A fuel system controller obtains fuel burn data from an engine control module (ECM). The fuel system controller also obtains location data from a telematics control module, such as GPS location data identifying the location of a vehicle. The fuel system controller determines the vehicle's base location based on the location data, and determines how far the vehicle can travel based on the fuel burn data. The fuel system controller determines how many fueling stations are with a threshold distance of the determined distance to empty. The fuel system controller can use that data to identify which, and how many, fueling stations are within a threshold distance of the determined distance to empty. The fuel system controller can provide a fueling warning indication based on the number of fueling stations that are within the determined distance to empty.

Systems and methods for monitoring operation of an instrument cluster configured to display vehicle operating information to a driver. The system includes a camera pointed at the instrument cluster to capture images of operation of the instrument cluster. A control module is in receipt of the images of the instrument cluster. The control module is configured to compare operation of the instrument cluster as captured in the images with predetermined, expected operation of the instrument cluster. A fault condition notification module is configured to generate a fault notice when there is a discrepancy between operation of the instrument cluster as captured in the images and the predetermined, expected operation of the instrument cluster.

A rear-view mirror for a vehicle includes a body part, a mirror part, a display part, and an input member configured to control at least one of the body part or the display part, the input member configured to be selectively arranged in first, second, and third states. Based on the input member being in the first state, the body part is configured to be placed in a first position, and the display part is configured to turn on, based on the input member being in the second state, the body part is configured to be placed in a second position, and the display part is configured to turn on, and based on the input member being in the third state, the body part is configured to be placed in the second position, and the display part is configured to turn off.

A notification control system (NCS) is configured to coordinate the delivery of notifications issued from a set of devices to the driver of a vehicle. The NCS registers all interactive devices residing in a vehicle and causes those devices to conform to specific directives generated by the NCS. The NCS analyzes and predicts the cognitive and emotional load on the driver and also estimates the cognitive and emotional impact on the driver potentially caused by any incoming notifications. The NCS then coordinates the delivery of notifications to the driver in a manner that avoids overwhelming the cognitive and/or emotional capacity of the driver. Accordingly, the NCS may avoid situations where device notifications cause the driver to unsafely divert attention away from driving.

A method includes detecting, with a sensor, a gaze of an occupant of a vehicle. The gaze is directed to at least one vehicle displays. The method also includes determining, with a controller circuit in communication with the sensor, whether one or more features presented on the at vehicle displays are partially obstructed from a view of the occupant. When the one or more features presented on vehicle displays are partially obstructed from the view of the occupant, the controller circuit adjusts a presentation of at least one partially obstructed features to be viewable by the occupant.

An influence degree display device includes an acquirer configured to acquire information regarding magnitude of an influence factor that has an influence on progress of deterioration of a secondary cell that stores power used to drive an electric motor vehicle a display configured to display an image and a display controller configured to cause the display to display an image indicating the degree of influence on the progress of the deterioration of the secondary cell in accordance with the acquired magnitude of the influence factor.

Provided is an electronic device comprising a sensor configured to detect a gesture without touching an own device and a controller configured to determine a hand of a user used for operation according to a driver's seat position and determine, according to the hand of the user used for operation, a direction of the gesture based on an output from the sensor.

A method for displaying a safety zone in front of a transportation vehicle or object. The safety zone is shown on a display unit. The safety zone is displayed as a grid and the end of the grid that is remote from the transportation vehicle indicates the end of the safety zone at the measured speed, taking into consideration the determined driving situation.

There is disclosed system to warn a driver about driving laws and/or conditions. Optionally, the system includes a database of traffic laws, for example indexed according to location and/or time and/or conditions. For example, the device may display a speed limit reflecting local conditions such as weather, construction, school hours. In some embodiments, warnings may be customized to a particular vehicle and/or driver. In some embodiments, the system may warn a third party about driving behavior and/or legal infringements.

A system comprising an interface module (IM) for receiving input and generating outputs, the IM being associated with processor (17) and memory (19); a controller module (18) (CM) that is operable independently of and communicatively connected to the IM and that is associated with processor (20) and memory (22) and that receives inputs and generates outputs to control accessories wherein each memory stores a copy of a parameter list (38) and rules governing generation of the outputs, wherein each of the IM and CM is configured such that responsive to each input, the processor of the respective module IM, CM defines a state in the associated copy of the list and communicates with the other module IM, CM to cause the state to be defined in the other copy, wherein each rule requires a state to be present in the list for generation of an associated output by each module.