Many important subtle changes in the environment are invisible to the naked human eyes. These subtle changes occur because of colour variations, such as blood flow in a human face that leads to face colour change, or motion variations, such as vena movement under human skin and vibration of buildings. The human eye requires optical microscopes to detect these variations. Alternatively, new technologies, such as high-speed imagery and computer processing, can be used to detect these variations. These computerised microscopes depend on computation rather than optical amplification to amplify subtle colour and motion changes in videos. The most popular technique to achieve computation-based microscope is the Eulerian video magnification (EVM)....
Our thesis work is based on revealing minor informative variations in a video which are hard to perc...
The ability to amplify or reduce subtle image changes over time is useful in contexts such as video ...
A new quality of microscopy, called video microscopy, emerges, if one observes the specimen instead ...
The world is filled with visually subtle signals that are important such as a person’s pulse, blood ...
This study was performed with the three main goals. The first of which includes the implementation o...
Digital video magnification is a computer-based microscope, which is useful to detect subtle changes...
Digital video magnification is a computer-based microscope, which is useful to detect subtle changes...
The micro-biology videos often contain motions of particles which are not visible to naked eye. Ther...
A standard video can have small video motions that are difficult to see by naked eye because of it l...
Our goal is to reveal temporal variations in videos that are difficult or impossible to see with the...
Eulerian video magnification method may be used for visualization of the pulse in the videosequence ...
This paper proposes a modification approach for phased-based EVM in order to reduce the processing t...
Measuring pulse rate by means of video recording of the wrist area is a non-invasive approach. Euler...
The use of spatiotemporal video processing to extract biosignals is an emerging technique. This pape...
V této práci si přiblížíme problematiku eulerovské video-magnifikace (EVM), její počátky a inovace, ...
Our thesis work is based on revealing minor informative variations in a video which are hard to perc...
The ability to amplify or reduce subtle image changes over time is useful in contexts such as video ...
A new quality of microscopy, called video microscopy, emerges, if one observes the specimen instead ...
The world is filled with visually subtle signals that are important such as a person’s pulse, blood ...
This study was performed with the three main goals. The first of which includes the implementation o...
Digital video magnification is a computer-based microscope, which is useful to detect subtle changes...
Digital video magnification is a computer-based microscope, which is useful to detect subtle changes...
The micro-biology videos often contain motions of particles which are not visible to naked eye. Ther...
A standard video can have small video motions that are difficult to see by naked eye because of it l...
Our goal is to reveal temporal variations in videos that are difficult or impossible to see with the...
Eulerian video magnification method may be used for visualization of the pulse in the videosequence ...
This paper proposes a modification approach for phased-based EVM in order to reduce the processing t...
Measuring pulse rate by means of video recording of the wrist area is a non-invasive approach. Euler...
The use of spatiotemporal video processing to extract biosignals is an emerging technique. This pape...
V této práci si přiblížíme problematiku eulerovské video-magnifikace (EVM), její počátky a inovace, ...
Our thesis work is based on revealing minor informative variations in a video which are hard to perc...
The ability to amplify or reduce subtle image changes over time is useful in contexts such as video ...
A new quality of microscopy, called video microscopy, emerges, if one observes the specimen instead ...