An exterior camera system and a cleaning method thereof are provided. The exterior camera system includes a base unit that is fixed to a vehicle, a housing rotatably coupled with the base unit, and an imaging device including a camera module and having at least a portion inserted into the housing to move in a longitudinal direction of the housing. A wiper is disposed on an inside surface of the housing to face the camera module, and a washer fluid nozzle is disposed adjacent to the wiper. A controller receives a video from the camera module to set a rotation angle of the housing based upon driving conditions of the vehicle and to adjust extension of the imaging device.

A light source unit includes a substrate and a light source. The light source is mounted on the substrate. At least one sensor is configured to detect the infrared light. The at least one sensor detects a wavelength component of the infrared light in a range of wavelengths from 920 nm to 960 nm better than a wavelength component of the infrared light out of the range. The light source device emits the infrared light having a peak wavelength smaller than 920 nm when the light source has a temperature of 25 C. or lower. The peak wavelength of the infrared light emitted from the light source device increases as the temperature of the light source increases from the temperature of 25 C.

A method, an apparatus and a system for displaying an image of a vehicle blind spot are provided. The apparatus is coupled to at least one external camera disposed outside the vehicle, at least one internal camera disposed inside the vehicle with a lens facing towards a driver, and at least one display disposed inside the vehicle. The method comprises capturing an image of the external environment of the vehicle by the external camera as an external image, capturing an image including the driver by the internal camera as an internal image, recognizing a face of the driver and a displacement of the face in the internal image, and adjusting a position of an ROI in the external image according to the recognized displacement, to display an image of the ROI on the display corresponding to the external camera. The displayed image of the external of the vehicle may be adjusted according to the posture or the angle of view of the driver, to have the image of the current blind spot by the driver shown correctly.

A view system (100A, 100B) for a vehicle (1) has an image capture unit (10, 10A, 10B) for capturing image data of a portion around a vehicle (1), an image processing unit (20A, 20B) for processing the captured image data, and an image reproduction unit (30, 30A, 30B) for reproducing the processed image data. Included are an image sensor (11) and an optical element having a distortion curve. The image data are distorted dependent on the position of the image sensor according to the distortion curve. The image processing unit (20A, 20B) is adapted for taking at least one partial portion (12, 12) from the image data of the image sensor (11), wherein the geometry of the partial portion (12, 12) is dependent on the position of the partial portion (12, 12) on the image sensor (11).

An exterior camera system and a cleaning method thereof are provided. The exterior camera system includes a base unit that is fixed to a vehicle, a housing rotatably coupled with the base unit, and an imaging device including a camera module and having at least a portion inserted into the housing to move in a longitudinal direction of the housing. A wiper is disposed on an inside surface of the housing to face the camera module, and a washer fluid nozzle is disposed adjacent to the wiper. A controller receives a video from the camera module to set a rotation angle of the housing based upon driving conditions of the vehicle and to adjust extension of the imaging device.

A vehicle includes one or more sensors arranged on at least one of a dashboard, a roof, and a center console of the vehicle, or one or more image capturing devices for capturing one or more images from a left side and a right side of the vehicle, an electronic control unit (ECU) configured to communicate with the one or more sensors or the one or more image capturing devices, and at least one of a morphing surface, a windshield display, and one or more displays configured to be controlled by the ECU, where the one or more sensors are arranged under a black panel surface.

A camera system according to the present exemplary embodiment includes a clipping unit configured to clip, from an image captured by an imaging unit, a side rear area of a vehicle that is a part of the captured image, a display unit configured to display an image of the side rear area of the vehicle, and a detection unit configured to detect an object in a blind spot area of the vehicle that is a part of the captured image and is determined in advance. The clipping unit further clips a clipping area from the captured image so as to include an area where the object is detected. The camera system further includes a generation unit configured to generate a display image based on the side rear area of the vehicle and the clipping area. The display unit further displays the display image.

A camera system according to the present exemplary embodiment includes a clipping unit configured to clip, from an image captured by an imaging unit, a side rear area of a vehicle that is a part of the captured image, a display unit configured to display an image of the side rear area of the vehicle, and a detection unit configured to detect an object in a blind spot area of the vehicle that is a part of the captured image and is determined in advance. The clipping unit further clips a clipping area from the captured image so as to include an area where the object is detected. The camera system further includes a generation unit configured to generate a display image based on the side rear area of the vehicle and the clipping area. The display unit further displays the display image.

Method and apparatus are disclosed for vehicle-rendering generation for vehicle display based on short-range communication. An example vehicle includes a communication module configured to wirelessly communicate with remote sensing devices, a display configured to present a vehicle rendering of the vehicle, and a controller. The controller is configured to, in response to detecting an activation event, collect sensing data via the communication module. The controller also is configured to determine whether an object is coupled to the vehicle based on the sensing data and, in response to detecting an object coupled to the vehicle, modify the vehicle rendering to include an object rendering of the object.

A vehicle side light (VSL) that is secured to a side of a vehicle such as a car or truck to provide illumination to an area adjacent the side of the vehicle. The VSL has an attachment plate, a gasket, a heat sink, a power/light emitting diode (LED) board, a reflector, and a cover. At least one LED and preferably multiple LEDs, on the power/LED board provide the illumination. The reflectors has a metallic reflective front surface with outward extending members that create reflecting chambers. At the bottom of each chamber is an opening that allows a LED to illuminate outward to the chamber. The reflector's surface and reflecting chamber design the increase the LEDs illuminative strength. The cover is either a flat front surface with angled side sections, or a convex front surface. The VSL can also function as an auxiliary turn signal with red or yellow LEDs in the side sections. The USLVSL can also include a camera that interfaces with the vehicle's audio/navigation system. While the VSL can be used with may vehicles, the VSL is optimally designed to be secured to a four-door Jeep vehicle, onto a lower area of a B-pillar, between the Jeep's front and rear doors. To facilitate the securement, the attachment plate has right and left angled sections, with angles of 55 which allows optimal placement on the B-pillar.