An overhead console includes a console housing, an illumination board, a vehicle interior checking mirror, a mirror surface light source mounted on the illumination board together with the illumination light source and configured to emit light toward the mirror surface of the vehicle interior checking mirror in the mirror surface visible position, and a see-through display plate that is a display plate capable of transparently displaying a symbol indicating predetermined information, the see-through display plate being provided in the console housing at a location between the mirror surface light source and the mirror surface so as not to hinder the passenger from visually recognizing the mirror surface and so as to face a partial region of the mirror surface, and the see-through display plate being configured to allow light from the mirror surface light source to transmit therethrough to display the symbol on the partial region of the mirror surface.

A collision avoidance and/or pedestrian detection system for a large passenger vehicle such as commuter bus, which includes one or more exterior and/or interior sensing devices positioned strategically around the exterior and interior of the vehicle for recording data, method for avoiding collisions and/or detecting pedestrians, and features/articles of manufacture for improving same, is described herein in various embodiments. The sensing devices may be responsive to one or more situational sensors, and may be connected to one or more interior and/or exterior warning systems configured to alert a driver inside the vehicle and/or a pedestrian outside the vehicle that a collision may be possible and/or imminent based on a path of the vehicle and/or a position of the pedestrian as detected by one or more sensing devices and/or situational sensors.

A rear-view mirror and modular monitor system and method include an interior mirror that embeds a modular monitor behind see-through mirror glass. In some embodiments, the system includes multiple cameras, some in the vehicle, bus and/or truck, as well as some cameras outside the vehicle, bus and/or truck, advantageously providing the driver an opportunity to view what is happening, for example, in the back rows of the bus and/or cabin, while also using the mirror to look at objects in the bus and/or cabin that are visible using the mirror. The rear-view mirror and modular monitor system is configured to be easily assembled and/or disassembled when necessary for maintenance and/or to replace parts.

A video image output apparatus includes a video image data acquisition unit, a motion detection unit, a state determination unit and a video image control unit. The video image data acquisition unit acquires an occupant image obtained by picking up an occupant in a vehicle. The motion detection unit detects a movement of the occupant based on the acquired occupant image. The video image control unit generates a display image such that at least a part of the display image is displayed in a predetermined form when the state determination unit determines that a motion amount of the occupant is equal to or greater to than a reference value, and generates the display image such that the occupant image is displayed only for a predetermined time when the state determination unit determines that the motion amount of the occupant is less than the reference value.

A rear-view mirror and modular monitor system and method include an interior mirror that embeds a modular monitor behind see-through mirror glass. In some embodiments, the system includes multiple cameras, some in the vehicle, bus and/or truck, as well as some cameras outside the vehicle, bus and/or truck, advantageously providing the driver an opportunity to view what is happening, for example, in the back rows of the bus and/or cabin, while also using the mirror to look at objects in the bus and/or cabin that are visible using the mirror. The rear-view mirror and modular monitor system is configured to be easily assembled and/or disassembled when necessary for maintenance and/or to replace parts.

A vehicle, which includes a display and enables a driver to easily observe an occupant in a rear seat, includes a rear camera configured to acquire a rear image and having a visual field directed toward a rear side of the vehicle, a display part configured to display the rear image, at least one rear-seat camera configured to acquire at least one rear-seat image and each having a visual field directed toward the rear seat of the vehicle, and a controller configured to control the display part to display all the rear image and the at least one rear-seat image on the basis that a preset condition is satisfied.

A video image output apparatus includes a video image data acquisition unit, a motion detection unit, a state determination unit and a video image control unit. The video image data acquisition unit acquires an occupant image obtained by picking up an occupant in a vehicle. The motion detection unit detects a movement of the occupant based on the acquired occupant image. The video image control unit generates a display image such that at least a part of the display image is displayed in a predetermined form when the state determination unit determines that a motion amount of the occupant is equal to or greater to than a reference value, and generates the display image such that the occupant image is displayed only for a predetermined time when the state determination unit determines that the motion amount of the occupant is less than the reference value.

Infant observation minor assembly with temperature display for attachment to a top portion of a rear vehicle seat includes a main panel having opposed front and rear surfaces and a minor embedded in the front surface thereof. The mirror assembly further includes a temperature display section defined on the front surface of the main panel. A positioning base is coupled to the rear surface of the main panel. The main panel is pivotably attached to the positioning base for allowing rotation about a horizontal axis and a vertical axis. A mounting harness attaches to the positioning base. The mounting harness removably attaches to the top portion of the rear vehicle seat to hold the minor assembly in a selected lateral and vertical position on the rear vehicle seat.

The present invention is directed to a system of monitoring a child seated in the rear seat of a vehicle in a child's car seat employing a video camera which transmits a video signal to a video display receiver placed in the driver's frame of vision. The video camera is placed within a child's toy, the camera signal being transmitted remotely to a separate video display monitor screen device, viewable to the driver of the vehicle. The camera is adjustable in various positions within the vehicle compartment. To adjust camera direction the invention includes a bendable, flexible and sturdy neck that interconnects the camera to a transmission unit, which provides the driver with a view of the child. The invention further employs use of blockchain technology and SIM card security measures, via cell phone network, to provide users with secure transmission of video images and to prevent hacking by outside third parties.

A collision avoidance and/or pedestrian detection system for a large passenger vehicle such as commuter bus, which includes one or more exterior and/or interior sensing devices positioned strategically around the exterior and interior of the vehicle for recording data, method for avoiding collisions and/or detecting pedestrians, and features/articles of manufacture for improving same, is described herein in various embodiments. The sensing devices may be responsive to one or more situational sensors, and may be connected to one or more interior and/or exterior warning systems configured to alert a driver inside the vehicle and/or a pedestrian outside the vehicle that a collision may be possible and/or imminent based on a path of the vehicle and/or a position of the pedestrian as detected by one or more sensing devices and/or situational sensors.