Add to ORKGThis paper analyzes the phase error for a three-dimensional (3D) shape measurement system that utilizes our recently proposed projector defocusing technique. This technique generates seemingly sinusoidal structured patterns by defocusing binary structured patterns and then uses these patterns to perform 3D shape measurement by fringe analysis. However, significant errors may still exist if an object is within a certain depth range, where the defocused fringe patterns retain binary structure. In this research, we experimentally studied a large depth range of defocused fringe patterns, from near-binary to near-sinusoidal, and analyzed the associated phase errors. We established a mathematical phase error function in terms of the wrapped phase...
We present a high-resolution, high-speed three-dimensional (3-D) shape measurement technique that ca...
A widely used method in high-speed 3D shape measurement, color-code fringe projection requires the p...
This paper presents a thorough comparison between a phase-based and an intensity-based optimization ...
This paper analyzes the phase error for a 3-D shape measurement system that utilizes our recently pr...
This paper analyzes the phase error for a three-dimensional (3D) shape measurement system that utili...
Abstract Background The accuracy of three-dimensional measurement of object surface is always affect...
Optical 3D measurement systems are used in a lot of applications, for instance for quality control a...
Our study shows that the phase error caused by improperly defocused binary structured patterns corre...
The previously proposed binary defocusing technique and its variations have proven successful for hi...
This paper presents a real-time 3-D, or 4-D, shape measurement technique that can reach the speed li...
The fringe projection profilometry with sinusoidal patterns based on phase-shifting algorithms is co...
Three-dimensional (3D) shape measurement and imaging technique, for determining the 3D shape of obje...
In order to acquire an accurate three-dimensional (3D) measurement, the traditional fringe projectio...
Fringe projection technologies have been widely used for three-dimensional (3D) shape measurement. O...
A recently proposed flexible 3D shape measurement technique using a defocused projector [ Opt. Lett....
We present a high-resolution, high-speed three-dimensional (3-D) shape measurement technique that ca...
A widely used method in high-speed 3D shape measurement, color-code fringe projection requires the p...
This paper presents a thorough comparison between a phase-based and an intensity-based optimization ...
This paper analyzes the phase error for a 3-D shape measurement system that utilizes our recently pr...
This paper analyzes the phase error for a three-dimensional (3D) shape measurement system that utili...
Abstract Background The accuracy of three-dimensional measurement of object surface is always affect...
Optical 3D measurement systems are used in a lot of applications, for instance for quality control a...
Our study shows that the phase error caused by improperly defocused binary structured patterns corre...
The previously proposed binary defocusing technique and its variations have proven successful for hi...
This paper presents a real-time 3-D, or 4-D, shape measurement technique that can reach the speed li...
The fringe projection profilometry with sinusoidal patterns based on phase-shifting algorithms is co...
Three-dimensional (3D) shape measurement and imaging technique, for determining the 3D shape of obje...
In order to acquire an accurate three-dimensional (3D) measurement, the traditional fringe projectio...
Fringe projection technologies have been widely used for three-dimensional (3D) shape measurement. O...
A recently proposed flexible 3D shape measurement technique using a defocused projector [ Opt. Lett....
We present a high-resolution, high-speed three-dimensional (3-D) shape measurement technique that ca...
A widely used method in high-speed 3D shape measurement, color-code fringe projection requires the p...
This paper presents a thorough comparison between a phase-based and an intensity-based optimization ...