Add to ORKGA new autofocus algorithm based on one-dimensional Fourier transform and Pearson correlation for Z automatized microscope is proposed. Our goal is to determine in fast response time and accuracy, the best focused plane through an algorithm. We capture in bright and dark field several images set at different Z distances from biological organism sample. The algorithm uses the one-dimensional Fourier transform to obtain the image frequency content of a vectors pattern previously defined comparing the Pearson correlation of these frequency vectors versus the reference image frequency vector, the most out of focus image, we find the best focusing. Experimental results showed the algorithm has fast response time and accuracy in getting the best f...
We propose a fast and accurate autofbcus algorithm using Gaussian standard deviation and gradient-ba...
We propose a fast and accurate autofbcus algorithm using Gaussian standard deviation and gradient-ba...
This paper presents a comparison of different focus functions applied to microscopic images of blood...
We present a new algorithm to determine, quickly and accurately, the best-in-focus image of biologic...
In this paper we propose an Inverse Synthetic Aperture Radar (ISAR) autofocusing technique based on ...
Most automatic focusing methods are based on a sharpness function, which delivers a real-valued esti...
Abstract- Autofocusing is a fundamental technology for automated biological and biomedical analyses ...
Most automatic focusing methods are based on a sharpness function, which delivers a real-valued esti...
Project objectives : Interfacing the camera with the MATLAB program. Design and implementation of an...
National Natural Science Foundation of China [61705092, 11647144, 31522056]; National Natural Scienc...
AbstractThis paper presents the construction of two kinds of focusing measure operators defined in w...
An autofocus algorithm employing orthogonal series expansions is proposed. Several instances of the ...
We present an image-based autofocusing system applied in nonlinear microscopy and spectro...
Based on the wavefront sensing and propagation, the wavefront-based autofocus approach is proposed f...
The fast autofocus criterion using the phase in the Fourier domain, suitable for digital holographic...
We propose a fast and accurate autofbcus algorithm using Gaussian standard deviation and gradient-ba...
We propose a fast and accurate autofbcus algorithm using Gaussian standard deviation and gradient-ba...
This paper presents a comparison of different focus functions applied to microscopic images of blood...
We present a new algorithm to determine, quickly and accurately, the best-in-focus image of biologic...
In this paper we propose an Inverse Synthetic Aperture Radar (ISAR) autofocusing technique based on ...
Most automatic focusing methods are based on a sharpness function, which delivers a real-valued esti...
Abstract- Autofocusing is a fundamental technology for automated biological and biomedical analyses ...
Most automatic focusing methods are based on a sharpness function, which delivers a real-valued esti...
Project objectives : Interfacing the camera with the MATLAB program. Design and implementation of an...
National Natural Science Foundation of China [61705092, 11647144, 31522056]; National Natural Scienc...
AbstractThis paper presents the construction of two kinds of focusing measure operators defined in w...
An autofocus algorithm employing orthogonal series expansions is proposed. Several instances of the ...
We present an image-based autofocusing system applied in nonlinear microscopy and spectro...
Based on the wavefront sensing and propagation, the wavefront-based autofocus approach is proposed f...
The fast autofocus criterion using the phase in the Fourier domain, suitable for digital holographic...
We propose a fast and accurate autofbcus algorithm using Gaussian standard deviation and gradient-ba...
We propose a fast and accurate autofbcus algorithm using Gaussian standard deviation and gradient-ba...
This paper presents a comparison of different focus functions applied to microscopic images of blood...