An equipment inspection system receives data captured by a sensor of an autonomous vehicle (AV). The captured data describes a current state of equipment for servicing the AV. The equipment inspection system compares the captured data to a model describing an expected state of the equipment. The equipment inspection system determines, based on the comparison, that the equipment differs from the expected state. The equipment inspection system may transmit data describing the current state of the equipment to an equipment manager. The equipment manager may schedule maintenance for the equipment based on the current state of the equipment.

An emergency vehicle alert system includes a traffic control device having a transceiver. The transceiver is configured to receive a first signal and to transmit a second signal. A receiver is configured to receive the second signal from the transceiver and to initiate an alert upon receiving the second signal from the transceiver. The first signal is transmitted to the transceiver from an emergency vehicle and causes the traffic control device to transition from a first configuration to a second configuration. The transceiver transmits the second signal in response to the transceiver receiving the first signal.

A fill control system on a harvester detects that a receiving vehicle is to be repositioned relative to the harvester. The fill control system generates a signal indicative of how the receiving vehicle is to be repositioned relative to the harvester. The harvester sends the signal to a mobile device that is remote from the harvester. A mobile device receives an indication from a fill control system on a harvester that indicates how a receiving vehicle is to be repositioned relative to the harvester. The mobile device controls a user interface mechanism to generate an output indicating how the receiving vehicle is to be repositioned relative to the harvester.

The present invention relates generally to an automobile tire pressure display, which has a host matching the tire pressure detectors of any brands to achieve monitoring effect, comprising a MCU, a low frequency transmitting unit, a radio frequency receiving/transmitting unit and a database unit; in implementation, the MCU sends different low frequency commands to wake up the tire pressure detector, and receives the radio frequency signal from the tire pressure detector, which is matched with the vehicle type protocols in the database unit, if the judgment succeeds, the MCU records the vehicle type protocol and monitors the pressure and temperature values of tire pressure detector; on the contrary, if the judgment fails, the commands are sent and the signals are received continuously to judge whether the vehicle type protocol is correct or not, till success and it is recorded in the database unit.

A system and computer-implemented method for automatically controlling a construction process of a road section, the section comprising a plurality of subsections, the construction process comprising processing a road surface material layer using a paver with a height-adjustable screed, the paver travelling along a predetermined path, the method comprising receiving construction design data comprising information about the path and about a nominal surface and a nominal layer thickness of the paved road surface material layer for a multitude of positions along the path, receiving a set of rules comprising different priorities for each of the plurality of subsections, continuously receiving position data indicating a current position of the screed, continuously receiving thickness data indicating a current layer thickness of the paved road surface material layer, calculating a height-adjustment of the screed, generating, based on the calculation, control data to adjust a height of the screed.

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.

An advice providing apparatus for a vehicle including: a first interface configured to communicate with one or more human-machine interface APPs of one or more human-machine interfaces (HMIs) of the vehicle; a second interface configured to receive data from in-vehicle devices including a database, a sensing unit and a communication unit; and a processing module configured to: calculate one or more predictions for a potential query from a user of the vehicle based on the received data; select a prediction from the calculated predictions that is associated with a nonrepresentational input received via at least one HMI of the one or more HMIs from the user; generate an operation advice based on the selected prediction; and output the generated operation advice to an HMI APP of the one or more HMI APPs.

There is disclosed herein examples of systems and procedures for performing software updates for vehicles. The vehicles may be scheduled for the software updates based on information related to the vehicles. Update systems may determine when the vehicles have entered service ranges of the update systems for the scheduled software updates and may initiate the software updates in response to determining that the vehicles have entered the service ranges. Progress of the software updates may be monitored and displayed on a dashboard system overseeing the software updates of the vehicles.

A vehicle includes a host display that has a graphic user interface that incorporates a touchscreen. At least a portion of the host display includes a charging interface. A docking port is disposed proximate the host display. The docking port is configured to selectively couple with a portable computing device that has a portable display. Engagement of the portable computing device with the docking port places the portable display of the portable computing device in front of the charging interface of the host display. A controller of the host display is placed in electrical communication with the portable computing device to charge a battery cell of the portable computing device. Engagement further adjusts the graphic user interface of the host display to selectively assimilate the portable display of the portable computing device to define the portable display as an annexed display of the host display.

A sun visor assembly for a vehicle according to an exemplary aspect of the present disclosure includes, among other things, a visor having a transparent portion and a circuit configured to control at least one function of the visor. The visor is pivotable between a first position and a second position.