Method and apparatus are disclosed for iris-detection alignment for vehicle entry and feature activation. An example vehicle includes a window, a camera facing the window, a puddle lamp to project an indicator pointing toward the camera, a UV source, and a controller. The controller is to project, via the UV source, a display onto the window upon detecting a user aligns with the indicator. The controller also is to provide directions to the user, via the display, to position an iris in front of the camera and activate a vehicle feature upon identifying the user via iris recognition.

A live streaming security/safety system for an automobile having a plurality of audio and video cameras installed in and around the automobile. A control processor device operatively connected to each of the plurality of cameras by wired or wireless connection. A memory storage device is included for storing audio and video data received by the cameras, as well as, a wireless transmitter for broadcasting such audio and video data. The security/safety system can be activated to record and selectively live stream audio and video in and around the automobile. A third-party observer may also wirelessly connect to the system through the wireless transmitter for viewing the audio and video data, as well as, communicating with people in and around the automobile.

A vehicle security system for monitoring a vehicle and notifying a user includes at least two image capture devices (ICD), sensors, a global positioning system tracking module (GPSTM), a control module (CM), and a monitoring device. The ICD are positioned at predetermined locations of the vehicle for capturing and transmitting images of a target object. The sensors generate sensor data variables based on a detection of the target object. The GPSTM generates and transmits signals based on a position of the vehicle to a monitoring device. The CM receives the captured images and sensor data variables. The CM analyzes the received images and sensor data variables based on predefined criteria to trigger auxiliary units. The CM transmits the images and sensor data variables based on the predefined criteria to the monitoring device. A graphical user interface displays the images for monitoring the vehicle and notifies the user.

A recreational vehicle (RV) monitoring system includes a display screen, and a rear-view camera assembly, a side-view camera assembly, a door-top camera assembly, and a reversing camera that are electrically connected to the display screen, where the display screen is detachably disposed inside an RV, the reversing camera is detachably disposed at the tail of the RV, the rear-view camera assembly is mounted at a stop lamp of the RV, the door-top camera assembly is disposed on the top of a door of the RV, and the side-view camera assembly is disposed at a turn lamp of the RV.

Method and apparatus are disclosed for iris-detection alignment for vehicle entry and feature activation. An example vehicle includes a window, a camera facing the window, a puddle lamp to project an indicator pointing toward the camera, a UV source, and a controller. The controller is to project, via the UV source, a display onto the window upon detecting a user aligns with the indicator. The controller also is to provide directions to the user, via the display, to position an iris in front of the camera and activate a vehicle feature upon identifying the user via iris recognition.

In order to enhance security of a parked vehicle, an image transmitting device to be mounted on a vehicle includes: a checking unit that checks, at a parking place of the vehicle, communicability with an external device outside of the vehicle, that is, whether an image can be transmitted from the parking place to the external device; a providing unit that provides notification information based on a result of the checking by the checking unit; a capturing unit that captures an image while the vehicle is parked; and a transmitting unit that transmits the image captured by the capturing unit to the external device.

Method and apparatus are disclosed for iris-detection alignment for vehicle entry and feature activation. An example vehicle includes a window, a camera facing the window, a puddle lamp to project an indicator pointing toward the camera, a UV source, and a controller. The controller is to project, via the UV source, a display onto the window upon detecting a user aligns with the indicator. The controller also is to provide directions to the user, via the display, to position an iris in front of the camera and activate a vehicle feature upon identifying the user via iris recognition.

This invention relates to security systems. Previously, vehicle vandals and thieves were difficult to stop. Embodiments of the present invention use a vehicle security system (100) includes at least two image capture devices (ICD), sensors, a global positioning system tracking module (GPSTM), a control module (CM), and a monitoring device. The ICD are positioned at predetermined locations of the vehicle for capturing and transmitting images of a target object. The CM receives the captured images and sensor data variables. The CM analyzes the received images and sensor data variables based on predefined criteria to trigger auxiliary units. The CM transmits the images and sensor data variables based on the predefined criteria to the monitoring device. A graphical user interface displays the images for monitoring the vehicle and notifies the user.

A hit-and-run dash camera device is provided that has a plurality of sensors. The sensors may be triggered by specific distance and speed elements commonly found before, during, or after a hit-and-run collision. Triggering of the sensors causes at least one camera of the device to begin recording to capture a fleeing vehicle.

An exemplary mirror positioning method includes tilting a reflective portion of at least one side mirror outward and downward in response to a detection of an object moving outside a passenger cabin of a vehicle. The tilting is independent from a position of the object. Another exemplary mirror positioning method includes tilting a reflective portion of at least one side mirror fully outward and fully downward in response to a detection of an object moving outside a passenger cabin of a vehicle. An exemplary mirror positioning assembly includes a surveillance controller, and a side mirror with a reflective portion that is configured to automatically tilt outward and downward in response to a command from the surveillance controller. The command issued in response to a detection of an object moving outside a passenger cabin of a vehicle, the tilting independent from a position of the object.