TY - GEN
T1 - Streamlining Renovation Workflow through Process Digitalization
T2 - 37th PLEA Conference, Sustainable Architecture and Urban Design: (Re)Thinking Resilience, PLEA 2024
AU - Armijos-Moya, Tatiana
AU - Konstantinou, Thaleia
AU - Arregi-Goikolea, Beñat
N1 - Publisher Copyright:
© Copyright by Fundacja PLEA 2024 Conference, Wrocław 2024.
PY - 2024
Y1 - 2024
N2 - In typical practice of building renovation design, distributed teams communicate through technical drawings, but the construction industry lags in digitalization. This study addresses this gap by proposing a methodological framework integrated into digital tools for early-stage renovation processes. The framework, implemented as a web-based tool, gathers user inputs related to building details and preferences to generate alternative renovation scenarios. It utilizes databases for building characteristics, technologies, and life cycle assessment (LCA)/life cycle cost (LCC) calculations. The information flow involves user inputs, database storage, and processing layers, enabling simulations and scenario evaluations. The framework facilitates quick, cost-effective, and customized decision-making in the early design phases, aiming for energy-efficient retrofits. Results highlight the importance of databases, such as building characteristics and LCA/LCC, while emphasizing a clear communication protocol among stakeholders. Overall, the study seeks to accelerate and streamline the renovation process, promoting efficient collaboration and reducing time and costs.
AB - In typical practice of building renovation design, distributed teams communicate through technical drawings, but the construction industry lags in digitalization. This study addresses this gap by proposing a methodological framework integrated into digital tools for early-stage renovation processes. The framework, implemented as a web-based tool, gathers user inputs related to building details and preferences to generate alternative renovation scenarios. It utilizes databases for building characteristics, technologies, and life cycle assessment (LCA)/life cycle cost (LCC) calculations. The information flow involves user inputs, database storage, and processing layers, enabling simulations and scenario evaluations. The framework facilitates quick, cost-effective, and customized decision-making in the early design phases, aiming for energy-efficient retrofits. Results highlight the importance of databases, such as building characteristics and LCA/LCC, while emphasizing a clear communication protocol among stakeholders. Overall, the study seeks to accelerate and streamline the renovation process, promoting efficient collaboration and reducing time and costs.
KW - Decision-making process
KW - Digitalization
KW - Information flow
KW - Renovation
KW - Scenario generation
UR - https://www.scopus.com/pages/publications/105023710733
M3 - Conference contribution
AN - SCOPUS:105023710733
T3 - PLEA 2024: (Re)Thinking Resilience - Proceedings of 37th PLEA Conference, Sustainable Architecture and Urban Design, the Book of Proceedings
SP - 1249
EP - 1254
BT - PLEA 2024
A2 - Widera, Barbara
A2 - Rudnicka-Bogusz, Marta
A2 - Onyszkiewicz, Jakub
A2 - Wozniczka, Agata
PB - Oficyna Wydawnicza Politechniki Wroclawskiej
Y2 - 26 June 2024 through 28 June 2024
ER -