Innovation Trends in the Space Industry. Victor Dos Santos Paulino

Innovation Trends in the Space Industry - Victor Dos Santos Paulino


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for many years in the space industry. Examples include low competition, niche markets, and intense innovation efforts.

      These results contribute to an understanding of the long-term evolution of the space industry in light of economic considerations such as the role of customers, innovation efforts, and industry lifecycle theory. These results also extend the scope of the lifecycle theory to the space industry. By emphasizing the central role of customers, we reinterpret the role of supply and demand during the emergence phase. We also observe that the pursuit of profits remains a secondary objective for customers during the emergence phase.

      Innovation strategies of space firms

      The slowdown in innovation observed in the space industry is leading to the emergence of a paradox. Satellites are high-tech products that carry few recent electronic components and are developed through processes largely inspired by what was done in the 1950s. How should the conservatism of this high-tech industry be interpreted? Are the innovation strategies of satellite producers irrational and do they jeopardize their survival? On the contrary, do space activities require a certain inertia?

      The study of innovation strategies of space firms leads us to highlight the existence of a positive link between slow adoption of innovations, product reliability and organizational survival. On the one hand, we show that the slow adoption of technological innovations is rational behavior when it allows reliability to be maintained. This strategy is mainly explained by risk aversion. On the other hand, it appears that the slow adoption of organizational innovations promotes the survival of organizations when the environment is risky. This strategy aims to maintain the high levels of reliability achieved during successful space missions by achieving rigorous organizational replication (i.e. replication of processes, rules, and methods). There are several similarities between these two strategies, which we call inertia strategies. First, the inertia strategy is not immobility but a prudent adoption of innovations. Then, these strategies are observed in a risky context as is the case in space activities. Finally, these strategies generally lead to delays in the adoption of innovations, even in the case of a high-tech industry.

      By studying the advantages of prudent adoption, we can interpret the conservatism displayed by a high-tech industry. However, our work ignores the risks of overly rigorous inertia strategies that would lead to underestimating high-potential innovations. The current acceleration of the commercialization of space forces existing firms to question whether they are facing innovations of this type.

      Strategic diagnosis of new technologies

      Artificial intelligence, big data, 3D printing, Internet of things, and miniaturization of satellites: these technologies feed into the last phase of the acceleration of the commercialization of space and could also be substitutes for some existing space technologies. In this context, existing firms are seeking to determine whether these technological promises are threats to be taken seriously or are rather a fad, which often exists with new technologies.

      Faced with this imperative, the theory of disruptive innovations has two weaknesses. The first is a confusing definition of the concept of disruptive innovation. All discontinuous innovations tend to be too quickly assimilated to disruptive innovations (Schmidt and Druehl 2008). This theory also presents a low predictive value for existing firms. The latter must act when the new technology is introduced; however, at that time, there are no criteria for making a decision. Indeed, it is difficult to identify among the technological promises those that will fail and those that will become disruptive innovations (Danneels 2004; Tellis 2006).

      To address these weaknesses, we explore the concept of potential disruptive innovation suggested by Danneels (2004). We propose a precise definition by identifying the short-term characteristics of disruptive innovations. By studying the case of satellite miniaturization in light of this definition, we show that small satellites are imperfect substitutes for traditional satellites. This new technology, which is part of the current acceleration of the commercialization of space, represents a low threat to existing firms.


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