6. APPROACH TO THE AUTOMATIC RESTORATION 6.2 Search of adaptation of the cross section
At present, though it is possible to restore a relic from
fragments in virtual space, the restoration task is only moved
from real space to virtual space. Though no damage is given to
virtual fragments at all, the restoration task is still done by the
manual operation. Under the present circumstances, the increase
of the restoration task efficiency cannot be expected. Then, the
automatic restoration is desired. As an approach for the
automatic restoration, followings are regarded.
• The expectation of the relics by the nature of the soil and
the find site.
• The utilization of the curvature of the model.
• The resemblance between cross sections of two
fragments.
This knowledge is important with the restoration work but it is
difficult for the computer to use this knowledge. The restoration
task is usually done by exploiting, features obtained from the
cross sections of fragments in the real space. And, much more
precise information on the cross section of each fragment can
be obtained with X-ray CT rather than the laser measurement.
Therefore, we aim at the automatic restoration based on the
former strategy.
6.1 Cross section & point extraction
It is necessary to extract the cross section of a fragment in order
to find a counter part. As extracting method, normal vectors of
the cross section are used. The normal vector is a perpendicular
vector to the surface. In comparison with the normal vectors of
the neighbors by extracting one with different angle, the cross
section can be found as shown in Figure 16.
imuir
(a)abrupt vector (b)smooth vector
Figure 16. Cross section definition
However, this method extracts the cross section as a cluster of
points. To create list structure automatically from the point
group at present is a difficult problem. Because this problem
seems to be solved in the other field, we create list structure by
the manual operation.
If a counter part is selected among the all other fragments using
the cross section information, the system will suffer from the
inefficiency. Then, to aim only at the cross section information,
we define a rapidly changing point as a cross point. Figure 17
shows a cross section & cross points of the fragment.
Figure 17. The cross section & point
When we restore the relic, the tendency that relic is restored by
the pair is strong. When restoring more than two as shown in
Figure 18, a pair isn't often made. Therefore, it is possible to
discover a pair efficiently using the cross point. By re-forming
cross point after assembling fragments, the new pair can be
discovered.
Figure 18. The order of a counter part
Using the normal vector, we search a corresponding cross
section with pair. When the amount of the normal vector in the
mutual cross section becomes 0, we define as the corresponding
cross section.
6.3 Automatic restoration example using the cross point
We do automatic restoration using the cross point. We measure
the curve distance value of the cross section which is caught in
the cross point as shown in Figure 19. The numerical value of
the Figure 19 is the curve distance value of the cross section.
Because we cannot search the right cross section, we cut off a
curve distance below 100 pixels. We compute the amount of the
normal vector in the cross section with near curve distance
value (±5%).
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Figure 19. The automatic restoration example by using a
point: 1
The search in the cross section with near curve distance value
was 19 patterns. By worker's excluding fragments with different
thickness, we chose 5 patterns as shown in Figure 20.
Moreover, we got the result as shown in the Figure 21 by more
searching. Then, we find that the [2,7] pair of the Figure 20 is a
mistaken result. Because the computer can handle overlapping
fragments, the trial and error is easy. In the last, we got a result
as shown in Figure 22.
The error is bom whenever continuing restoration, and cracks
are built. However, by this automatic restoration result, we can
imagine the whole shape of relic. By getting a relic number
from this automatic restoration result, this system is useful as
the restoration simulator.
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