Akademik Veri Yönetim Sistemi
UBMK 2021, Ankara, Türkiye, 15 Eylül - 17 Ekim 2021, ss.528-532
Reassembling fractured
objects has many popular applications, such as relics restoration and solving
puzzle.Mostly corrosions are
encountered on the shared regions of the fractured object pieces and this data
loss makes the reassembly process much more difficult. In this study a minimum
bounding box (MBB) based alignment and key-point based matching method is
proposed. Our method first divides every single fractured object piece into
regions and generates MBB for each region. Then the key-points are determined
based on the distances of the middle surface computed from two opposing
surfaces of the MBB of the base region. Matching
between the base and the candidate regions is carried out depending on similarities
of the distances computed according to key-points. The alignment surface
is one of the MBB surfaces of the base region and candidate regions are also
regenerated on the alignment surface, so the base and the candidate regions are
aligned in this manner. We have tested our
alignment and matching method on sample fractured corroded objects. The similarity
results show that the proposed method aligns and matches right candidate region
from other candidates accurately.