Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Enhancing Geomatics Techniques for Cultural Heritage through Multiwavelength Recording and Metric Data Fusion
The preservation and conservation of cultural heritage assets are elaborate tasks that abound with challenges. Geometrical complexity, multiplicity and degradation of materials, varying historical construction techniques, and a plethora of other intrinsic and extrinsic factors—including environmental pressures and past anthropogenic interventions—induce problems for protecting the historic built environment, archaeological remains, and antiquities. Therefore, extensive knowledge of these parameters is required to ensure the effectiveness of any implemented intervention. Thus, the comprehensive documentation and condition inspection become necessary to holistically address the state of preservation in order to understand the prevailing problems that place cultural heritage assets at risk. Furthermore, monitoring the state of preservation through time is fundamental for effectively interpreting the occurring degradation phenomena and a powerful tool for the decision-making process regarding material heritage protection. Systematic nondestructive acquisition and integrated processing of multisource scientific data play an essential role in surveying the state of preservation of cultural heritage assets. The need for multidisciplinary inspection methodologies has been frequently stressed in literature, mainly in application cases of monumental heritage and objects of outstanding value presenting extensive degradation. Likewise, the non-destructiveness of monitoring methods has often been highlighted as an important factor for safeguarding the condition of significantly deteriorated or already at-risk assets. Hence, active and passive close-range nondestructive sensing techniques and appropriate signal processing methods are regularly used as nondestructive sources of multi-disciplinary data useful for inspection and monitoring applications. Individual close-range sensing methods, including techniques for reality-based geometric recording of cultural heritage, are often considered separate practices. However, their ...
Enhancing Geomatics Techniques for Cultural Heritage through Multiwavelength Recording and Metric Data Fusion
The preservation and conservation of cultural heritage assets are elaborate tasks that abound with challenges. Geometrical complexity, multiplicity and degradation of materials, varying historical construction techniques, and a plethora of other intrinsic and extrinsic factors—including environmental pressures and past anthropogenic interventions—induce problems for protecting the historic built environment, archaeological remains, and antiquities. Therefore, extensive knowledge of these parameters is required to ensure the effectiveness of any implemented intervention. Thus, the comprehensive documentation and condition inspection become necessary to holistically address the state of preservation in order to understand the prevailing problems that place cultural heritage assets at risk. Furthermore, monitoring the state of preservation through time is fundamental for effectively interpreting the occurring degradation phenomena and a powerful tool for the decision-making process regarding material heritage protection. Systematic nondestructive acquisition and integrated processing of multisource scientific data play an essential role in surveying the state of preservation of cultural heritage assets. The need for multidisciplinary inspection methodologies has been frequently stressed in literature, mainly in application cases of monumental heritage and objects of outstanding value presenting extensive degradation. Likewise, the non-destructiveness of monitoring methods has often been highlighted as an important factor for safeguarding the condition of significantly deteriorated or already at-risk assets. Hence, active and passive close-range nondestructive sensing techniques and appropriate signal processing methods are regularly used as nondestructive sources of multi-disciplinary data useful for inspection and monitoring applications. Individual close-range sensing methods, including techniques for reality-based geometric recording of cultural heritage, are often considered separate practices. However, their ...
Enhancing Geomatics Techniques for Cultural Heritage through Multiwavelength Recording and Metric Data Fusion
adamopoulos (Autor:in) / adamopoulos
01.01.2022
Hochschulschrift
Elektronische Ressource
Englisch
DDC:
710
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