PiBond Super Vision
Key benefits
![shutterstock 617822870](http://images.ctfassets.net/a5c1kh4hweir/4RK1fdsoepZoqWNkWgZ1OE/56dd0f5801e8864b36659a15fb06c645/shutterstock_617822870.jpg?w=1440)
Market Challenge
The greatest challenge for the future of 3D sensing lies in the sensor technology that can produce real-time accurate 3D information from the surrounding environment. That information is the starting point for many applications, like robotics, AGV, assisted or autonomous driving, AR/VR, healthcare, wellbeing and facial recognition.
![Pentti Eskola Ladimon säteissä original B](http://images.ctfassets.net/a5c1kh4hweir/2uegn0q1TgeSjm5jBHeXuT/1bf28d5133d45e3836e536c01c8f8362/Pentti_Eskola_Ladimon_s__teiss___original_B.png?w=1440)
Our Solution
Our sensor provides the most accurate real-time 3D sensing with very small computational overhead using our patented algorithm. We combine triangulation with photogrammetry to observe the world around us in high detail and with superior accuracy.
![Screenshot from 2016-06-15 18-10-01](http://images.ctfassets.net/a5c1kh4hweir/20pynrWheUsFGscRcjnSuH/6fae29d28861eef1dfca4fd1a7dc7355/Screenshot_from_2016-06-15_18-10-01.png?w=1440)
Future
Miniaturizing the key components and adding sensor-level intelligence are our current main goals. We are constantly looking for customers to carry out application testing.
Operation Principle
The sensor comprises of a laser pattern projector, near-infrared cameras and RGB cameras. The laser pattern is imaged with the IR cameras and a triangulation with a diffraction modelling is carried out for the observed pattern details. Two RGB cameras create a stereo image which enhances the point cloud data created with the laser triangulation.
Specifications
Key Components
![Key components](http://images.ctfassets.net/a5c1kh4hweir/3yZylpF0jlO7ZhXp0N2O30/6ae7592200a71d17a8324e720c0bef10/Picture1.png?w=1440)