Voxel-Based Analysis of Long-Term Monitored Bio-Based Building Elements

Martin Tamke; Shahriar Akbari; Mette Ramsgaard Thomsen

doi:10.1007/978-3-031-68275-9_24

Voxel-Based Analysis of Long-Term Monitored Bio-Based Building Elements

Martin Tamke, Shahriar Akbari, Mette Ramsgaard Thomsen

Publications: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

Abstract

This paper introduces an innovative method for tracking and analysing the three-dimensional behaviour of materials outdoors, focusing on bio-based building elements. The constraints of current methods limit monitoring material changes over time to 2D snapshots of an initial and final state. We propose a system utilizing low-cost components like depth cameras and IoT sensors that allow for frequent 3D scans over long periods and overcome challenges such as weather conditions and IR interference. Our method includes a novel automated analysis system, which converts 3D scan data into voxel models for comprehensive evaluation. Our analysis can include different parts of the tracked properties, such as colour, depth and position, which allows us in this way to track changes on overall, region, and feature levels. This approach opens avenues for better understanding material behaviour and its implications for future design, construction and maintenance practices.

Original language	English
Title of host publication	Scalable Disruptors. DMS 2024
Publication date	30 Aug 2024
Pages	295-306
DOIs	https://doi.org/10.1007/978-3-031-68275-9_24
Publication status	Published - 30 Aug 2024
Event	Design Modelling Symposium Berlin - Uni Kassel Duration: 16 Aug 2024 → 18 Aug 2024

Conference

Conference	Design Modelling Symposium Berlin
Location	Uni Kassel
Period	16/08/2024 → 18/08/2024

Keywords

Long-term monitoring
3D scan
Material Behaviour
voxel-based modelling

Artistic research

No

Access to Document

10.1007/978-3-031-68275-9_24

ECO-METABOLISTIC-ARC: An Eco-Metabolistic Framework for Sustainable Architecture
Ramsgaard Thomsen, M. (PI)
01/11/2021 → 31/10/2026
Project: Research

Cite this

@inproceedings{697d0cf36e244fee82fff4ef45e1af15,

title = "Voxel-Based Analysis of Long-Term Monitored Bio-Based Building Elements",

abstract = "This paper introduces an innovative method for tracking and analysing the three-dimensional behaviour of materials outdoors, focusing on bio-based building elements. The constraints of current methods limit monitoring material changes over time to 2D snapshots of an initial and final state. We propose a system utilizing low-cost components like depth cameras and IoT sensors that allow for frequent 3D scans over long periods and overcome challenges such as weather conditions and IR interference. Our method includes a novel automated analysis system, which converts 3D scan data into voxel models for comprehensive evaluation. Our analysis can include different parts of the tracked properties, such as colour, depth and position, which allows us in this way to track changes on overall, region, and feature levels. This approach opens avenues for better understanding material behaviour and its implications for future design, construction and maintenance practices.",

keywords = "Long-term monitoring, 3D scan, Material Behaviour, voxel-based modelling",

author = "Martin Tamke and Shahriar Akbari and {Ramsgaard Thomsen}, Mette",

year = "2024",

month = aug,

day = "30",

doi = "10.1007/978-3-031-68275-9_24",

language = "English",

pages = "295--306",

booktitle = "Scalable Disruptors. DMS 2024",

note = "Design Modelling Symposium Berlin ; Conference date: 16-08-2024 Through 18-08-2024",

}

TY - GEN

T1 - Voxel-Based Analysis of Long-Term Monitored Bio-Based Building Elements

AU - Tamke, Martin

AU - Akbari, Shahriar

AU - Ramsgaard Thomsen, Mette

PY - 2024/8/30

Y1 - 2024/8/30

N2 - This paper introduces an innovative method for tracking and analysing the three-dimensional behaviour of materials outdoors, focusing on bio-based building elements. The constraints of current methods limit monitoring material changes over time to 2D snapshots of an initial and final state. We propose a system utilizing low-cost components like depth cameras and IoT sensors that allow for frequent 3D scans over long periods and overcome challenges such as weather conditions and IR interference. Our method includes a novel automated analysis system, which converts 3D scan data into voxel models for comprehensive evaluation. Our analysis can include different parts of the tracked properties, such as colour, depth and position, which allows us in this way to track changes on overall, region, and feature levels. This approach opens avenues for better understanding material behaviour and its implications for future design, construction and maintenance practices.

AB - This paper introduces an innovative method for tracking and analysing the three-dimensional behaviour of materials outdoors, focusing on bio-based building elements. The constraints of current methods limit monitoring material changes over time to 2D snapshots of an initial and final state. We propose a system utilizing low-cost components like depth cameras and IoT sensors that allow for frequent 3D scans over long periods and overcome challenges such as weather conditions and IR interference. Our method includes a novel automated analysis system, which converts 3D scan data into voxel models for comprehensive evaluation. Our analysis can include different parts of the tracked properties, such as colour, depth and position, which allows us in this way to track changes on overall, region, and feature levels. This approach opens avenues for better understanding material behaviour and its implications for future design, construction and maintenance practices.

KW - Long-term monitoring

KW - 3D scan

KW - Material Behaviour

KW - voxel-based modelling

U2 - 10.1007/978-3-031-68275-9_24

DO - 10.1007/978-3-031-68275-9_24

M3 - Article in proceedings

SP - 295

EP - 306

BT - Scalable Disruptors. DMS 2024

T2 - Design Modelling Symposium Berlin

Y2 - 16 August 2024 through 18 August 2024

ER -

Voxel-Based Analysis of Long-Term Monitored Bio-Based Building Elements

Abstract

Conference

Keywords

Artistic research

Access to Document

Projects

ECO-METABOLISTIC-ARC: An Eco-Metabolistic Framework for Sustainable Architecture

Cite this