Disclosed herein is a control apparatus included in a vehicle in automated vehicle and highway systems, the control apparatus including: a steering wheel having at least one touch screen on which a screen for manipulating at least one of the functions of the vehicle is output In addition, a control unit determines an intention of the user related to a selection of any one of the functions of the vehicle and controls a screen for manipulating a function according to the determined intention of the user to be output.

Provided are a control system and method using an in-vehicle gesture input, and more particularly, a system for receiving an occupant's gesture and controlling the execution of vehicle functions. The control system using an in-vehicle gesture input includes an input unit configured to receive a user's gesture, a memory configured to store a control program using an in-vehicle gesture input therein, and a processor configured to execute the control program. The processor transmits a command for executing a function corresponding to a gesture according to a usage pattern.

An example system according to an example of the present disclosure includes a wireless headset having a speaker and a microphone. Control circuitry is disposed in a vehicle and is in communication with a plurality of vehicle systems. The control circuitry is configured to provide alerts through the speaker based on information from the plurality of vehicle systems indicating occurrence of trigger events, and to determine when to provide each alert based on a priority level of the alert within a multi-level hierarchy of priority levels.

A method for controlling a display device in a motor vehicle includes detecting a person's body posture using sensors that generate corresponding sensor values, and determining, based on the detected sensor values, whether the person is in a normotonic posture. The method also includes determining a distance between the person's eyes and the display device if the person is determined to be in a normotonic posture, and adjusting predetermined display parameters on the display device based on the distance of the person's eyes from the display device.

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 of image data captured by the camera. Responsive at least in part to processing of captured image data, speed of the vehicle is controlled by an adaptive cruise control system of the vehicle. Upon approach of the vehicle to a curve in the road along which the vehicle is traveling, speed of the vehicle is reduced by the adaptive cruise control system to a reduced speed for traveling around the curve in the road. Speed of the vehicle is increased by the adaptive cruise control system when the vehicle is traveling along a straighter section of road after the curve in the road.

An electronic apparatus disposed in a vehicle is provided. The electronic apparatus includes an input device including a body configured to be rotatable and pushable and a display disposed on the body; and a processor configured to acquire profile data of a user including preset information for function of the vehicle, control the display to display basic user interface (UI) corresponding to the function of the vehicle based on the acquired profile data of the user, and control a function of the vehicle corresponding to the basic UI in response to receiving an input on the input device.

A transparent pixel matrix, a screening layer, and a control circuit are included in a display apparatus. The control circuit displays a graphic object on the pixel matrix. The screening layer includes individually switchable segments arranged behind the pixel matrix and the segments are switchable with respect to their transparency between a minimum value and a maximum value. The control circuit selects the graphic object based on an input by the user. The control circuit signals the graphic object is selected by operating a first segment among the segments arranged behind the selected graphic object as a selection segment, with the minimum value of transparency or with the maximum value of transparency, and by operating a second segment among the segments as a background segment in a complementary fashion with respect to the selection segment, with the maximum value of transparency or the minimum value of transparency.

A vehicle and many dynamic features move relative to the same reference frame. An infotainment system responds to a request from an occupant of a vehicle to provide information concerning a particular dynamic feature. The occupant provides the infotainment system with information concerning a bearing to the dynamic feature and the infotainment system identifies the dynamic feature in response.

A vehicle display device includes: a first sensor (microphone) that senses a vehicle interior; a region decider that decides a detection region which is a region for detecting a fallen object; a determiner that determines, based on the result of the sensing performed by the first sensor, whether an object has fallen; and a controller that decides display content based on a determination that the object has fallen and the detection region, and the controller causes a display to display the display content decided by the controller.

Implementations relate to interactions, over a wireless communication modality, between an automated assistant of an automobile computer system, and separate client device(s). In some of those implementations, the client device(s) can be paired with the automobile computer system, and the client device(s) and the automobile computer system can include separate instances of an automated assistant, which can be associated with different user accounts. In some additional or alternative implementations, particular actions to be performed by a local application of a client device can be advanced via user interaction with the automobile automated assistant, despite a counterpart to the local application not being installed directly on automobile computer system. For example, despite an automobile computer system not having a third-party messaging application installed, the automobile automated assistant can access requested actions to be performed by the third-party messaging application in order to further a requested action. The automobile computer system can transmit, via the wireless communication modality, content to cause the third-party application to further the requested action.