The disclosure relates to augmented reality vehicle identification with visual light communication. For example, a mobile device may be configured for “scanning” an area having multiple parked vehicles within visual range of the mobile device, to identify a target vehicle. The mobile device may include an application for identifying the target vehicle using visual light communication (VLC) equipment and techniques that present an augmented reality outline or other identification of the target vehicle on the smartphone screen once the vehicle is identified by the system. The encrypted communication channels with the vehicle may be established to utilize vehicle headlamps, interior lights, or another light emitting device to establish the VLC between the user's phone and the vehicle VLC system. The mobile device may emit VLC signals using an onboard light emitter while being in visual communication with the target vehicle, establish an encrypted communication channel with the vehicle, and identify the vehicle using automatic and/or user-selectable identification features.

An apparatus for outputting platooning information by a platooning vehicle in a platooning group may include: one or more lamps configured to project light onto a road; a communication circuit; a controller configured to control a platooning operation of the vehicle; and a control circuit electrically connected with the one or more lamps, the communication circuit, and the controller. The control circuit may be configured to: control the one or more lamps so as to output on the road a distance range between the platooning vehicle and an outside vehicle that is not part of the platooning group when a request from the outside vehicle to join the platooning group is approved by the platooning vehicle or a leading vehicle of the platooning group. The distance range may be a distance required to join the platooning group.

Aspects of the disclosure provide for displaying notifications on a display of an autonomous vehicle 100. In one instance, a distance from the vehicle to a destination of the vehicle or a passenger may be determined. When the distance is between a first distance and a second distance, a first notification 650 may be displayed on the display. The second distance may be less than the first distance. When the distance is less than the second distance, a second notification 660 may be displayed on the display. The second notification provides additional information not provided by the first notification.

A digital license plate supporting both access and analysis of vehicle relevant information is disclosed. The digital license plate includes sensors that provide status data to a processor in the digital license plate. A power path control module can initiate power state changes and adjust power depending on system state as determined by at least one the multiple sensors. In some embodiments a temperature control module is connected to a temperature sensor and configured to modify heat relevant display parameters as critical temperatures are approached.

Problem: To clearly indicate an autonomous driving state and a charge level of a battery of a vehicle with a single lamp. Solution: A vehicle headlamp (3) includes a communication lamp (7) for indicating an autonomous driving state of a vehicle while the vehicle is driving, and a lamp ECU (32) for performing control to cause the communication lamp (7) to indicate a charge level of a battery (31) while the vehicle is stationary. The lamp (7) includes an elongated light guide body that continuously extends along a straight line or a curve and a plurality of light emitting devices (22) arranged at an interval in a longitudinal direction of the light guide body. The lamp ECU (32) controls the output of light from each of the light emitting devices (22) to change an illuminated range of the light guide body according to the charge level of the battery (31).

The present technology relates to an information processing apparatus, an information processing method, a program, and a mobile body that make it easy to acquire information regarding a convoy of mobile bodies such as vehicles. The information processing apparatus is disposed in a first mobile body, and includes a convoy information detection section, a convoy information generation section, and an output control section. The convoy information detection section detects, based on a first optical signal outputted from a second mobile body preceding the first mobile body, convoy information regarding a convoy of mobile bodies including up to the second mobile body. The convoy information generation section updates the convoy information by adding information regarding the first mobile body to the convoy information. The output control section controls an output section in such a manner as to output a second optical signal to rearward of the first mobile body in accordance with the updated convoy information. The present technology is applicable, for example, to a vehicle designed for autonomous driving.

An object is to provide a light-irradiation technique that are capable of making the driver of a vehicle around a vehicle platoon aware of changes in the vehicle configuration of the vehicle platoon. During no changes in the vehicle configuration of a vehicle platoon, a controller performs control in such a manner that an irradiation device of the vehicle casts light in a steady-state mode common in the vehicle platoon. In a process where the vehicle merges with another of the vehicle alone or another of the vehicle platoon, the controller performs control in such a manner that the irradiation device of the merging vehicle casts light in a transition mode. In a process where the vehicle leaves the vehicle platoon, the controller performs control in such a manner that the irradiation device of the leaving vehicle casts light in the transition mode.

Aspects of example systems and methods described herein discuss providing indications from a vehicle to other locations based on a variety of attributes. Indications may take the form of an indicator message. Indications may include information associated with whether one or more vehicles are platooning. Indications may be prevented from being distributed if one or more vehicles are not platooning. Law enforcement may be able to receive information indicating whether a vehicle is platooning in order to know whether to issue a ticket to the vehicle.

A vehicle control system applied to a column traveling system includes: a communication unit that is disposed in a host vehicle, and configured to be able to transmit/receive communication information to/from another vehicle in a column that travels while being included in the column as a group together with the host vehicle; an output unit that is disposed in the host vehicle, and configured to be able to output a visual system output related to the sense of sight to the outside of the host vehicle; and a controller configured to be able to perform intra-column cooperation processing of controlling the output unit to cause a plurality of the visual system outputs to cooperate with each other in the entire column based on the communication information. As a result, the vehicle control system applied to the column traveling system enables appropriate column traveling to be performed.

An annunciator system annunciates a mode of a platoon operation being performed between first and second platooning vehicles travelling cooperatively in accordance with a selected mode of the platoon operation. First and second visual indicators generate first and second visual signals having different colors based on visual indicator command signals generated by an annunciator control unit that operates to generate the first and second visual indicator command signals based on a determined mode of the platoon operation being performed between the associated first and second platooning vehicles. The visual annunciator system may be installed on the rear of platooning capable commercial vehicles in an unambiguous location so that it is not confused with other vehicle lamps, and is of a low intensity that does not shine directly at following traffic. The annunciator system generates two different visual colors that may be illuminated and/or flashed to encode the platoon operating mode.