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Lecture
CMOS Cameras: Detection and Electronics Overview
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Facet Vision: Advanced Imaging Techniques
Covers Facet Vision technology, which uses multiple cameras for advanced image reconstruction and numerical refocusing techniques.
Optical Detection: Correlated Double Sampling in 5T APS
Covers the design and operation of a 5T RPS pixel for correlated double sampling in optical detection systems.
Detectors: Types and Operation
Explores various microscopy detectors, their structures, and applications in digital imaging systems, emphasizing low-light imaging and CMOS technology advantages.
Reconstructing Color Images: Techniques and Applications
Covers techniques for reconstructing color images using optical detection and artificial intelligence to enhance image quality and reduce noise.
Image Processing Fundamentals
Covers the basics of image processing for microscopy, including acquiring, correcting defects, enhancing images, and extracting information.
CMOS Color Filters: Technical Aspects of Imaging
Discusses the technical aspects of CMOS cameras, including microlenses, color filters, and image quality enhancement techniques.
Calculating APS Camera Sensitivity: Key Concepts
Explains how to calculate the sensitivity of an APS camera sensor using key parameters and formulas.
Electrical Metrology: Noise Reduction Techniques
Explores noise reduction, ADCs, TDCs, and time-resolved imaging in electrical metrology.
Detectors: Cameras and Performance
Explores imaging cameras' characteristics, spatial resolution, noise sources, and dynamic range for optimal performance in microscopy applications.
Correlated Double Sampling: In-Pixel Solutions
Covers the integration of correlated double sampling within pixel structures of CMOS image sensors.
