A vehicular occupant monitoring system includes a camera disposed at an interior rearview mirror of a vehicle. The camera includes an imaging array sensor and a lens. The lens is disposed at the imaging array sensor with a center axis of the lens vertically offset from a center region of the imaging array sensor. A center region of the lens is disposed at and images at a lower region of the imaging array sensor when the camera is disposed at the interior rearview mirror and an upper peripheral region of the lens images at the center region and a lower region of the imaging array sensor when the camera is disposed at the interior rearview mirror. The vehicular occupant monitoring system, responsive to processing by the image processor of image data captured by the camera, determines presence of an occupant of the vehicle.

A vehicular driver monitoring system includes a camera disposed at a vehicle and viewing at least a head region of a driver of the vehicle. Image data captured by the camera is provided to an electronic control unit (ECU) and is processed at the ECU for determining attentiveness of the driver. The vehicular driver monitoring system, responsive to selection by the driver of a video-conference function, initiates a video conference telecommunication whereby video image data derived from the provided captured image data is wirelessly communicated to an external receiver that is located remote from the vehicle for viewing by another person communicating with the driver of the vehicle via the external receiver. Communication data generated at the external receiver is wirelessly communicated to the vehicular driver monitoring system.

A vehicular driver monitoring system includes a camera disposed at a vehicle and viewing at least a head region of a driver of the vehicle. Image data captured by the camera is provided to an electronic control unit (ECU) and is processed at the ECU for determining attentiveness of the driver. The vehicular driver monitoring system, responsive to selection by the driver of a video-conference function, initiates a video conference telecommunication whereby video image data derived from the provided captured image data is wirelessly communicated to an external receiver that is located remote from the vehicle for viewing by another person communicating with the driver of the vehicle via the external receiver. Communication data generated at the external receiver is wirelessly communicated to the vehicular driver monitoring system.

A garbage truck camera and safety system includes a garbage truck having a lift arm mechanism, a hopper, and a trash compacting device disposed within the hopper. At least one camera and temperature sensor are disposed within the hopper. A control module is operably connected to the cameras and the temperature sensor, as well as to one or more vehicle systems, via a vehicle control interface disposed within the driver's cab. The control module includes a processor, a non-transitory computer readable medium operatively connected to the processor, and a logic stored in the non-transitory computer readable medium that, when executed by the processor, causes the system to detect, via the temperature sensor, the temperature within the hopper; and if the temperature detected is above a predetermined threshold temperature, then deactivating the trash compacting device. The system will prevent harm from being done to individuals who accidentally fall into the hopper.

A garbage truck camera and safety system includes a garbage truck having a lift arm mechanism, a hopper, and a trash compacting device disposed within the hopper. At least one camera and temperature sensor are disposed within the hopper. A control module is operably connected to the cameras and the temperature sensor, as well as to one or more vehicle systems, via a vehicle control interface disposed within the driver's cab. The control module includes a processor, a non-transitory computer readable medium operatively connected to the processor, and a logic stored in the non-transitory computer readable medium that, when executed by the processor, causes the system to detect, via the temperature sensor, the temperature within the hopper; and if the temperature detected is above a predetermined threshold temperature, then deactivating the trash compacting device. The system will prevent harm from being done to individuals who accidentally fall into the hopper.

An occupant monitoring device for a vehicle includes an imager, a display, and a determiner. The imager is configured to image a cabin of the vehicle to monitor conditions of occupants in the vehicle. The display is configured to display a screen to be viewed by the occupants in the vehicle. The determiner is configured to determine the conditions of the occupants in the vehicle by using captured image data obtained by imaging each of the occupants by the imager while the screen is displayed on the display. A panel configured to display the screen of the display has a non-display area on an inner side of a rectangular frame circumscribing a display area of the screen. The imager is disposed on a back of the non-display area of the panel of the display.

An occupant monitoring device for a vehicle includes an imager, a display, and a determiner. The imager is configured to image a cabin of the vehicle to monitor conditions of occupants in the vehicle. The display is configured to display a screen to be viewed by the occupants in the vehicle. The determiner is configured to determine the conditions of the occupants in the vehicle by using captured image data obtained by imaging each of the occupants by the imager while the screen is displayed on the display. A panel configured to display the screen of the display has a non-display area on an inner side of a rectangular frame circumscribing a display area of the screen. The imager is disposed on a back of the non-display area of the panel of the display.

An in-trailer monitoring system includes one or more surround view cameras mounted within a trailer having a cargo area, a visualization display disposed within a vehicle, and an electronic control unit (ECU) in communication with the visualization display and the one or more surround view cameras, the ECU configured to periodically display: an image from the one or more surround view cameras, and data to the display for a predetermined amount of time.

Methods, apparatus, systems, and articles of manufacture are disclosed to generate an augmented environment including a weight indicator for a vehicle. An example disclosed apparatus includes a sensor interface to receive load data associated with a vehicle, and receive live video data from a camera, the live video data including a location of an object in the vehicle, a load mapper to generate a map of loads on the vehicle based on the load data, an object-to-weight correlator to correlate a load of the map of loads with the object, and an augmented reality generator to generate an augmented environment identifying the location of the object and the load correlated with the object.

A camera system for a trailer that cooperates with a tarping system of the trailer to capture images during loading and unloading. The camera transmits the images to a display. A driver may watch the display to monitor loading and unloading. The camera system maintains a camera of the camera system positioned to capture images of an interior of the trailer regardless of the operation of the tarping system. The camera system generally includes an arm member, a pivot structure connected to the arm member, a camera connected to the arm member, and a weight connected to the arm member. Responsive to a force of gravity the camera remains oriented upward to capture images of the interior of the trailer during loading and unloading.