Innovation Economics, Engineering and Management Handbook 1. Группа авторов
to feel a certain wonder and the pleasant sensation of having found a solution to a problem (Lubart et al. 2015). In management, this discovery or “revelation” focuses on a management situation (Amabile 1988; Carrier and Gélinas 2011) such as, with reference to Olso’s Manual, the design of a new product or service, a new organization or commercialization or a new business model (Lubart et al. 2015). Coming from the mind of an individual, this creative idea arises a priori spontaneously from the reorganization of information, facts, knowledge and experiences that they have accumulated during formal or informal research, alone or with other individuals in the organization or not, such as consumers. Therefore, this idea does not come alone. It is nurtured by an enabling context and interpersonal relationships that enable such discovery.
However, this idea may prove to be a failure, hence the second phrase put forward by Winston Churchill: “Shoot for the moon, and if you miss you’ll land among the stars”. Even if the idea is original, new and promising, it is possible that it will never be applied in the organization, for economic, financial, technological or marketing reasons (St-Pierre et al. 2017). Furthermore, if it is implemented, studies indicate that the failure rate of innovations that are brought to market is around 85%. Indeed, innovation is only effective from the moment the novelty is introduced, as the etymology of the term indicates. Regardless of how enthusiastic they may be, the bearer of the idea will struggle to convince and interest enough people around them, hence the risk of a lack of ownership of the idea within the organization (Royer 2002). Kotter (2016, p. 12) explains, “The deeper you get into it, the more obvious it becomes that convincing others to ‘buy’ your ideas is both a human issue and a vital skill”. In fact, innovation implies an exploratory approach where the individual interacts both to enhance the value of his idea and to revise it according to the feedback from his interlocutors. Beyond technical knowledge or know-how, social skills – such as empathy, listening, persuasive communication and networking – are just as important.
If we agree that innovation is experimenting and testing, we must admit that trial, error and failure will be a part of the experiment as well. The Wright brothers spent three years trying different glider prototypes with multiple failures before they achieved their first successful motor-powered and controlled flight in an aircraft. The failures were a source of learning, allowing the two brothers to improve their idea into an innovation. In the corporate world, innovation also goes through many failures in the form of unfinished, unvalidated, or overly expensive ideas, etc. Even if it does not lead to innovations, this knowledge is very useful and feeds the organization’s creative slack, i.e. a pool of ideas that the organization can draw from to innovate again (Cohendet and Simon 2015; Gay and Szostak 2019). This consolidates its capacity to innovate, or propensity to realize, innovations (Hadjimanolis 2000; Wang and Ahmed 2004; Kmieciak et al. 2012). It took Nestlé more than 15 years to find the right commercial and strategic formula to sell espresso to a mass market. Several times, the project was almost abandoned after several failures in the market.
The brief discussion of these famous formulas applied to the world of organizations leads us to underline how difficult it is to manage innovation: it involves individuals, the organization, their capacities and resources; it requires a variably long time frame due, among other things, to potential failures; it meshes the internal space of the organization, and also the external space. However, innovation is essential to exist in a competitive market, to differentiate oneself from one’s competitors, or to create a new activity, or even a new market, in a disruptive manner (Porter 1996; Kim and Mauborgne 2005; Christensen et al. 2015). The question that many managers then ask themselves is: how to manage innovation? In other words, how do we find the ideas that give rise to innovations, select them and share them within the organization and with other stakeholders?
The purpose of this chapter is to propose the elements of response according to three complementary dimensions, summarized in a symbolic way under the three notions: “space, time and matter”.
– The first is particularly concerned with space, as seen from the perspective of organizational boundaries. The objective is to understand their roles in innovation, the actors involved, and the challenges posed for organizations in terms of innovation management.
– The second dimension focuses on presenting the emblematic processes of innovation, in particular the stage gate from the idea to the implementation of the innovation.
– The third dimension refers to the material, sensitive version of innovation, i.e. the product, the service, a new organization, etc., and returns to its appropriation by individuals and the challenges faced by managers.
2.2. Managing innovation: a question of space
If innovation is born somewhere, in the form of an idea, its development requires a favorable environment, so that it can be nourished by knowledge and exchanges between people who are relatively close, in order to trust and understand each other. Indeed, proximity is required, especially a certain cognitive proximity, in other words, individuals with the same knowledge and skills base who can learn from one another (Boschma 2004). It is for this reason that it is accepted that innovation initially requires a delimited space, a place composed of experts, such as researchers or designers, and also with technical tools, such as scientific apparatus or creative methods. In fact, the work of innovation takes place within a given perimeter with a degree of specialization of activities in research and development units, design centers, laboratories, etc. Beyond this specialization, these spaces are mainly made up of social and material interactions (Hall 1966; Massey 2005). Thus, contextualized practices develop, with a certain degree of confidentiality and even clandestinity (Guérard and Seidl 2013; Grenier and Denis 2017).
This delimitation and specialization of innovation has been contested by a double movement. On one hand, innovation has become an imperative for all companies subject to ambiguous, uncertain, complex and volatile environments (Bennis and Nanus 1985). These conditions imply greater organizational flexibility, with faster rhythms in developing products for the markets. On the other hand, innovation has been progressively democratized (von Hippel 2005) with the idea that innovation is no longer the producer’s activity of creation and also that of users with the simpler and more accessible use of information technology, and more recently, of the 3D printer. This openness to innovation is defended by the proponents of open innovation (Chesbrough 2003, 2006; von Hippel 2005). They point to a paradigm shift in innovation management from a rather closed mode to a more open mode, at both organizational and individual levels. This approach calls the more internalized model of innovation into question, where spaces are more closed and specific to the organization, through a more externalized model with more open spaces, less centered around an organization linked to communities or collaborative movements (Bohas et al. 2017).
This greater porosity still raises questions about how to manage innovation spaces. While innovation has never been a closed phenomenon, these contemporary models refer to a less linear, more dynamic or even more turbulent approach. In this context, how should the organization manage these spaces? Is it necessary to delimit or widen the spaces for innovation? What about the configuration of these spaces?
2.2.1. Delimiting and/or expanding organizational spaces
A first “centripetal” perspective is that of a delimitation of innovation spaces. Whether it is a simple idea or an invention as a starting point, its development presupposes knowledge between actors who can engage in rich and rapid exchanges, connections that make it possible to develop expert knowledge, whose cross-fertilization would promote in-depth learning (Camagni 1991; Maskell and Mamberg 1999). As proximity theorists defend (Torre and Gilly 2000), proximities (physical, social, cognitive, etc.) favor these types of virtuous interactions, which explain the existence of innovation departments, learning communities, innovation networks, clusters or innovation ecosystems where strong links are crucial. Of course, these networks where expert knowledge circulates are not completely closed, as it is absolutely essential that they are constantly irrigated with new knowledge to give rise to new ideas and creativity (Cohendet and Llerena 1997). Nevertheless,