An in-cabin monitoring system includes an electronic mirror provided inside a vehicle cabin, a camera that captures an image of an imaging target inside the vehicle cabin, and a light source that is provided in the electronic mirror and emits light into the vehicle cabin. The light source includes a plurality of light emitting diodes, and at least one light emitting diode of the plurality of light emitting diodes are disposed such that optical axes of the one or more light emitting diodes extend in directions different from a direction of an optical axis of an other light emitting diode of the plurality of light emitting diodes.

A system and method for providing rear seat monitoring within a vehicle that include activating a vehicle camera system to capture images of at least one rear seat of the vehicle. The system and method also include determining if at least one rear seat passenger is located within the at least one rear seat of the vehicle and storing a detection indication data when the at least one rear seat passenger is determined to be located within the at least one rear seat of the vehicle. The system and method further include providing at least one type of alert based on analyzing the detection indication data and determining the location of the at least one rear seat passenger included within the detection indication data.

Methods and apparatus to generate an augmented environment including a weight indicator for a vehicle are disclosed herein. An example apparatus disclosed herein includes memory including stored instructions, a processor to execute the instructions to generate a map of loads on a vehicle based on load data associated with a sensor of the vehicle, determine a load condition of the vehicle based on the map of loads, correlate a first load of the map of loads with an object identified using live video data received from a camera, and generate an augmented environment identifying at least one of a location of the object, the first load correlated with the object, or the load condition.

A vehicular recording control device includes a capture-data acquisition unit configured to acquire capture data captured by a first capturing unit that captures a vicinity of a vehicle, an event detection unit configured to detect an event to the vehicle, a stop detection unit configured to detect a stop of the vehicle after the event detection unit detects the event, and a recording control unit configured to save, in a case where the event is detected by the event detection unit, as event record data, at least capture data corresponding to a first period resulting from the detection of the event.

Methods, systems, and apparatus for a monitoring system are disclosed. The monitoring system includes a memory configured to store image data and a first camera configured to capture first image data including the activity of a passenger within the vehicle. The electronic control unit is configured to obtain, from the first camera, the first image data including the passenger, determine an activity of the passenger based on the first image data, and determine that the activity of the passenger will be different than a baseline activity of the passenger. The electronic control unit is configured to record and capture, in the memory and using the camera, the first image data for a time period before and after the determination that the activity of the passenger will be different than the baseline activity.

A vehicle includes an occupant space and seats for occupants. The seats are arranged, viewed in a travel direction of the vehicle, one behind the other in the occupant space. The vehicle also includes an image capturing device configured to capture an image of a respective seat and/or an occupant sitting in the respective seat, and a display device configured to display an image captured by the image capturing device in a region of another seat and/or in a field of view of an occupant sitting in the other seat.

A camera has a field of view encompassing a portion of an environment outside of a motor vehicle and a portion of an environment inside a passenger compartment of the motor vehicle. An electronic processor is communicatively coupled to the camera and receives captured images from the camera. The electronic processor separates first extracted images from the captured images. The first extracted images correspond to the portion of the environment outside of the motor vehicle. The electronic processor transmits the first extracted images to a first software application for monitoring the environment outside of the motor vehicle. The electronic processor separates second extracted images from the captured images. The second extracted images correspond to the portion of the environment inside a passenger compartment. The electronic processor transmits the second extracted images to a second software application for monitoring human beings in the passenger compartment.

A vehicle display device includes a first display unit disposed in front of and above a driver's seat and including a display screen configured to be deployed from an interior member into the vehicle cabin and be withdrawn from the vehicle cabin into an inside of the interior member, a drive unit configured to drive the display screen, and a control unit configured to control the first display unit and the drive unit. The control unit includes a driving status acquisition unit configured to acquire a driving status of a vehicle, a drive control unit configured to change a deployment amount of the display screen based on the acquired driving status, and a display control unit configured to cause the display screen to display a rear seat image captured by an in-vehicle camera for a rear seat to fit with the deployment amount of the display screen.

A vehicle display device includes a first display unit disposed in front of and above a driver's seat and including a display screen configured to be deployed from an interior member into the vehicle cabin and be withdrawn from the vehicle cabin into an inside of the interior member, a drive unit configured to drive the display screen, and a control unit configured to control the first display unit and the drive unit. The control unit includes a driving status acquisition unit configured to acquire a driving status of a vehicle, a drive control unit configured to change a deployment amount of the display screen based on the acquired driving status, and a display control unit configured to cause the display screen to display a rear seat image captured by an in-vehicle camera for a rear seat to fit with the deployment amount of the display screen.

A method of notifying an owner of a lost item in a vehicle having a vehicle compartment is provided. The method comprises providing at least one sensor to sense the lost item in the vehicle compartment. The method further comprises sensing the lost item on a point relative to a spherical coordinate system to define a sensed item data and determining a position of the lost item in cartesian coordinates based on the sensed item data to define a position data. The method further comprises translating the sensed item data and the position data for visualization of the lost item to define an item image of the lost item relative to the vehicle compartment, and updating an inventory list of lost objects to include the lost item with the item image. The method further comprises identifying the owner of the lost item by way of a perception algorithm, providing notification to the owner of the lost item, and providing viewable access of the item image such that the image is viewed by the owner of the lost item.