According to one embodiment, a user interface of a device comprising a display configured to output information related to a user interface of the multimedia system, wherein the user interface includes one or more icons indicative of an application of the multimedia system, and a processor in communication with the display and programmed to in response to a first input from a user, allow an arrangement of the one or more icons on the user interface and adjust an original size of the icons to a smaller size, set the arrangement of the one or more icons and adjust the smaller size icons to the original size icons, and output the original size icons on the display with the arrangement.

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. Responsive at least in part to processing of captured image data, another vehicle present on the road and forward of the vehicle may be detected. Responsive at least in part to processing of captured image data, the system may determine that the detected other vehicle is travelling in a traffic lane to the left or to the right of the traffic lane along which the vehicle is traveling.

An autonomous vehicle including a sensor system that outputs a sensor signal indicative of a condition of the autonomous vehicle. The vehicle also includes a communication system including a speaker. Based upon a profile of the passenger, the autonomous vehicle can determine that support is to be provided audibly to the passenger when the support is provided to the passenger. Moreover, the autonomous vehicle can detect occurrence of an event that has been identified as potentially causing discomfort to the passenger based upon the sensor signal output by the sensor system. Responsive to detecting the occurrence of the event, and in accordance with the profile of the passenger, the autonomous vehicle can cause the speaker to output an audible support message. Content of the audible support message is based on the detected event, and the audible support message solicits feedback from the passenger of the autonomous vehicle.

A display system in a vehicle, including: one or more displays; at least one sensor determining a user's line of sight; a controller determining an active zone and a non-active zone of the one or more displays based on the user's line of sight. The one or more displays are configured to operate the active zone at an enhanced level as compared to the non-active zone. There is further provided a controller configured to rank content displayed on one or more displays in a vehicle according to an attention score determined by at least one sensor configured to measure gaze of a user based on the user's line of sight; and a display system including the controller. One of the displays is selected to display the highest ranked content. There is also provided a method of operating one or more displays in a vehicle using the disclosed display systems.

A system includes an audio input, a transceiver, and a processor. The processor is programmed to receive a voice query from a vehicle occupant per the audio input, evaluate the query locally to provide initial search results, in parallel, utilize the transceiver to concurrently evaluate the query using one or more remote digital assistants to receive historical and new search results, and merge the local results and the remote results to provide additional lazy load search results.

Systems and methods are provided for detecting an object in front of a vehicle. In one implementation, an object detecting system includes an image capture device configured to acquire a plurality of images of an area, a data interface, and a processing device programmed to compare a first image to a second image to determine displacement vectors between pixels, to search for a region of coherent expansion that is a set of pixels in at least one of the first image and the second image, for which there exists a common focus of expansion and a common scale magnitude such that the set of pixels satisfy a relationship between pixel positions, displacement vectors, the common focus of expansion, and the common scale magnitude, and to identify presence of a substantially upright object based on the set of pixels.

Some embodiments described herein relate to a multimodal user interface for use in an automobile. The multimodal user interface may display information on a windshield of the automobile, such as by projecting information on the windshield, and may accept input from a user via multiple modalities, which may include a speech interface as well as other interfaces. The other interfaces may include interfaces allowing a user to provide geometric input by indicating an angle. In some embodiments, a user may define a task to be performed using multiple different input modalities. For example, the user may provide via the speech interface speech input describing a task that the user is requesting be performed, and may provide via one or more other interfaces geometric parameters regarding the task. The multimodal user interface may determine the task and the geometric parameters from the inputs.

A vehicle is provided and includes a gesture detector that detects a gesture of a driver to designate a manipulation target object and a voice recognizer that recognizes a voice command generated by the driver to operate the designated manipulation target object. A controller is configured to transmit a control signal corresponding to the voice command to the manipulation target object, and to operate the manipulation target object to perform an operation corresponding to the voice command.

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 smart driving management system and a method are disclosed. The management system includes a central control unit, a detection module, a voice reminding module, and a reply receiving module. The management method includes: A. providing a management system communicating with an automotive electronic diagnosis unit of a vehicle to receive driving information of the vehicle detected by the automotive electronic diagnosis unit; B. the management system setting a standard value for the driving information and sending out a voice message when detecting that data of the driving information does not meet the standard value; C. the management system receiving a voice reply content and detecting whether data of new driving information meets the standard value according to the voice reply content; D. the management system generating a detection result based on the new driving information and determining that the detection result is normal driving or dangerous driving.