The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. XXXVII. Part B5. Beijing 2008
3. CRANIOFACIAL SPATIAL DATA REDUCTION
SYSTEM
The data reduction system involved with the method used to
process the raw data (as acquired using data acquisition system).
The method used consisted of pre and post processing of the
raw data. There are two types of data pre and post processing
tasks involved in the project. The first pre and post processing
task involved the processing of image datasets (as acquired
using camera system), while the second one involved with the
processing of 3D laser scanner point clouds data. The details
of the data processing are as below:
3.1 Pre and Post Processing of Images Acquired from the
Camera System
The acquired stereo and convergent images involved with two
pre-processing tasks. The first task involved with
photogrammetric triangulation process. The aim of the process
is to measure the 3D coordinates of the natural landmarks on the
craniofacial surface. The 3D coordinates were than use as
control points in photogrammetric absolute orientation process
(Figure 16 and Figure 18).
Figure 16. The flowchart to show the measurement of natural
features 3D XYZ coordinates using Photogrammetric
Triangulation process
Figure 17. The flowchart to show the stereophotogrammetric
measurement process of stereo images using DVP
Photogrammetric System
Figure 18. Measurement of natural features using convergent
photogrammetric method
The stereo images were than proceed with the photogrammetric
stereo orientation which involved interior, relative and absolute
orientation process to generate the stereo model. The stereo
vectorization was than applied to digitize the 3D XYZ
coordinates of the craniofacial landmarks (see Figure 17 and
Figure 19). The accuracy of the stereo digitizing process was
evaluated using the RMS value of the absolute orientation. Most
of the cases in craniofacial mapping required the RMS value of
0.5mm for X, Y and Z coordinates, respectively.
Figure 19. Post processing of stereo images using DVP system.
3.2 Pre and Post Processing of 3D Laser Scanning Datasets
The data processing of the 3D laser scanning datasets involved
with six common 3D laser modeling process which consists of
filtering noise, initial registration and fine registration of the
two shells, merging, holes filling and smoothing (as in Figure
20 and Figure 21). The common processing steps mentioned
above was offered by most of the laser scanning data processing
software such as RapidForm 2004 (INUS Technology, Korea)
and Polygon Editing Tools (PET) software (Konica Minolta,
Japan).
Figure 20. The flowchart show the pre-processing steps to
process the 3D laser scanning datasets
The post processing involved with the measurement of
craniofacial landmarks on the 3D craniofacial surface model.
The process required the user to identify the location of the
landmarks on the 3D surface based on the terrain (DTM) of the
surface and the break-surface, and finally the location was
digitized. RapidForm 2004 software offered auto-measure
function to measure slope distance, along surface distance and
angle between the selected landmarks.
