Develop an image processing system tailored to your needs to improve inspection efficiency!
We not only manufacture and sell cameras, but also develop image processing systems tailored to our customers' needs!
The ways in which customers want to see work vary greatly. Whether it's wanting to make work more visible and noticeable, measuring distances, or combining multiple image data into one, the introduction of an image processing system makes it possible to enhance visibility of what you want to see. However, finding a system that perfectly matches your company's needs can be quite challenging. At CIS, we not only manufacture and sell cameras but also have a system in place to support everything from software development and porting tailored to customer applications to providing and developing image processing software IP, accommodating both prototyping and mass production. We listen to our customers' needs, consider the necessity of optical systems, sensors, ISPs, and image processing units, and propose the system that we believe is best for them. Please leave system development to CIS!
basic information
【Previous Development Examples】 Safety Device for AGVs: Detects intrusions within the path of unmanned transport vehicles. Direction Determination System: Determines the direction of workpieces at thousands of fps using a camera and real-time image processing system. Image Processing Device for Winding Machines: Inspects wire misalignment during the winding process using a camera and image processing software. Product Verification System: Verifies whether the specified items are present through image processing. Custom Smart Camera: Equipped with a CMOS sensor board that can be used as a deep learning edge device, allowing for a smooth transition from typical deep learning structures. Defogging: Captures clear images even in environments with poor visibility due to fog or rain using proprietary image processing technology. Stereo Camera Distance Measurement: Measures distance based on the differences in the positions of subjects obtained from multiple cameras during simultaneous shooting (parallax). Multi-Eye Camera 3D Image Processing Device: Generates highly accurate 3D data from two sets of stereo camera inputs. This system is realized through a combination of large-scale FPGA and high-performance application processors. Stitching: After capturing the subject from multiple directions, lens distortion correction, viewpoint transformation, and compositing are performed on each image to obtain a single picture.
Price range
Delivery Time
Applications/Examples of results
Safety devices for AGVs, direction determination systems, image processing devices for winding machines, product verification systems, custom smart cameras (deep learning edge devices), intelligent surveillance camera systems, high-speed image processing systems, defogging, stereo camera ranging, multi-eye camera 3D image processing devices, ToF cameras (RGB + Depth), stitching (image alignment technology), image processing devices for endoscopes, digital binoculars, inspection systems and content identification systems using polarized cameras, etc. In the future, we will also actively work on the development of even higher-performance systems using deep learning, GPGPU, and deep learning edge processors.
Detailed information
-
Custom Smart Camera Equipped with a CMOS sensor board that can be used as a deep learning edge device. Allows for a smooth transition from common deep learning architectures.
-
With our proprietary image processing technology, clear imaging is achieved even in environments with poor visibility due to fog or rain.
-
Stereo camera distance measurement Distance measurement is possible from the differences in the positions of the subject obtained by each camera during simultaneous shooting with multiple cameras (parallax).
-
Multi-Eye Camera 3D Image Processing Device Generates highly accurate 3D data from two sets of stereo camera inputs. This system is realized through a combination of large-scale FPGA and high-performance application processors.
-
ToF camera (RGB+Depth) Adopts ToF + CMOS sensor. Combines and outputs RGB + Depth information using an onboard FPGA. Supports high-precision distance measurement up to a maximum range of 5 meters.
-
Stitching: After capturing the subject from multiple directions, lens distortion correction, perspective transformation, and compositing can be performed on each image to obtain a single picture.
