Abstract
The conservation of historic structures requires detailed knowledge of their state of preservation. Documentation of deterioration makes it possible to identify risk factors and interpret weathering mechanisms. It is usually performed using non-destructive methods such as mapping of surface features. The automated mapping of deterioration is a direction not often explored, especially when the investigated architectural surfaces present a multitude of deterioration forms and consist of heterogeneous materials, which significantly complicates the generation of thematic decay maps. This work combines reflectance imaging and supervised segmentation, based on machine learning methods, to automatically segment deterioration patterns on multispectral image composites, using a weathered historic fortification as a case study. Several spectral band combinations and image classification techniques (regression, decision tree, and ensemble learning algorithmic implementations) are evaluated to propose an accurate approach. The automated thematic mapping facilitates the spatial and semantic description of the deterioration patterns. Furthermore, the utilization of low-cost photographic equipment and easily operable digital image processing software adds to the practicality and agility of the presented methodology.
Highlights
Architectural heritage possesses outstanding value while concomitantly comprises a fundamental manifestation of sociocultural identity
Recording the preservation state of a historic structure is a crucial prerequisite for pathology diagnosis
Architectural surfaces of historic structures are subjected to continuous alterations due to exposure to environmental conditions, microorganisms, pollution, anthropogenic damages; their susceptibility to decay depends on conservation interventions of the past and the inherent characteristics of historic materials
Summary
Architectural heritage possesses outstanding value while concomitantly comprises a fundamental manifestation of sociocultural identity. Defining the data recording techniques that will provide rich and suitable information about the extent and forms of deterioration is essential for condition documentation. To the greatest extent possible, recording should be non-destructive, meaning that it should encompass those nonintrusive inspection and sensing techniques that do not cause further damage to, nor impair the future usefulness of the structure and the historic materials. Architectural surfaces of historic structures are subjected to continuous alterations due to exposure to environmental conditions, microorganisms, pollution, anthropogenic damages; their susceptibility to decay depends on (incompatible) conservation interventions of the past and the inherent characteristics of historic materials. Mapping is a valuable non-destructive method as it facilitates the description, registration, and quantification of the, often overlapping, multitude of surface patterns on historic structures. Mapping supports the interpretation of weathering phenomena when combined with data from non-destructive testing (NDT) [8, 9, 17,18,19,20, 22, 24, 25], laboratory mineralogical, chemical and physical characterization [15, 18, 19, 23, 26], and environmental measurements [8, 12, 18, 19, 25, 27]
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