The invention relates to a method for customising an element for the passive control of a function of a vehicle, characterised in that it involves: a step of non-definitively fixing a passive control element in an active fixing zone of said vehicle, said active fixing zone being electronically connected to a control unit; and a step of defining a function associated with the control element.

At least one image of an interior of a vehicle is captured by at least one camera present in the vehicle. Image data of the at least one image that are denoted in reference to the vehicle are transmitted to an external server. A user is authorized by the external server to access the image data denoted in reference to the vehicle, for display to the user via VR goggles. An object detected by numerical methods is highlighted in color in the image depicted in the VR goggles.

A display system and an in-vehicle system include a display device provided at a vehicle and configured to display a person image indicating a person at a position visible from the outside of the vehicle; and a controller configured to acquire surrounding status information indicating a surrounding status of the vehicle and control the display device based on the acquired surrounding status information, thereby the executing external display processing of displaying the person image. As a result, the display system and the in-vehicle system provide an advantageous effect that easily-understandable displaying can be performed.

A remote vehicle control is activated. A throttle position on the control is maintained for a specified time. A transmission of a vehicle is engaged based on the throttle position.

There is provided a vehicle comprising a first adjustable component, a touch sensitive display, a non-transitory memory storing an executable code, and a hardware processor executing the executable code to display, on the touch sensitive display, a user interface including a control element for controlling the first adjustable component using the touch sensitive display, receive a first selection input from a user using the user interface to select the first adjustable component, receive a first control input including a first initial touch input and a first subsequent drag input from a user using the control element of the user interface to control the first adjustable component, and continuously change an angle of the first adjustable component based on the first control input.

A system and method of configuring vehicle electronics of a vehicle for compatibility with a mobile device. The method includes querying the vehicle electronics of the vehicle for vehicle identification information; sending the vehicle identification information and mobile device identification information of the mobile device to a remote facility, wherein the mobile device is separate from the vehicle electronics of the vehicle; receiving vehicle electronics configuration information from the remote facility, wherein the vehicle electronics configuration information is selected based on the vehicle identification information and the mobile device identification information; and causing the vehicle electronics to configure one or more vehicle system modules of the vehicle electronics to operate according to the vehicle electronics configuration information.

A method for controlling a display of a vehicle infotainment system may include: establishing, by a controller of the vehicle infotainment system, a wireless communication session with a first user device; receiving, by the controller, an indication of a representative color from the first user device via the established wireless communication session; and controlling, by the controller, the vehicle infotainment system such that a display screen of a display device of the vehicle infotainment system displays the representative color.

A process of operating a materials handling vehicle based upon tasks comprises receiving an operator login of an operator and wirelessly transmitting an identification of the operator to a remote server based upon the received operator login. Further, an operation on the materials handling vehicle by the operator is monitored to derive operational information communicated across a materials handling vehicle network bus of the materials handling vehicle. The operational information is then wirelessly transmitted to the remote server. An instruction that is derived from blending a task related activity associated with the operator login and the operational information is wirelessly received from the server. A command, based on the received instruction, is communicated across the vehicle network bus to an electronic component on the materials handling vehicle. The electronic component executes an action that affects operation of the materials handing vehicle responsive to the command and the task related activity.

A brake control system includes a display, a processor, and a light sensor. The processor controls brakes of a towed vehicle. The processor also controls a brightness of the display based on information received from the light sensor. The light sensor may include a light dependent resistor or a photoresistor. The processor selectively sets or adjusts the brightness of the display based on sensed ambient light.

A brake control system includes a display, a processor, and a light sensor. The processor controls brakes of a towed vehicle. The processor also controls a brightness of the display based on information received from the light sensor. The light sensor may include a light dependent resistor or a photoresistor. The processor selectively sets or adjusts the brightness of the display based on sensed ambient light.