Abstract
Abstract. Castellated walls are positioned as tangible cultural heritage, which require regular maintenance to preserve their original state. For the demolition and repair work of the castellated wall, it is necessary to identify the individual stones constituting the wall. However, conventional approaches using laser scanning or integrated circuits (IC) tags were very time-consuming and cumbersome. Therefore, we herein propose an efficient approach for castellated wall management based on an extended multiscale image segmentation technique. In this approach, individual stone polygons are extracted from the castellated wall image and are associated with a stone management database. First, to improve the performance of the extraction of individual stone polygons having a convex shape, we developed a new shape criterion named convex hull fitness in the image segmentation process and confirmed its effectiveness. Next, we discussed the stone management database and its beneficial utilization in the repair work of castellated walls. Subsequently, we proposed irregular-shape indexes that are helpful for evaluating the stone shape and the stability of the stone arrangement state in castellated walls. Finally, we demonstrated an application of the proposed method for a typical castellated wall in Japan. Consequently, we confirmed that the stone polygons can be extracted with an acceptable level. Further, the condition of the shapes and the layout of the stones could be visually judged with the proposed irregular-shape indexes.
Highlights
Castellated wall is a type of masonry building and is positioned as tangible cultural heritage, which require regular maintenance to preserve their originality and to conserve them for ages to come
We propose an original shape criterion named as convex hull fitness in this process, which is newly introduced by considering the shape property of the stone
We have proposed an efficient multiscale imagesegmentation-based castellated wall management, in which stone polygons are extracted from the orthographic-projected castellated wall image and are associated with the stone management database
Summary
Castellated wall is a type of masonry building and is positioned as tangible cultural heritage, which require regular maintenance to preserve their originality and to conserve them for ages to come. The first one is to generate a front view of the stone walls by laser scanning them (Křemen et al, 2011; Vacca et al, 2012) With this approach, it is possible to manage the distribution state of the stones with respect to the surface of the stone wall, the individual properties of each stone (e.g., surface texture, planer dimension, georeferenced position, etc.) cannot be properly managed. An orthographic projected elevation view of a castellated wall is used to extract the individual stone polygons To realize this procedure automatically, an extended multiscale image segmentation technique is applied.
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