Add to ORKGA 3-D phase object reconstruction is usually studied by using optical tomography. In this paper, the reconstruction for the 3-D asymmetric temperature field is studied using the convolution backprojection algorithm by means of computer simulation. It proves that the algorithm is feasible and accurate. Based on the computer simulation, reconstruction of a 3-D asymmetric temperature field is realized by using the algorithm to deal with speckle photography
This paper presents an experimental investigation, visualization and validation in the three-dimensi...
‚aser speckle photography measures projected beam deßection of a phase object. „he beam deßection me...
Non-intrusive measurement of fluid temperature using laser interferometry is reported. As a case stu...
Schlieren optical technique is used to collect multidirectional experimental data, proving to be a p...
This paper presents a digital holographic method for measurement and visualization of temperature di...
This paper presents a digital holographic multidirectional interferometric method for meas...
This paper presents a digital holographic multidirectional interferometric method for measurement of...
Optical holography can be used to record multi-directional interferometric data, which provides a ba...
The object of this work is primarily to evaluate three-dimensional temperature field reconstruction ...
The shape of a crystal growing from a supercooled pure melt is influenced by the temperature-depende...
Accuracy and speed of algorithms play an important role in the reconstruction of temperature field m...
To measure non-symmetric unsteady three dimensional temperature distribution in flame by simple, eco...
We report an original on-line optical diagnostics technique for the vision-based tomographic reconst...
This paper presents the reconstruction of 3-D (three-dimensional) flame temperature and emissivity d...
This paper presents the technique which combines optical tomographic and two-color parametric techni...
This paper presents an experimental investigation, visualization and validation in the three-dimensi...
‚aser speckle photography measures projected beam deßection of a phase object. „he beam deßection me...
Non-intrusive measurement of fluid temperature using laser interferometry is reported. As a case stu...
Schlieren optical technique is used to collect multidirectional experimental data, proving to be a p...
This paper presents a digital holographic method for measurement and visualization of temperature di...
This paper presents a digital holographic multidirectional interferometric method for meas...
This paper presents a digital holographic multidirectional interferometric method for measurement of...
Optical holography can be used to record multi-directional interferometric data, which provides a ba...
The object of this work is primarily to evaluate three-dimensional temperature field reconstruction ...
The shape of a crystal growing from a supercooled pure melt is influenced by the temperature-depende...
Accuracy and speed of algorithms play an important role in the reconstruction of temperature field m...
To measure non-symmetric unsteady three dimensional temperature distribution in flame by simple, eco...
We report an original on-line optical diagnostics technique for the vision-based tomographic reconst...
This paper presents the reconstruction of 3-D (three-dimensional) flame temperature and emissivity d...
This paper presents the technique which combines optical tomographic and two-color parametric techni...
This paper presents an experimental investigation, visualization and validation in the three-dimensi...
‚aser speckle photography measures projected beam deßection of a phase object. „he beam deßection me...
Non-intrusive measurement of fluid temperature using laser interferometry is reported. As a case stu...