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This is an early access version, the complete PDF, HTML, and XML versions will be available soon.
Article

Strategic Foresight for a Net-Zero Built Environment: Exploring Australia’s Decarbonisation and Resilience Pathways to 2050 †

by
Toktam B. Tabrizi
1,*,
Aso Haji Rasouli
1 and
Ozgur Gocer
2
1
School of Engineering, Design and Built Environment, Parramatta City Campus, Western Sydney University, Sydney, NSW 2150, Australia
2
School of Architecture, Design and Planning, University of Sydney, Sydney, NSW 2006, Australia
*
Author to whom correspondence should be addressed.
This paper is an extended version of our paper published in Proceedings of the 24th International Conference on Construction Applications of Virtual Reality (CONVR 2024), Sydney, Australia, 4–6 November 2024.
Buildings 2025, 15(20), 3639; https://doi.org/10.3390/buildings15203639
Submission received: 17 July 2025 / Revised: 28 September 2025 / Accepted: 2 October 2025 / Published: 10 October 2025
(This article belongs to the Special Issue Selected Papers from the “24th International Conference on Construction Applications of Virtual Reality—CONVR2024”)
Versions Notes

Abstract

The Australian built environment is pivotal to achieving national net-zero targets, yet progress remains slow due to fragmented policy frameworks, low retrofit adoption, and uneven integration of emerging technologies. Despite these challenges, little research has applied a foresight perspective that both defines reproducible scenario thresholds and provides semi-quantitative comparisons tailored to Australia. This study integrates strategic foresight with international benchmarking to develop four scenarios for 2050: Business as Usual, Accelerated Sustainability, Technological Transformation, and Climate Resilience. Each scenario is underpinned by measurable thresholds for renovation rates, electrification, digital penetration, and low-carbon material uptake, and is evaluated through a scorecard spanning five outcome domains, with sensitivity and stress testing of high-leverage parameters. Findings indicate that an Accelerated Sustainability pathway, driven by deep retrofits of ≥3% annually, whole-life carbon policies, and renewable penetration of at least 70%, delivers the strongest combined performance across emissions reduction, liveability, and resilience. Technological Transformation offers adaptability and service quality but raises concerns over equity and cyber-dependence, while Climate Resilience maximises adaptation capacity yet risks under-delivering on mitigation. The study contributes a reproducible framework and transparent assumptions table to inform policy and industry road mapping, suggesting that a policy-led pathway coupling retrofits, electrification, and digital enablement provides the most balanced route towards a net zero and climate-resilient built environment by 2050.
Keywords: digital innovations; net-zero carbon; sustainable construction; climate resilience; green information economy digital innovations; net-zero carbon; sustainable construction; climate resilience; green information economy

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MDPI and ACS Style

B. Tabrizi, T.; Haji Rasouli, A.; Gocer, O. Strategic Foresight for a Net-Zero Built Environment: Exploring Australia’s Decarbonisation and Resilience Pathways to 2050. Buildings 2025, 15, 3639. https://doi.org/10.3390/buildings15203639

AMA Style

B. Tabrizi T, Haji Rasouli A, Gocer O. Strategic Foresight for a Net-Zero Built Environment: Exploring Australia’s Decarbonisation and Resilience Pathways to 2050. Buildings. 2025; 15(20):3639. https://doi.org/10.3390/buildings15203639

Chicago/Turabian Style

B. Tabrizi, Toktam, Aso Haji Rasouli, and Ozgur Gocer. 2025. "Strategic Foresight for a Net-Zero Built Environment: Exploring Australia’s Decarbonisation and Resilience Pathways to 2050" Buildings 15, no. 20: 3639. https://doi.org/10.3390/buildings15203639

APA Style

B. Tabrizi, T., Haji Rasouli, A., & Gocer, O. (2025). Strategic Foresight for a Net-Zero Built Environment: Exploring Australia’s Decarbonisation and Resilience Pathways to 2050. Buildings, 15(20), 3639. https://doi.org/10.3390/buildings15203639

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