Add to ORKGPhase ambiguity is a major problem in the depth measurement in either time-of-flight or phase shifting. Resolving the ambiguity using a low frequency pattern sacrifices the depth precision, and using multiple frequencies requires a number of observations. In this paper, we propose a phase disambiguation method that combines temporal and spatial modulation so that the high depth precision is preserved while the number of observation is small. A key observation is that the phase ambiguities of temporal and spatial domains appear differently with respect to the depth. Using this difference, the phase can disambiguate for a wider range of interest. We develop a prototype to show the effectiveness of our method through real-world experiments
The present invention is a phase-imaging technique by digital holography that eliminates the problem...
Phase shift methods have proven to be very robust and accurate for photometric 3D reconstruction. On...
In order to maintain lateral resolution while maximizing investigation depth in a multichannel surfa...
Time-of-flight range imaging is typically performed with the amplitude modulated continuous wave met...
Phase shift methods have proven to be very robust and accurate for photometric 3D reconstruction. On...
A simpler and faster technique for depth estimation, based on phase measurements of disparity, is pr...
Abstract: Range imaging systems use a specialised sensor to capture an image where object distance (...
AbstractWe investigated the spatial parameters that permit temporal phase segmentation. Subjects ide...
This thesis regards the method of full field time-of-flight depth imaging by way of amplitude modula...
AbstractThe depth of each point on a binocularly presented untextured horizontal bar is physically a...
Abstract The fringe pattern can realize high-resolution and dense depth sensing. However, the phase ...
We present a digital holographic method to increase height range measurement with a reduced phase am...
This paper proposes novel density modulated binary pat-terns for depth acquisition. Similar to Kinec...
In this paper we introduce an efficient method to unwrap multi-frequency phase estimates for time-of...
Phase-imaging techniques extract the optical path length information of a scene, whereas wavefront s...
The present invention is a phase-imaging technique by digital holography that eliminates the problem...
Phase shift methods have proven to be very robust and accurate for photometric 3D reconstruction. On...
In order to maintain lateral resolution while maximizing investigation depth in a multichannel surfa...
Time-of-flight range imaging is typically performed with the amplitude modulated continuous wave met...
Phase shift methods have proven to be very robust and accurate for photometric 3D reconstruction. On...
A simpler and faster technique for depth estimation, based on phase measurements of disparity, is pr...
Abstract: Range imaging systems use a specialised sensor to capture an image where object distance (...
AbstractWe investigated the spatial parameters that permit temporal phase segmentation. Subjects ide...
This thesis regards the method of full field time-of-flight depth imaging by way of amplitude modula...
AbstractThe depth of each point on a binocularly presented untextured horizontal bar is physically a...
Abstract The fringe pattern can realize high-resolution and dense depth sensing. However, the phase ...
We present a digital holographic method to increase height range measurement with a reduced phase am...
This paper proposes novel density modulated binary pat-terns for depth acquisition. Similar to Kinec...
In this paper we introduce an efficient method to unwrap multi-frequency phase estimates for time-of...
Phase-imaging techniques extract the optical path length information of a scene, whereas wavefront s...
The present invention is a phase-imaging technique by digital holography that eliminates the problem...
Phase shift methods have proven to be very robust and accurate for photometric 3D reconstruction. On...
In order to maintain lateral resolution while maximizing investigation depth in a multichannel surfa...