Heritage ++, a Spatial Computing approach to Heritage Conservation

Yamini Patankar; Camilla Tennenini; Rafael Bischof; Ishita Khatri; Ricardo Maia Avelino; Wenqian Yang; Nijat Mahamaliyev; Fabio Scotto; Daniela Mitterberger; Bernd Bickel; Fred Girardet; Christophe Amsler; Brahimsamba Bomou; Robert J. Flatt

doi:10.21809/rilemtechlett.2024.202

Heritage ++, a Spatial Computing approach to Heritage Conservation

Yamini Patankar, Camilla Tennenini, Rafael Bischof, Ishita Khatri, Ricardo Maia Avelino, Wenqian Yang, Nijat Mahamaliyev, Fabio Scotto, Daniela Mitterberger, Bernd Bickel, Fred Girardet, Christophe Amsler, Brahimsamba Bomou, Robert J. Flatt

Architecture

Research output: Contribution to journal › Article › peer-review

Abstract

Historic structures are affected by numerous degradation processes driven by a complex system of interconnected and mutually influencing factors. Preserving these monuments is a multidisciplinary endeavour that extends beyond one-time interventions, necessitating a comprehensive methodology that involves various stakeholders, expert consultations, monitoring tools, and impact assessments. Limitations arise due to communication barriers and difficulty in translating and transferring experience among disciplines, often compromising the collective ability to define the best possible conservation strategies. Recent advancements in 3D modelling and data management technologies offer collaborative platforms for information sharing. However, the complex interfaces of these tools often limit their accessibility, making them exclusive to specialists. Integrating Spatial Computing could address these challenges by fostering intuitive engagement and enhancing accessibility and depth in interdisciplinary interactions. This letter outlines initial efforts in using spatial computing to tackle the challenges of built heritage conservation and presents a vision for its future development.

Original language	English (US)
Pages (from-to)	50-60
Number of pages	11
Journal	RILEM Technical Letters
Volume	9
DOIs	https://doi.org/10.21809/rilemtechlett.2024.202
State	Published - Sep 19 2024

All Science Journal Classification (ASJC) codes

Building and Construction
General Materials Science
General Engineering

Keywords

Built heritage conservation
Extended reality (XR) applications
Multidisciplinary collaboration
Spatial computing

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10.21809/rilemtechlett.2024.202

Cite this

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title = "Heritage ++, a Spatial Computing approach to Heritage Conservation",

abstract = "Historic structures are affected by numerous degradation processes driven by a complex system of interconnected and mutually influencing factors. Preserving these monuments is a multidisciplinary endeavour that extends beyond one-time interventions, necessitating a comprehensive methodology that involves various stakeholders, expert consultations, monitoring tools, and impact assessments. Limitations arise due to communication barriers and difficulty in translating and transferring experience among disciplines, often compromising the collective ability to define the best possible conservation strategies. Recent advancements in 3D modelling and data management technologies offer collaborative platforms for information sharing. However, the complex interfaces of these tools often limit their accessibility, making them exclusive to specialists. Integrating Spatial Computing could address these challenges by fostering intuitive engagement and enhancing accessibility and depth in interdisciplinary interactions. This letter outlines initial efforts in using spatial computing to tackle the challenges of built heritage conservation and presents a vision for its future development.",

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doi = "10.21809/rilemtechlett.2024.202",

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AU - Bischof, Rafael

AU - Khatri, Ishita

AU - Avelino, Ricardo Maia

AU - Yang, Wenqian

AU - Mahamaliyev, Nijat

AU - Scotto, Fabio

AU - Mitterberger, Daniela

AU - Bickel, Bernd

AU - Girardet, Fred

AU - Amsler, Christophe

AU - Bomou, Brahimsamba

AU - Flatt, Robert J.

PY - 2024/9/19

Y1 - 2024/9/19

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AB - Historic structures are affected by numerous degradation processes driven by a complex system of interconnected and mutually influencing factors. Preserving these monuments is a multidisciplinary endeavour that extends beyond one-time interventions, necessitating a comprehensive methodology that involves various stakeholders, expert consultations, monitoring tools, and impact assessments. Limitations arise due to communication barriers and difficulty in translating and transferring experience among disciplines, often compromising the collective ability to define the best possible conservation strategies. Recent advancements in 3D modelling and data management technologies offer collaborative platforms for information sharing. However, the complex interfaces of these tools often limit their accessibility, making them exclusive to specialists. Integrating Spatial Computing could address these challenges by fostering intuitive engagement and enhancing accessibility and depth in interdisciplinary interactions. This letter outlines initial efforts in using spatial computing to tackle the challenges of built heritage conservation and presents a vision for its future development.

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KW - Extended reality (XR) applications

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KW - Spatial computing

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Heritage ++, a Spatial Computing approach to Heritage Conservation

Abstract

All Science Journal Classification (ASJC) codes

Keywords

Access to Document

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