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fields of information, 24-bit color and enhanced image quality 
resolution. Video captured is about 7 minutes per Gigabyte. 
It is also possible to adjust video settings such as bright 
ness, contrast, saturation, hue, black level. 
The capture of single frames followed a series of different 
steps: digital acquisition of the analogical videorecording, 
and then its display at 10 frames and at 1 frame. Because 
of the low resolution of the outcoming images, four frames 
were acquired instead of only one frame. So, the pixel size 
on the object was reduced to about 1,5 cm, under the 
same pixel size of the image (figure 1). 
Then, the chosen frames were recorded and four digital 
images were obtained. It is possible to export the images 
as PICT or Quicktime files. In the present experiment, the 
acquired images were exported as PICT files. 
Regarding definition and loss of information, the quality of 
the images was poor. 
Acquisition by Avid MCXpress. Avid MCXpress is a soft 
ware for personal computer that requires extra pieces of 
hardware which are: Avid Broadcast Video Board, JPEG 
advanced compression video board, Audiomedia III audio 
board and an accelerator SCSI board two-way ATT/PCI. 
The pieces of hardware used in the present experiment 
were the following: video recording; TV monitor; computer 
PowerPC Macintosh 9500; Ram 96MB; two units hard disk 
in stripe AVID; a high- resolution monitor with a capability 
to reproduce millions of colours. 
With the above-mentioned software, the videorecording 
was displayed on the monitor and the various settings 
were adjusted (i.e. the radiometric calibration). It was also 
possible to choose the format of television transmission 
standard, Pal or NTSC. 
The film was captured in digital format and then the 
images to acquire were chosen by viewing individual 
frames. It is possible to choose between one or two fields 
of information. The images can be exported as PICT anti 
aliasing, Quicktime or OMFI files. In the present experi 
ment, two PICT files were exported, the first one with one 
field and the second one with two fields of information. 
The image with one field was better than the other one. 
The pixel size on the object was about 1,5 cm (figure 2). 
Acquisition by Avid Videoshop 3.0. Avid Videoshop is a 
software that can be used with a personal computer fur 
nished with an Audio Video (A/V) in and out system, with- 
Figure 2 - Image Acquired by MCX Press 
out additional hardware. The pieces of hardware used in 
the present experiment were the following: video-recorder 
Schaub-Lorenz HQ VHS 3 Head; computer PowerPC 
Macintosh 8500, 604e 180 Mhz, Ram 64 Mb, HDD 2 GB, 
Vram 4 Mb 128 bit, video Mac Picasso board (primary 
monitor), Vram 2 Mb, 64 bit (secondary monitor), AV in and 
out system; a high-resolution 17” monitor with a capability 
to reproduce millions of colours. 
The arrangement AV-in allows to connect the computer 
with a video recorder and can turn an analogical video 
recording into a digital one. Videorecording is viewed at 
the monitor, in a window, and it is possible to adjust vari 
ous settings such as brightness, contrast, saturation, hue, 
black level, and to choose between different kind of com 
pression. It is also possible to choose the format of the 
video transmission standard, PAL or NTSC. 
The film can be viewed at various speeds, the lowest at 1 
frame per second. The acquisition of the selected frames 
occurs in real time. 
As in the previous case, four frames were acquired instead 
of only one frame of the facade. The images were exported 
as PICT files. The pixel size on the object was about 1,5 cm. 
Analysis of Results Obtained. The captured images 
were analysed and comparisons among them were made, 
particularly about colour quality, sharpness, definition and 
absence of blurring. The software Avid Media Suite Pro 
provided poor image quality. As a result, these images 
were rejected because they were not suitable for the pur 
pose of rectification. The software MCXpress delivered 
almost good images quality, but the best image quality was 
that provided by software Avid Videoshop. Moreover, this 
software is cheaper than MCX system, and it can be used 
on a personal computer without purchasing extra hard 
ware, a great advantage for home users. 
Extremely important for the image quality, and particularly 
for image definition, was setting the digital acquisition at the 
lowest compression. It is also important the possibility of 
setting the images with one or two fields of information. As 
a matter of fact, the quality of a digital video image is deter 
mined by its resolution, and by the number of fields or pic 
tures included. The experiment demonstrated that the qual 
ity of the images acquired with one field is better when they 
are used as a static image, captured from a video, and not 
as a frame of a film (moving images). Indeed, in this case 
the one field image appears more definite and clear, and the 
boundaries of the single objects on the image are sharper. 
The images chosen for rectification were those produced 
by Avid Videoshop. Before the rectification, the four 
images were imported into Adobe Photoshop software in 
order to reduce the different level of colours among the 
four pictures, due to changes in the illumination of the 
facade during the shooting (figure 3). 
3.3 Rectification 
The rectification of the four images was done by 
Rolleimetric MSR. This is a software for the rectification of 
metric and non-metric images, and for the automatic pro 
duction of a mosaic. It is possible to check the precision of 
single points, by collimating them on the video; it is also 
possible to record the collimated points. The following was 
used: computer PC Pentium 133 Mhz, Ram 64 Mb, HDD 
2 GB, and a high-resolution 17” monitor with a capability to