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Main Authors: Cheng, Yixuan, Mufti, Maheen H., He, Carrie, Zuo, Ying Cong
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.17155
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author Cheng, Yixuan
Mufti, Maheen H.
He, Carrie
Zuo, Ying Cong
author_facet Cheng, Yixuan
Mufti, Maheen H.
He, Carrie
Zuo, Ying Cong
contents This paper introduces Bidirectional Technologies (BiTs), which is defined as technology that addresses the challenges within the aerospace and climate sectors simultaneously. BiTs presents a means to meet global development agendas, in particular, the United Nations 2030 Agenda for Sustainable Development and the Space2030 Agenda. These frameworks position aerospace innovations as tools to address climate change, explicitly highlighting the shared challenges between both fields. This overlap presents an underexplored opportunity to develop BiTs. To explore this potential, the study conducts an extensive literature review to examine the challenges within four categories in both Earth and space contexts: life support, energy systems, monitoring and exploratory systems, and novel technologies. Key traits that influence the successful development of BiTs are then extracted. Based on these traits, a set of actionable recommendations is proposed to serve as a starting point for policymakers and engineers to adapt technologies beyond single-domain applications. Ultimately, this study presents BiTs as a solution to the interconnected challenges on Earth and in space, offering strategies that advance innovation while contributing to global sustainability efforts.
format Preprint
id arxiv_https___arxiv_org_abs_2512_17155
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Path to Resource Optimization and Technological Innovation: Advancing Space and Climate Research with Bidirectional Technologies
Cheng, Yixuan
Mufti, Maheen H.
He, Carrie
Zuo, Ying Cong
Physics and Society
This paper introduces Bidirectional Technologies (BiTs), which is defined as technology that addresses the challenges within the aerospace and climate sectors simultaneously. BiTs presents a means to meet global development agendas, in particular, the United Nations 2030 Agenda for Sustainable Development and the Space2030 Agenda. These frameworks position aerospace innovations as tools to address climate change, explicitly highlighting the shared challenges between both fields. This overlap presents an underexplored opportunity to develop BiTs. To explore this potential, the study conducts an extensive literature review to examine the challenges within four categories in both Earth and space contexts: life support, energy systems, monitoring and exploratory systems, and novel technologies. Key traits that influence the successful development of BiTs are then extracted. Based on these traits, a set of actionable recommendations is proposed to serve as a starting point for policymakers and engineers to adapt technologies beyond single-domain applications. Ultimately, this study presents BiTs as a solution to the interconnected challenges on Earth and in space, offering strategies that advance innovation while contributing to global sustainability efforts.
title A Path to Resource Optimization and Technological Innovation: Advancing Space and Climate Research with Bidirectional Technologies
topic Physics and Society
url https://arxiv.org/abs/2512.17155