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Products & Services - Automotive Camera System

Ability Enterprise
  • Front Camera:Alley View Monitor.

    Using 190⁰ visual angle of AVM to catch the front image. Use image calibration and view angel change technology to display the image of right and left traffic lane, and display on screen.

    Usage Scenario: To avoided car accident when the driver drives out of lane or in crossroad, and he didn’t notice coming vehicle from left and right side.

  • 2D AVM

    Using four cameras in front, back, right and left of the vehicle to catch the surrounding images. The image calibration technology and view angle change technology will be used to combine these images, then display 2D/3D image on the screen.

    Usage Scenario: Low speed driving (<20Km/hr) and parking.

  • Side View Monitor

    Using the mirror side camera to catch blind area in the left and right side, and display the image on the screen.

    Usage Scenario: Change to right or left lane during driving.

  • Front View System

    Night Vision
    To capture front image of low visibility e.g. night driving at mountain or low-light areas, using high-sensitivity camera. Display front road condition on screen.

    Usage Scenario:When drive in mountain area or low-light light area without street light .

    lane departure warning system (LDWS)
    Using high sensitive camera on the windscreen to catch front road image. By using image processing technology to identify driving condition of the driver. If the car deviate from the normal driveway, it will send a alert to remind the driver.

    Usage Scenario: The system will warn drowsy drivers when the vehicle begins to move out of its lane, and send alarm.

    Forward Collision Warning System (FCWS)
    Using high sensitive camera on the windshield to catch front road image, by image processing technology to identify the distance from the ahead vehicle. If the vehicle is too close to the ahead vehicle, it will generate alarm. Usage Scenario:

    Usage Scenario: Traffic Jam, or normal driving condition, or drowsy drivers

    Pedestrian Detection (PD)
    Using high sensitive camera on the windshield to catch front road image, and by using image processing technology to identify front area from the vehicle if have any pedestrian. If the pedestrian in the front of vehicle, it will send a alert to remind the driver.

    Usage Scenario: Cross road, or in a crowded city. When the driver not in good driving condition or a pedestrian sudden appear in front, it will send a alert automatically to remind the driver.

  • Sleep Alarm:

    Using camera in front of driver to catch the image, the image processing technology will identify the driver behavior; e.g. sleeping, the system will generate alarm.

    Usage Scenario: Drive in long distance, or drowsy drivers

  • 3D AVM

    Using four cameras in front, back, right and left of the vehicle to catch the surrounding images. The image calibration technology and view angle change technology will be used to combine these images, then display 2D/3D image on the screen.

    Usage Scenario: Low speed driving (<20Km/hr) and parking.

  • BSD(Blind Spot Detection)

    Using the mirror side camera to catch blind area in the left and right side, and display the image on the screen. Using the image processing technology to detect if there is vehicle passing from left/right at blind side, and generate alarm.

    Usage Scenario:when the driver change the driveway, and there is a vehicle pass through the side of driver’s vehicle . it will send a alert automatically to remind the driver to avoid car accident.

  • Rear Camera:Bird View Monitor.

    Using 190⁰ visual angle of AVM back camera to catch the back image, and image calibration and angle of view change technology to display bird view image on the screen.

    Usage Scenario: The bird view image with auxiliary line makes driver aware the distance from obstacle which can avoided car accident when the driver back the car.

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