Add to ORKGAutomatically adapting the camera exposure time is crucial for industrial applications where minimum human intervention is usually desirable. However, it is very challenging to realize such a capability for a conventional fringe projection system where only a finite increment of the exposure time is allowed due to its digital fringe generation nature. Our recent study on generating sinusoidal fringe patterns by properly defocusing binary ones permits the use of an arbitrary exposure time. This provides the potential to adapt the exposure time automatically. This paper will present the principle of an automatic exposure technique and show some experimental results
A recently proposed flexible 3D shape measurement technique using a defocused projector [ Opt. Lett....
A widely used method in high-speed 3D shape measurement, color-code fringe projection requires the p...
High-resolution three-dimensional (3D) shape reconstruction of objects has huge potential for applic...
Automatically adapting the camera exposure time is crucial for industrial applications where minimum...
With the recent advancements in digital technology, three-dimensional (3-D) shape measurement has pl...
This paper presents a real-time 3-D, or 4-D, shape measurement technique that can reach the speed li...
We present a high-resolution, high-speed three-dimensional (3-D) shape measurement technique that ca...
This paper presents a technique that reaches 3-D shape measurement speed beyond the digital-light-pr...
This paper analyzes the phase error for a three-dimensional (3D) shape measurement system that utili...
To circumvent the problems induced by nonlinear gamma of the commercial video projector, we recently...
This paper analyzes the phase error for a 3-D shape measurement system that utilizes our recently pr...
Recently, a study showed that generating sinusoidal fringe patterns by properly defocusing binary on...
Many industrial applications require accurate and rapid measurement of the 3-D shapes of physical ob...
Recently introduced DLP Discovery technology allows for tens of kHz binary image switching, which ha...
A widely used method in high-speed 3D shape measurement, color-code fringe projection requires the p...
A recently proposed flexible 3D shape measurement technique using a defocused projector [ Opt. Lett....
A widely used method in high-speed 3D shape measurement, color-code fringe projection requires the p...
High-resolution three-dimensional (3D) shape reconstruction of objects has huge potential for applic...
Automatically adapting the camera exposure time is crucial for industrial applications where minimum...
With the recent advancements in digital technology, three-dimensional (3-D) shape measurement has pl...
This paper presents a real-time 3-D, or 4-D, shape measurement technique that can reach the speed li...
We present a high-resolution, high-speed three-dimensional (3-D) shape measurement technique that ca...
This paper presents a technique that reaches 3-D shape measurement speed beyond the digital-light-pr...
This paper analyzes the phase error for a three-dimensional (3D) shape measurement system that utili...
To circumvent the problems induced by nonlinear gamma of the commercial video projector, we recently...
This paper analyzes the phase error for a 3-D shape measurement system that utilizes our recently pr...
Recently, a study showed that generating sinusoidal fringe patterns by properly defocusing binary on...
Many industrial applications require accurate and rapid measurement of the 3-D shapes of physical ob...
Recently introduced DLP Discovery technology allows for tens of kHz binary image switching, which ha...
A widely used method in high-speed 3D shape measurement, color-code fringe projection requires the p...
A recently proposed flexible 3D shape measurement technique using a defocused projector [ Opt. Lett....
A widely used method in high-speed 3D shape measurement, color-code fringe projection requires the p...
High-resolution three-dimensional (3D) shape reconstruction of objects has huge potential for applic...