In a recent published work, we developed the technique to enhance the reliability of absolute phase maps by using the fringes of three spatial frequencies. However, it is time-consuming to capture the fringe images of three spatial frequencies with single channel in time sequence. To increase the efficiency of our proposed three-frequency technology, in this paper we propose a method to capture the fringe images of three spatial frequencies with multi-color channels and 3CCD camera. The projected spatial frequencies can be selected to guarantee the correctness of recovered fringe orders and avoid the chromatic aberration effect on frequency distortion. The cross talk among color channels can be eliminated effectively and the measured object...
In order to acquire an accurate three-dimensional (3D) measurement, the traditional fringe projectio...
A simple technique for wavefront measurement is presented. This technique is based on the use of a c...
The refractive index of a lens varies for different wavelengths of light, and thus the same incident...
In a recent published work, we proposed a technique to recover the absolute phase maps of fringe pat...
In a recent published work we develop the technique to enhance the reliability of absolute phase map...
-In a recent published work we proposed a technique to recover the absolute phase maps of three sets...
In a recent work, a technique was proposed to recover the absolute phase maps of fringe patterns wit...
In fringe projection profilometry, three-dimensional reconstruction result with higher spatial resol...
Fringe projection technologies have been widely used for three-dimensional (3D) shape measurement. O...
In a recently published work, we proposed a technique to recover the absolute phase maps from the wr...
In order to decrease the noise enhancement in the process of phase unwrapping, we present a new phas...
Fringe projection systems have been widely applied in three-dimensional (3D) shape measurements. One...
Fringe projection profilometry (FPP) has been broadly employed for three-dimensional shape measureme...
Phase shift methods have proven to be very robust and accurate for photometric 3D reconstruction. On...
This paper proposes a novel phase-shifting method for fast, accurate, and unambiguous 3D shape measu...
In order to acquire an accurate three-dimensional (3D) measurement, the traditional fringe projectio...
A simple technique for wavefront measurement is presented. This technique is based on the use of a c...
The refractive index of a lens varies for different wavelengths of light, and thus the same incident...
In a recent published work, we proposed a technique to recover the absolute phase maps of fringe pat...
In a recent published work we develop the technique to enhance the reliability of absolute phase map...
-In a recent published work we proposed a technique to recover the absolute phase maps of three sets...
In a recent work, a technique was proposed to recover the absolute phase maps of fringe patterns wit...
In fringe projection profilometry, three-dimensional reconstruction result with higher spatial resol...
Fringe projection technologies have been widely used for three-dimensional (3D) shape measurement. O...
In a recently published work, we proposed a technique to recover the absolute phase maps from the wr...
In order to decrease the noise enhancement in the process of phase unwrapping, we present a new phas...
Fringe projection systems have been widely applied in three-dimensional (3D) shape measurements. One...
Fringe projection profilometry (FPP) has been broadly employed for three-dimensional shape measureme...
Phase shift methods have proven to be very robust and accurate for photometric 3D reconstruction. On...
This paper proposes a novel phase-shifting method for fast, accurate, and unambiguous 3D shape measu...
In order to acquire an accurate three-dimensional (3D) measurement, the traditional fringe projectio...
A simple technique for wavefront measurement is presented. This technique is based on the use of a c...
The refractive index of a lens varies for different wavelengths of light, and thus the same incident...