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EXPORT DATE: 2 June 2025

@CONFERENCE{Pedersen2025,
author={Pedersen, Kristian Birch and Stefankovics, Glória and Marxen, Martin Veis and Wandahl, Søren },
editor={Seppänen, Olli  and Koskela, Lauri  and Murata , Koichi  },
title={Method for Estimating and Planning Carbon Emissions}, 
journal={Proceedings of the 33rd Annual Conference of the International Group for Lean Construction (IGLC 33)}, 
booktitle={Proceedings of the 33rd Annual Conference of the International Group for Lean Construction (IGLC 33)}, 
year={2025},
pages={1197-1207},
url={http://www.iglc.net/papers/details/2416},
doi={10.24928/2025/0271},
affiliation={M.Sc. (CivEng), Master of IT, PhD, Part-time Lecturer, Department of the Built Environment, Aalborg University, CEO and founder of Exigo A/S, Denmark, kbp@exigo.dk, https://orcid.org/0000-0002-4400-2046 ; B.Sc. (ATCM), Research assistant, Department of Civil & Architectural Engineering, Aarhus University, and Exigo A/S, Denmark, gs@exigo.dk, https://orcid.org/0009-0003-6400-4182 ; M.Sc. (CivEng), Senior Client Advisor, Exigo A/S, Denmark, spn@exigo.dk ; Professor, Department of Civil & Architectural Engineering, Aarhus University, Denmark, swa@cae.au.dk,  https://orcid.org/0000-0001-8708-6035 },
abstract={With a growing focus on reducing greenhouse gas (GHG) emissions throughout the entirety of a building´s lifecycle, it is necessary to analyze the often-overlooked construction phase, where, besides waste generation, heating, drying, lighting, and process electricity, both equipment and human labor contribute to emission levels.
Building on the Location-Based Management System (LBMS) theory, this paper quantifies emissions from construction machinery and human activities, linking those to specific location tasks. Applied to several case studies and scenarios, including large-scale residential and commercial projects, the approach demonstrated the potential for identifying and reducing greenhouse gas (GHG) emissions.
Findings highlight the necessity of aligning planned schedules with emission targets, suggesting that this integrated quantification method is crucial for compliance with upcoming climate goals and for developing effective emission reduction strategies and technologies in the construction industry, in alignment with 2050 regulatory milestones and EN 15978. },
author_keywords={Location-based Management System (LBMS), Takt Planning (TP), environment, greenhouse gas emissions (GHG), planning },
address={Osaka and Kyoto, Japan },
issn={2789-0015 },
publisher={ },
language={English},
document_type={Conference Paper},
source={IGLC},
}