Embodiments are directed towards providing a dynamic application environment where separate components of an application can execute on separate processing hardware at any given point in time. A host device monitors current operating characteristics associated with a computing device, such a head unit of an automobile, and based on those characteristics selects which components of one or more applications to execute on the computing device and which components to execute on the host device, if any. The host device provides the selected components to the computing device for execution by the computing device and the host device executes any other components that are not executed by the computing device. The host device monitors the current operating characteristics associated with the computing device, and modifies the selection of which components are executing on which device based on changes in current operating characteristics.

Methods and apparatus for external vehicle illumination management are disclosed herein. An example method includes receiving, at a first processor of a mobile device, vehicle data. The vehicle data is to be transmitted to the first processor from a second processor of a vehicle. The example method includes analyzing the vehicle data and mobile device data generated by the mobile device. The example method includes generating an alert for headlamp usage of the vehicle based on the analysis and presenting the alert via the mobile device.

An apparatus and a method for connecting a mobile camera device to a vehicle-mounted display apparatus, wherein the mobile camera device is controlled both by the driver operating the mobile camera device as well as by additional information regarding the state of the vehicle, wherein the additional information is provided by vehicle sensors. The information from the driver and the vehicle is processed by an application program on the mobile camera device and the mobile camera device is controlled. The mobile camera device can display images and/or videos and process the images and/or videos by way of the application program. The information to be processed can be displayed on the display of the vehicle-mounted display apparatus.

A lighting device of a vehicle includes at least one lighting device for a road scene in front of the vehicle arranged to form a first light beam defined by a first lighting. A device for generating a second light beam defined by a second lighting is configured to superimpose the second beam on the first light beam. A sum of the first lighting and of the second lighting is greater than the first lighting, the second light beam forms driving assistance information.

An information display system includes a steering wheel including a ring portion and an upper opening region within the ring portion, an instrument cluster arrangement positioned forward of the steering wheel, and an electronic control unit. The instrument cluster arrangement includes a first gauge having a first fixing member on a portion of a boundary of the first gauge, and a second gauge having a second fixing member on a portion of a boundary of the second gauge. The first fixing member and the second fixing member are configured to hold a handheld device placed between the first and second gauges, and the first and second gauges are positioned such that when the handheld device is placed between the first and second gauges the handheld device is visible through the upper opening region.

A system for managing devices includes a portable device with a human-machine interface (HMI) controller having a first input receiving first input data, a movable portion having an adjustable haptic feedback mechanism and a plurality of tactile mechanisms, a second input disposed within the portable device, the second input generating second input data, a third input receiving the second input data from the second input, the third input providing access to a standardized function catalog on each of the devices based on the second input data, and based on the first input data received by the first input, the system selectively accesses a subset of the plurality of functions on each of the devices, and the haptic feedback mechanism and the plurality of tactile mechanisms access and select preferences within the plurality of functions on the devices.

A shortcut system (1) for controlling at least one vehicle system (2), the shortcut system comprising: an input arranged to receive configuration signals (6) generated in response to a user operating a configuration device (7) independent of the vehicle (100), the configuration signals specifying an action to be carried out by a vehicle system; a memory module (5) arranged to store the action specified in a received configuration signal; a processor (4) arranged, upon a user-selected trigger condition being met, to generate a control signal (8) for controlling the vehicle system in accordance with the stored specified action; and an output arranged to output the control signal. Also a configuration device (7) independent of a vehicle (100) that is arranged to configure a shortcut system (1) for controlling at least one vehicle system (2) of the vehicle, and a method of controlling at least one vehicle system (2) of a vehicle (100).

A display apparatus for a vehicle and including a display; a heating element configured to provide heat to the display; an interface configured to receive at least one of interior temperature information and exterior temperature information about the vehicle; and a processor configured to control the heating element to produce heat based on the received at least one of the interior temperature information and the exterior temperature information about the vehicle.

A system for managing devices includes a portable device with a human-machine interface (HMI) controller having a first input receiving first input data, a movable portion having an adjustable haptic feedback mechanism and a plurality of tactile mechanisms, a second input disposed within the portable device, the second input generating second input data, a third input receiving the second input data from the second input, the third input providing access to a standardized function catalog on each of the devices based on the second input data, and based on the first input data received by the first input, the system selectively accesses a subset of the plurality of functions on each of the devices, and the haptic feedback mechanism and the plurality of tactile mechanisms access and select preferences within the plurality of functions on the devices.

An autonomous vehicle include an object detection device configured to detect external information about the autonomous vehicle, a communication device configured to receive user information from a remote device, and one or more processors. The one or more processors are configured to: determine internal information about the autonomous vehicle; change control of the autonomous vehicle based on at least one of the external information, the user information, or the internal information; and transmit, to the remote device, monitoring information corresponding to the changed control of the autonomous vehicle.