A micro-phenomenological and semiotic approach to cognition in practice: a path toward an integrative approach to studying cognition-in-the-world and from within

1. Enaction and pre-reflective self-consciousness: two main ontological and epistemological assumptions

The postulates of enaction (Varela, 1979; Varela et al., 1990) and pre-reflective self-consciousness (Sartre, 1943/2003) constitute the hard core of the course-of-experience framework and, more broadly, of our research program. Let us now add that the distinction between assumptions that are ontological (what things really are) and epistemological (the way to understand and explain them) is particularly useful to navigate the enactive literature (Aizawa, 2014). Although much research considers only a part of the ontological or epistemological assumptions, our approach is distinguished by the attempt to explicitly articulate the ontological and epistemological issues: formulating ontological assumptions about the nature of things and adopting—at the epistemological level—a framework of understanding and explanation.

1.1. Enaction and the course-of-experience framework

Enaction is a genuine and non-trivial proposal for a far-reaching renewal of cognitive science as a whole (Stewart et al., 2010). As a paradigm ¹ , the ambition is to provide an encompassing framework for articulating the many domains and levels of organization involved in cognitive science (e.g., Di Paolo et al., 2010; Di Paolo & Thompson, 2014; Froese & Di Paolo, 2011; Gallagher, 2017; McGann et al., 2013; McGee, 2005, 2006). Enaction also meets three requirements for any paradigm in cognitive science: (a) it provides a new resolution of the mind-body problem, (b) it provides the basis for a genuine articulation between a multiplicity of disciplines, and (c) it provides a hard core of assumptions and has spurred the flourishing of a variety of empirical research programs, like ours (partly similar, complementary or alternative) (Stewart et al., 2010).

The most fundamental concept of the enactive paradigm is that of autonomy. This concept is derived from the earliest work of Maturana and Varela (1987), which was based on the metabolic self-production of single-cell organisms and described the minimal organization of living systems as autopoiesis: the authors assumed that all living organisms are autopoietic (Maturana & Varela, 1980). An autopoietic system is organized as a closed network of processes producing the system’s components—that is, the processes recursively produce the components and the very network that produced them, and the network specifies the boundary conditions (the topological domain) necessary for the system’s ongoing existence as a concrete unity in space and time. This network of processes, which is called organizational closure, implies that the operational results occur within the boundaries of the system itself. In other terms, for Varela (1979), closure is the circular mechanism defining the class of self-organizing systems in general, and autopoietic systems are a particular case of this larger class of systems that can be called organizationally closed. Closure does not mean that a system is closed and withdraws into itself. On the contrary, it is consistent with the idea of openness. It is a response to the attempt (a) to formalize and characterize the mechanism of “autonomy in general” as a self-organizing behavior and (b) to specify the circular organization or mechanism of a given autonomous system as it gives rise to its specific identity (Rudrauf et al., 2003). The notion of autopoiesis continues to be the core of the enactive paradigm, where it is typically associated with self-production and autonomy. The conception of autonomy as operational closure applies not only to various living systems such as single-cell and multicellular organisms, but also to a whole host of other systems such as the immune system, the nervous system, and even social systems. Based on the thesis of life-mind continuity, the enactive approach deals with cognition, social cognition, and sociality as phenomena of autopoiesis (e.g., Baerveldt & Verheggen, 1999; De Jaegher & Di Paolo, 2007; Froese & Di Paolo, 2011).

The self-reference inherent to the process of self-production, which forms the core of the enactive definition of autonomy, has important implications, as summarized by Froese and Di Paolo (2011). First, without the autonomy afforded by organizational closure, the system is incapable of defining its own identity as an individual system. An autonomous system brings forth its own identity by actively demarcating its boundaries during its ongoing self-production. Second, an autonomous system is organized in such a way that its activity is both the cause and the effect of its own autonomous organization; in other words, its activity depends on organizational constraints (i.e., the system-environment interactions are delimited by the system’s structure), which are in turn regenerated by the activity itself (i.e., the system-environment interactions are the source of disturbance that brings about transformations in the actor’s structure). This gives it an essentially self-constituted identity. The interactions between an individual and the environment are described as a structural coupling, specifying both the individual’s own structure and that of the environment with which it is interacting. Third, autonomous systems actively determine their domain of interaction—that is, the potential manners by which the system can interact with its environment without disintegrating. Due to its precariousness, it copes with the perturbations it encounters during its ongoing interactions with the environment from a perspective of significance, which is not intrinsic to the perturbations themselves. The meaning of an encounter is not fully determined by the encounter itself. For an autonomous system, significance emerges in relation to the ongoing need to realize and maintain its self-constituted identity. Meaning generation in relation to the concerned perspective of the autonomous system is called sense-making (Weber & Varela, 2002). In other words, meaning is not to be found in the external environment, nor entirely in the internal dynamics of the system. It is an aspect of the interactional domain established between both (and through the structural coupling). However, there is a fundamental asymmetry underlying this interactional domain since its very existence is continuously enacted by the endogenous activity of the autonomous system. The structural coupling is always asymmetrical, and meaning is first and foremost in-formare, that is formed “from within” ² . In the enactive paradigm, the tendency is to refer to the meaningless physical aspects of things as the environment, whereas the domain of interaction of an autonomous system is the meaningful world that its interests have brought forth. Sense-making is then the enaction of a meaningful world by an autonomous system.

In summary, the course-of-experience framework is based on three principal assumptions that have given rise to an empirical phenomenology and a semiotics of cognition in practice in terms of enaction and experience (Theureau, 2015a).

1. Assumption 1. Practice is a mechanism of self-production and the expression of the structural coupling. It is considered to be a continuous asymmetrical interaction between actors and their environment. What individuals do when they are engaged in a social practice is not the adaptation (or reaction) of a pre-determined individual to a pre-determined world. Both the individual and the environment in the individual-environment coupling formula are as much the products or manifestations of the coupling as its source. Instead of taking the individual being as the starting point for individuation, an enactivist perspective begins with the individuation process accompanying structural coupling and seeks to discover the individual through the process (Simondon, 2009).

2. Peirce’s semeiotic and extended thought-sign hypothesis

The analytical course-of-experience framework was inspired by Peirce’s semeiotic (despite its speculative and non-empirical nature) since (a) it is rooted in an extended view of the thought-sign hypothesis and (b) it proposes a generic model to describe cognition in the wild and from within—the hexadic sign—derived from Peirce’s fundamental categories.

Peirce produced an abundant body of work, but three elements constitute the core of his contribution – the thought-sign, the notion of triadic sign, and the three categories of firstness, secondness, and thirdness. Scholars have repeatedly tried to periodize Peirce’s work (Houser & Kloesel, 1992; The Peirce Edition Project, 1982-2010, 1998). It is possible to distinguish three periods (Peirce I, II, III) based on the author’s own changes to his method of constructing his fundamental categories (logic of representation, logic of relatives, and an ultimate relational movement). We draw here mainly from his latest works (Peirce III).

Peirce proposed many definitions of the sign, although each was based on a triadic and indecomposable relationship. A triadic sign therefore has three components ³ : the representamen, which refers to what “makes a sign”; the object, which refers to “something” that is already there but at the same time becomes present thanks to the representamen. It is also this “something” that allows the appearance of the representamen itself; and the interpretant, which is “something” that emerges from the relationship between the representamen and object and that has an effect on both these components.

Beyond the notion of the triadic sign, all of Peirce’s work consisted of clarifying the basic categories of the knowable by passing from logic to semiotics. His logic of categories ultimately found an extensive systematization in its relationship with phenomenology, which Peirce called a phaneroscopy. The object of the phaneroscopy is to describe all experience from the universal categories of firstness, secondness, and thirdness. These categories are both cumulative and incommensurable. Firstness is the category of experience as it simply is without reference to anything else. It is characterized as an immediate revelation of self in the world (e.g., the simple sensation of being wet without any other consideration). Secondness is the category of experience during the concretization of a fact. It reflects a particular interaction with the actor’s world (e.g., the sensation of being wet might be related to the fact that it is raining). Thirdness is the category of experience that gives rise to reasoning, to generalizations. It is the mode of knowledge construction. Thirdness enables the discovery of typicality in our relationships with the world from past and present experiences (e.g., the construction of the experience-type of being in a bad mood when it rains, confirming the regularity of the actor’s experience in similar situations; the actor constructed typical expectations and experienced typical emotions in relation with rainy conditions). These categories, without being confounded, are always co-present; they permeate all our experience, making an uncluttered idea of each—absolutely distinguished from the others—impossible. Lived experience is thus assumed to include: (a) components on the order of indeterminate possibilities (firstness) that are actualized or not; (b) components on the order of the actual (secondness), which are determined through a form-taking process against an undifferentiated background; and (c) components on the order of the virtual such as habits, principles of generalization and typicalization (thirdness). The three components of the triadic sign appear, respectively, from the phaneroscopic categories: the object comes from the category of firstness (possible), the representamen from the category of secondness (actual), and the interpretant from thirdness (virtual).

The extended analytical thought-sign hypothesis (developed within the course-of-experience framework) connects phenomenology and Peirce’s semeiotic, while remaining consistent with enactive assumptions. It assumes that practice (as cognition) is semiosis and that it can be described as a concatenation of signs and analyzed by means of an articulated and coherent set of components (or generic descriptive components) derived from Peirce’s semeiotic. While describing their past experience and practice, participants spontaneously break it down from a continuous stream into discrete units that have personal meaning. These discrete units of different sizes—called units of the course of experience (U)—are assumed to be the expression of a sign. The analytical concepts of the course-of-experience framework are therefore largely inspired by the triadic sign, the notion of the thought-sign, and the phaneroscopic categories, but with several adjustments: (a) relating them to practice, giving rise to pre-reflective self-consciousness; (b) specifying the object, representamen, and interpretant and adding some components; and (c) overcoming the static and closed attribute of the Peircean sign and making it possible to concatenate the signs.

The course-of-experience framework has resulted in two generations of analytical methods and notions: the basic analytical method (BaM) with the notion of tetradic sign (Theureau, 2004) and the extended analytical method (EaM) with the notion of hexadic sign (Theureau, 2006). It is useful to linger here over the BaM and the notion of tetradic sign but only for the purpose of clarifying the connections with Peirce’s semeiotic and categories. In the BaM, the tetradic sign is presented as an object-representamen-interpretant triad subjacent to the course of experience unit (Figure 1). The first alteration of Peirce’s semeiotic is to move up to a tetradic sign by adding a component: the course of experience unit (U). This unit refers to practical actions, communications, interpretations, emotions, feelings, and self-talk. The second alteration of Peirce’s semeiotic is the clarification and specification of the notions of object, representamen, and interpretant. The object (O) refers to the actor’s involvement in the situation and to the here-and-now circumscription of the actor’s field of possibles. The representamen (R) refers to perceptive, proprioceptive or mnemonic judgment, different from its anchoring in the environment (in coherence with Peirce’s last writings). The interpretant (I) refers to the activated (or established) knowledge that allows the actor to interpret the current situation and act in accordance with past experiences. In the extended analytical method, the notion of hexadic sign was developed by adding two additional components, again in an effort to refine the existing components. This development takes into account (a) the empirical limitations of the tetradic sign and (b) the need to redefine the interpretant (in particular with regard to the study of learning and/or development processes). Each sign is assumed to articulate six components derived from the degeneracy of Peirce’s categories (Peirce III): the involvement in the situation (E), the anticipation structure (A), the referential (S), the representamen (R), the course of experience unit (U), and the interpretant (I) ⁴ . For the moment, the hexadic sign offers a coherent system of descriptive components and opens up the possibility of the fine-grained empirical documentation of cognition in the wild and from within.OPEN IN VIEWER

3. Data collecting and processing within the course-of-experience framework

This section describes (a) the data collecting method of the course-of-experience framework, particularly the self-confrontation micro-phenomenological interviews, and (b) the data processing method for analyzing a corpus made up of in situ behavioral observations and descriptions collected through the micro-phenomenological interviews (Petitmengin et al., 2019; Valenzuela-Moguillansky & Vásquez-Rosati, 2019).

4. Implications for cognitive science

This concluding section underlines: (a) how the course-of-experience framework contributes to cognitive science, (b) what its implications are for this research area, (c) how and why the insights of phenomenology and Peirce’s semeiotic should be associated in cognitive science, and (d) what the possible directions for further research might be.

It should first be emphasized that the studies conducted within the course-of-experience framework have produced empirical results on cognition-in-the-world and in-practice and through practice: everyday and workplace cognition, social and team cognition, and large temporal spans of cognition. They have also shed new light on learning, knowledge construction and abductive reasoning, creative cognition, metaphors and mimesis, appropriation, relationships between emotion and cognition, and shared understanding and intersubjectivity. Course-of-experience studies have confirmed the rich cultural-cognitive ecosystems within which human cognition is embedded and have highlighted the role of the body, tools, and cultural practices in cognition. This last point is crucial for cognitive science, which is strongly encouraged to situate embodied interaction (or brain-body-world) in the social and material world (Hutchins, 2008, 2010, 2011). One of the biggest challenges of the coming decades will undoubtedly be working out the implications of the observation that, for humans, the world (in the brain-body-world formulation) consists of “being” in a culturally constructed social and material world. Studies conducted within the course-of-experience framework have produced empirical results that confirm the hypothesis of the extended phenomenological-cognitive system proposed by Silberstein and Chemero (2012). These authors considered “phenomenology and cognition as inseparable and complementary aspects of coupled brain-body-environment systems (…) experience is cognition and cognition is experiential” (p. 6). Finally, the course-of-experience framework makes it possible to study the extended phenomenological-cognitive-cultural system in which human cognition is embedded.

Practically, and as an illustration, some empirical studies conducted within the course-of-experience framework have contributed to empirical advances on the issues of affordances (which can be considered as attributes of the brain-body-environment system) and have confirmed that the arrangement of an individual’s field of affordances (Rietveld, 2008) is dependent on the current concerns and abilities of that organism and the current situation (e.g., Seifert et al., 2014). As pointed out by Bruineberg and Rietveld (2014), the affordances that stand out as relevant for a particular individual in a particular situation change when either the landscape of affordances changes (i.e., when the sociomaterial environment changes or when the affordances available in an ecological niche—related to the whole spectrum of abilities available in our cultural practices—change), or the concerns change—or more precisely, the individual’s structure of preparation (E-A-S) changes (see also Rietveld, 2008).

In contemporary cognitive science, it is becoming increasingly clear that a “disciplined” description of experience, inspired by phenomenology and semiotics, is required, and the course-of-experience framework and methods could be useful. First, we assume here that this framework might produce front-loading phenomenological insights useful for the design of experimentation in cognitive science (Gallagher & Sørensen, 2006). This was the case in sports science, where several researchers built a phenomenologically—and more specifically, a course of experience-informed—experimental design (e.g., Bourbousson et al., 2014; Bourbousson et al., 2015; Seifert et al., 2015; Seifert, Cordier, et al., 2017). These studies did not necessarily involve phenomenological methods during the experiments themselves.

Second, we assume here that the course-of-experience framework can contribute to the refinement of neurophenomenology as an approach for studying human experience (or first-person experience). This assumption is based on the critical evaluation of the neurophenomenological methods proposed by Bockelman et al. (2013). The scientific research program, called neurophenomenology (Lutz, 2002; Lutz & Thompson, 2003; Varela, 1996; Varela & Shear, 1999) aims to pragmatically investigate the relationships between subjective experience and objective neurophysiological data by intertwining what has been called first- and third-person methods. This perspective holds great promise and opens onto both a naturalized phenomenology (Overgaard, 2004; Petitot et al., 1999), by taking into account biophysical embodiment, and a phenomenologized neuroscience, by introducing phenomenological methods into experimental design (Gallagher & Sørensen, 2006). Early neurophenomenological works (what we can call neurophenomenology I) used phenomenologically trained experimental subjects to report on their experiences. Notably, this method has been productively incorporated into the protocol of experiments on perception (e.g., Lutz et al., 2002) and epilepsy (e.g., Le Van Quyen et al., 2001), providing results that are not captured by typical cognitive science approaches. Bockelman et al. (2013) made several methodological recommendations to improve the reliability and productivity in handling phenomenological data. They particularly recommended that a new generation of neurophenomenology studies (what we can call neurophenomenology II) be developed based on phenomenological interviews and not on trained experimental subjects. They argued that these studies need to place the impetus for training on the interviewer, not the participant, so that the interviewer can act to support the participant in precise experiential reporting. They cited as an example the works of Petitmengin and Le Van Quyen (Le Van Quyen & Petitmengin, 2002; Petitmengin et al., 2007), who used the explicitation interview method (see Froese et al., 2011; Petitmengin, 2006; Petitmengin & Bitbol, 2009) in an investigation of epilepsy and seizure anticipation.

With regard to this specific point, the self-confrontation method—developed within the course-of-experience framework—is a micro-phenomenological interview method that may be particularly useful for cognitive science. This method is designed to stimulate the re-enactment and re-experience of a past dynamic situation, and it encourages the expression of the pre-reflective self-consciousness that accompanied the practice in the situation. Yet, the course-of-experience framework also proposes a rigorous and empirically fruitful use of Peirce’s semeiotic, which can then contribute to the theoretical core of cognitive science and have heuristic value for it, especially neurophenomenology. An acknowledged methodological challenge for neurophenomenology is to find a level of observation at which convergence is possible. This will require the development of methods for the collection of descriptions of neural and experiential dynamics at a fine level of granularity, which seems to be the right level to search for correlations (Petitmengin & Lachaux, 2013). The analytical hypothesis proposed by the course-of-experience framework allows for a very fine-grained description of experiential microdynamics and opens to a joint analysis of experiential and neuronal microdynamics. Obviously, the assumption here is that the sign may well be a pivotal notion in phenomenology and cognitive science (Theureau, 2015b). On this point, the course-of-experience framework underlines once again Peirce’s relevance for cognitive science (Caravà, 2019; Skagestad, 2004; Steiner, 2013; Tiercelin, 1995). Peirce’s pragmatism and semeiotic (revisited as in the course-of-experience framework) not only offers interesting insights on philosophical topics and contemporary research programs in cognitive science (Paolucci, 2011, 2021) ⁵ , but it also lays the foundations for a generic model for the description of experiential microdynamics. This implies going beyond the speculative and non-empirical nature of his semeiotic, as well as modifications and add-ons to Peircean categories and the notion of sign.

Many studies conducted within the course-of-experience framework have demonstrated a joint-analysis of the course of experience and third-person data (Gal-Petitfaux et al., 2013; Hauw et al., 2017; R’Kiouak et al., 2016; Seifert, Lardy, et al., 2017; Sève et al., 2013), but thus far have not included neuronal data. Yet, like other researchers, we assume that this combination of data would provide greater insight into cognitive and social phenomena (e.g., the role of tools and body in cognition, appropriation phenomena, intersubjectivity and shared understanding…) while preferring to keep the focus on external description (i.e., the observer’s description of external factors/elements that does not take into account the intrinsic dynamics in comparison to extrinsic description) rather than third-person data. The very existence of a third-person approach is ontologically questionable. Despite this, however, we are convinced of the advantages of completing intrinsic and extrinsic descriptions by an external description, which can sometimes be conducted using methods of collecting and processing data developed in other theoretical approaches. Of course, all this requires even greater precision and explicitness about the mutual constraints—that is, about the reciprocal influence and determination between levels of description. Theureau (2006) recently added new theoretical objects to the course-of-experience framework, including the course of in-formation. This proposal originated from the observation that, although the course of experience (as a theoretical object) makes it possible to apprehend “the level which is meaningful for the actor,” it leaves other levels aside, which, although they may not be shown, told or commented on, nevertheless play a part in the actor’s practice. The course of in-formation as a theoretical object is an ideal to strive for in documenting the entire dynamics of structural coupling or the whole set of in-formative interactions between an actor and the environment. It includes both in-formative interactions that give rise to pre-reflective self-consciousness and those that do not (to be documented by methods other than the direct or indirect documentation of pre-reflective self-consciousness). It is through this theoretical object that it becomes possible to go beyond the limits of describing the actor’s course of experience, as it offers a way to jointly analyze the course of experience and the external data on an actor’s body, environment, and culture that did not give rise to pre-reflective self-consciousness. However, describing the course of in-formation is considered suitable only if primacy is given to the course of experience. The course of in-formation, as a theoretical object, may be relevant to cognitive science as it gives a description of the whole brain-body-world system, as well as to the conceivable extended phenomenological-cognitive-cultural system.

We would like to conclude here by emphasizing that the relevance of Peirce’s semeiotic for empirical research in cognitive science, particularly in association with enactive assumptions, has also been demonstrated by research programs other than the course-of-experience framework. As an illustration, in cognitive archeology, Iliopoulos (2019, 2016) also developed a pragmatic and enactive theory of cognitive semiotics by assuming the complementarity of Malafouris’s enactivist approach to archeology, which calls for a radical reconceptualization of mind and material culture (Malafouris, 2007, 2013, 2018), and Peirce’s theory. This cognitive semiotic framework is seen as a pragmatic extension of material engagement theory that is suitably geared toward tracing the nature, emergence, and evolution of material signs. A systematic comparison of these two research programs and their complementarity would be particularly useful. A synergy between the semiotic framework developed within the course-of-experience framework and the semiotic framework proposed by Iliopoulos (2019, 2016) would make it possible to go beyond the human, to assume the plurality of beings (and modes of existence), to study the construction of meaning by interfacing human and non-human, and thus to empirically and better inform on the role of cultural practices and the material world in cognition (as outlined above).

In a broader context, the focus on practice adopted here for studying cognition-in-the-world (a) rejects the division of scientific work between the natural and cultural sciences, (b) defends new alliances between the cognitive and social sciences (through a renewed practice theory) far from the pitfalls and excessive reductionism of a certain form of social naturalism, (c) assumes that cognitive processes “spread beyond boundaries of skin and skull” (Michaelian & Sutton, 2013, p. 2), (d) shifts attention from local examples of extended mind to cultural-cognitive ecosystems (Hutchins, 2011), (e) takes the cultural constitution of cognition seriously (Bender & Beller, 2011), and (f) tries to extend, revive, and go beyond cognitive anthropology in the direction of an enactive anthropology (Beller et al., 2012; Bender et al., 2010).