TY - JOUR
T1 - Is the Lunar Economy Solely for the Space Industry? Opportunities for Nonspace Companies in Lunar Infrastructure Leveraging Technological Synergies
AU - Bosquillon, Christophe
AU - Cujko, Lari
AU - Gautel, Gidon
AU - Webber, Derek
AU - Conconi, Andrea
AU - Pianorsi, Mattia
AU - Di Pippo, Simonetta
AU - Vittori, Edoardo
N1 - Publisher Copyright:
© MARY ANN LIEBERT, INC.
PY - 2024
Y1 - 2024
N2 - Joint infrastructure ventures between space and nonspace companies can create benefits for all stakeholders. This includes initiatives for cislunar exploration, where infrastructure is particularly resource intensive. This article aims to support involvement of terrestrial sectors in cislunar infrastructure projects, by providing evidence-based management frameworks. The study between the SDA Bocconi Space Economy Evolution Lab and the Moon Village Association Lunar Commerce and Economics Working Group supports joint work on the Lunar Commerce Portfolio—a study on the lunar economy, whose first edition was published in November 2022. For space industry actors, the potential benefits of joint development with nonspace actors are widespread. Space agencies could reduce resources dedicated to technology design and development, which could be redistributed for sustaining purchase agreement contracts. Space companies could reduce market uncertainties, increasing the economic attractiveness of projects while reducing liabilities through risk allocation. Financially, equity providers could be incentivized by the participation of nonspace corporates as risk takers, signaling venture reliability to capital markets. Nonspace actors could also benefit considerably from advanced science-based technology innovation with reduced uncertainties. Target applications would be explicitly defined in arrangements with space industry partners, with nonspace firms acting as a supplier or investor within the joint venture. This provides opportunities for high technology R&D with identifiable end uses and reduced risk. Furthermore, the target market is represented by collateral terrestrial customers, for whom the technology could be adapted and traded. Terrestrial spill overs could also contribute toward the UN’s 17 Sustainable Development Goals. Embarking on space-for-space activities entails pursuing the industrialization of technologies to serve a concentrated portfolio of customers. These activities are extremely risky and would be priced by a rational investment manager accordingly, unless a diversification strategy is pursued, or returns on investment are exceptional. Lunar infrastructure, as well as the collaboration of space and nonspace players, is exemplary of this, and therefore offers multiple areas of investigation under management perspectives, such as correction of market failures, infrastructure financing, and technology commercialization. This article therefore brings evidence on how nonspace companies can contribute to the realization of lunar infrastructure through exploiting technological synergies. Although the article focuses on the lunar economy as an emerging area of interest, its findings carry broadly applicable lessons to other areas of space technology.
AB - Joint infrastructure ventures between space and nonspace companies can create benefits for all stakeholders. This includes initiatives for cislunar exploration, where infrastructure is particularly resource intensive. This article aims to support involvement of terrestrial sectors in cislunar infrastructure projects, by providing evidence-based management frameworks. The study between the SDA Bocconi Space Economy Evolution Lab and the Moon Village Association Lunar Commerce and Economics Working Group supports joint work on the Lunar Commerce Portfolio—a study on the lunar economy, whose first edition was published in November 2022. For space industry actors, the potential benefits of joint development with nonspace actors are widespread. Space agencies could reduce resources dedicated to technology design and development, which could be redistributed for sustaining purchase agreement contracts. Space companies could reduce market uncertainties, increasing the economic attractiveness of projects while reducing liabilities through risk allocation. Financially, equity providers could be incentivized by the participation of nonspace corporates as risk takers, signaling venture reliability to capital markets. Nonspace actors could also benefit considerably from advanced science-based technology innovation with reduced uncertainties. Target applications would be explicitly defined in arrangements with space industry partners, with nonspace firms acting as a supplier or investor within the joint venture. This provides opportunities for high technology R&D with identifiable end uses and reduced risk. Furthermore, the target market is represented by collateral terrestrial customers, for whom the technology could be adapted and traded. Terrestrial spill overs could also contribute toward the UN’s 17 Sustainable Development Goals. Embarking on space-for-space activities entails pursuing the industrialization of technologies to serve a concentrated portfolio of customers. These activities are extremely risky and would be priced by a rational investment manager accordingly, unless a diversification strategy is pursued, or returns on investment are exceptional. Lunar infrastructure, as well as the collaboration of space and nonspace players, is exemplary of this, and therefore offers multiple areas of investigation under management perspectives, such as correction of market failures, infrastructure financing, and technology commercialization. This article therefore brings evidence on how nonspace companies can contribute to the realization of lunar infrastructure through exploiting technological synergies. Although the article focuses on the lunar economy as an emerging area of interest, its findings carry broadly applicable lessons to other areas of space technology.
KW - lunar economy
KW - lunar infrastructure
KW - nonspace industry
KW - synergies
UR - http://www.scopus.com/inward/record.url?scp=85199797714&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85199797714&partnerID=8YFLogxK
U2 - 10.1089/space.2023.0057
DO - 10.1089/space.2023.0057
M3 - Article
AN - SCOPUS:85199797714
SN - 2168-0256
JO - New Space
JF - New Space
ER -