Add to ORKGArtefacts and noise degrade the decoded image of a wavefront coding infrared imaging system, which usually results in the decoded image being inferior to the in-focus infrared image of a conventional infrared imaging system. The previous letter showed that the decoded image fell behind the in-focus infrared image. For comparison, a bar target experiment at temperature of ﹢20°C and two groups of outdoor experiments at temperatures of ﹢28°C and ﹢70°C are respectively conducted. Experimental results prove that a wavefront coding infrared imaging system can achieve the decoded image being approximating to its corresponding in-focus infrared image
In pulsed thermography the sample to test is briefly heated with a Dirac δ heat impulse and then obs...
The main effect of temperature change on infrared imaging system is the focus shift of infrared lens...
The acquisition of images in video recording is inherently a sampling process. In most current syste...
Artefacts and noise degrade the decoded image of a wavefront coding infrared imaging system, which u...
Abstract Because of obvious drawbacks including serious artefacts and noise in a decoded image, the ...
110 °C range athermalization is significant but difficult for designing infrared imaging sy...
The aim of the work reported in this thesis was to investigate the physical principles and potential...
By an experimental finding, for a given radiant point source and a given infrared detector sampling,...
Wavefront coding (WFC) is a powerful hybrid optical-numerical technique for increasing the depth of ...
The design of modern imaging systems is intricately concerned with the control of optical aberration...
The point spread function (PSF) inconsistency caused by temperature variation leads to artifacts in ...
Third-generation thermal cameras have high dynamic range (up to 14 bits) and collect images that are...
There have been numerous applications of superresolution reconstruction algorithms to improve the ra...
Implementation of the Johnson criteria for infrared images is the probabilities of a discrimination ...
In the framework of remote sensing, infrared (IR) cameras allow the user to sense IR radiation, simi...
In pulsed thermography the sample to test is briefly heated with a Dirac δ heat impulse and then obs...
The main effect of temperature change on infrared imaging system is the focus shift of infrared lens...
The acquisition of images in video recording is inherently a sampling process. In most current syste...
Artefacts and noise degrade the decoded image of a wavefront coding infrared imaging system, which u...
Abstract Because of obvious drawbacks including serious artefacts and noise in a decoded image, the ...
110 °C range athermalization is significant but difficult for designing infrared imaging sy...
The aim of the work reported in this thesis was to investigate the physical principles and potential...
By an experimental finding, for a given radiant point source and a given infrared detector sampling,...
Wavefront coding (WFC) is a powerful hybrid optical-numerical technique for increasing the depth of ...
The design of modern imaging systems is intricately concerned with the control of optical aberration...
The point spread function (PSF) inconsistency caused by temperature variation leads to artifacts in ...
Third-generation thermal cameras have high dynamic range (up to 14 bits) and collect images that are...
There have been numerous applications of superresolution reconstruction algorithms to improve the ra...
Implementation of the Johnson criteria for infrared images is the probabilities of a discrimination ...
In the framework of remote sensing, infrared (IR) cameras allow the user to sense IR radiation, simi...
In pulsed thermography the sample to test is briefly heated with a Dirac δ heat impulse and then obs...
The main effect of temperature change on infrared imaging system is the focus shift of infrared lens...
The acquisition of images in video recording is inherently a sampling process. In most current syste...