive to at least one selected from the group consisting of (a) processing of image data captured by the forward viewing camera and (b) data relevant to a current geographical location of the equipped vehicle.