Lectures related to Super Slow Motion: Three Layer Stacked CMOS Image Sensor

Active Pixel Sensors: Concepts and Applications

Covers the principles and applications of Active Pixel Sensors in CMOS cameras.

CCD Cameras: Electronics and Charge Conversion

Discusses the electronics of CCD cameras, focusing on output amplifiers and charge conversion processes.

CMOS Color Filters: Technical Aspects of Imaging

Discusses the technical aspects of CMOS cameras, including microlenses, color filters, and image quality enhancement techniques.

CMOS Cameras: Passive Pixel Sensor Technology

Covers the principles and challenges of CMOS camera technology, focusing on passive pixel sensors and their impact on image quality.

CMOS Camera Trends: Technical Aspects and Innovations

Covers trends in CCD and CMOS camera technologies, focusing on integration, pixel size, and advancements in autofocus systems.

Active Pixel Sensors: Design and Functionality

Covers the design and operation of 7T active pixel sensors in CMOS cameras.

Optical Detection: Binning Techniques in CCDs

Covers binning techniques in optical detection using charge-coupled devices to reduce image resolution while maintaining signal integrity.

CMOS Cameras: Detection and Electronics Overview

Provides an overview of CMOS camera technology, focusing on detection, electronics, and the advantages of four-transistor active pixel sensors.

CCD Cameras: Dark Current and Noise Analysis

Covers noise sources in CCD cameras, focusing on dark current and its impact on performance.

Noise in CCD Cameras: Reset and Readout Mechanisms

Covers noise sources in CCD cameras, focusing on reset noise, readout noise, and methods for noise suppression like correlated double sampling.

Global Shutter Technology: 5T APS Sensor Overview

Covers the architecture and global shutter functionality of the 5T APS sensor, emphasizing its advantages over rolling shutter technology.

Facet Vision: Advanced Imaging Techniques

Covers Facet Vision technology, which uses multiple cameras for advanced image reconstruction and numerical refocusing techniques.

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.

Covers the integration of correlated double sampling within pixel structures of CMOS image sensors.

Neural Signals and Signal Processing

Explores nuclear magnetic resonance, MRI principles, pulse sequences, image reconstruction, safety considerations, and volume normalization in brain imaging.

CMOS Cameras: Advanced Pixel Design Techniques

Covers advanced design techniques for CMOS cameras, focusing on pixel architecture and noise management in active pixel sensors.

Neuromorphic Electronic Skins: Advancements and Challenges

Explores the advancements and challenges in neuromorphic electronic skins, aiming to enable intuitive use of replacement limbs and autonomous robots.

CMOS Digital Pixel Sensors: Technical Aspects and Applications

Covers the technical aspects and applications of CMOS digital pixel sensors, focusing on high dynamic range imaging and camera miniaturization.

Neural Signals and Signal Processing

Explores neural signals, EMG control, muscle synergies, and HD-EMG for prosthetic devices.

Micromachined Ultrasonic Transducers: PMUTs

Explores the evolution and advantages of micromachined ultrasonic transducers, focusing on PMUTs and their applications in biometric identity verification and high-resolution imaging.