Techniques are described that facilitate remotely interfacing with a vehicle touchscreen. According to an embodiment, a method is provided comprising determining touch controls included in a GUI configured for displaying on a touchscreen of the vehicle, wherein the touch controls provide for controlling functions of the vehicle based on first interaction with the touch controls as displayed on the touchscreen. The method further comprises generating a representation of the GUI for display via an auxiliary display of the auxiliary device, the representation comprising one or more graphical controls corresponding to one or more touch controls of the touch controls, and enabling remote control of one or more functions of the functions of the vehicle by the auxiliary device based on second interaction with the one or more graphical controls as displayed via the auxiliary display.

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.

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.

Systems and methods systems provide for client control over an Autonomous Vehicle (AV). The AV can determine sets of mechanical operations that it can take at a future time. The AV can determine a ranking for each of the sets of mechanical operations, including a first ranked set and at least one second ranked set. Client or user selection can be given a certain score, weight, or other value. The AV can apply the value to the second ranked set to determine an adjusted ranking. If the adjusted ranking outranks a ranking of the first ranked set, then the AV can expose the first ranked set and the second ranked set to a client interface. If the AV receives a selection of the second ranked set, the AV can perform that set of mechanical operations. Otherwise, the AV can perform the first ranked set of mechanical operations.

A normal information display quantity of a head-up display device is set as a first information display quantity, an information display quantity of the head-up display device after a control unit receives a detection signal of detection of installation of a mobile terminal on a terminal holder from a mobile terminal installation detection unit is set as a second information display quantity, in which the second information display quantity is set to be smaller than the first information display quantity, and at least a part of display information that is displayed in the first information display quantity but is not displayed in the second information display quantity is displayed on the mobile terminal.

A filter element status analysis and notification system which includes a primary control unit, a filter element which filters cabin air of a vehicle and a sensor module provided on the filter element. The sensor module including a plurality of sensors, which sensors include at least a temperature sensor and a humidity sensor. The control system being operable to detect various filter element parameters and determine potential for microbial growth. The system then providing an alert to the user regarding the determined microbial growth potential.

A system and method of executing a user-defined notification task, and wherein the method includes: receiving a user-defined notification task at the vehicle via one or more user interfaces, wherein the user-defined notification task specifies a trigger event and a notification action, the trigger event being selectable from the plurality of predefined trigger events via the one or more user interfaces, and the notification action being configurable via selection of one or more notification settings via the plurality of notification settings; in response to receiving the user-defined notification task at the vehicle, configuring one or more vehicle system modules to monitor for an occurrence of the trigger condition of the user-defined notification event; and in response to detecting the occurrence of the trigger event of the user-defined notification task, executing the notification action so that a vehicle user is notified of the occurrence of the trigger event.

There is provided a vehicle comprising a body having an exterior, an external display screen visible on the exterior of the body, a proximity sensor, a non-transitory memory storing an executable code and a vehicle information database including vehicle information, and a hardware processor executing the executable code to detect, using the proximity sensor, an individual within a proximity of the vehicle, activate the external display screen in response to detecting the individual within the proximity of the vehicle, display, on the external display screen, the vehicle information from the vehicle information database stored in the memory, in response to detecting the individual within the proximity of the vehicle.

An electric vehicle (EV) can include a VIC in operable communication with the EV main computer and the EV infotainment system. The VIC can include a processor, a memory in operable communication with the processor, and a computer-readable medium in operable communication with the processor and having software, such as a hypervisor, stored thereon. The VIC can be configured to have internet connectivity.

Embodiments are directed towards providing a system that presents content to a user of a vehicle based on where the vehicle is going. A microphone captures audio signals within the vehicle, which are analyzed for route information. These audible commands may be said by a person in the vehicle, such as a passenger telling the driver where to turn, or they may be received from a mobile computing device, such as a smartphone executing a map application that is providing audible directions. An anticipated route of the vehicle is determined based on the audible route information. Content is selected and presented to the user of the vehicle based on the anticipated route. Images of a display screen of the mobile computing device may also be analyzed to identify the route information.