This research fits into the current literature on the management of learning situations (Cohen 1998). Researchers consider knowledge is not only carried by individuals but also by technical systems (databases, IT solutions, machines), management rules and values (Leonard-Barton 1995), mobilized in spanned but distinctive work groups (Montgomery, Oliver, 2007). Individual behaviour can be affected differently by social and cognitive structures (March, Olsen, 1976) within the same organization. In fact, the nature of a group’s boundaries influences the ability of its members to influence other members and groups (Hernes, 2004). It is therefore important to distinguish between socially constructed hierarchical groups and autonomous communities when studying organizational learning (Cohendet, Diani, 2003).

Some social learning approaches (Lave, 1991; Orlikowski, 2002) highlight the learning impact on organizations when, as a hierarchical group, project team members go beyond knowledge boundaries (Carlile, 2002) and learning boundaries (Scarbrough et al, 2004). These boundary perspectives respectively take into account the different knowledge attributes in projects and the ability to transfer learning between projects and other organizational units, thus contributing to the study of boundary-spanned activities (Montgomay and Oliver, 2007).

Two theoretical perspectives have proved particularly useful in understanding learning dynamics across boundaries in an IS context: the project-based learning perspective and the practice-based learning perspective. These theoretical lenses can reflect the “sites of difference”[3] (Abbott, 1995) found in project teams and communities of practice participating in local and broader learning dynamics in IS Departments.

The project-based learning perspective explores the horizontal dimension of projects in order to highlight the capacity of these organizational units to support acquisition and knowledge creation across functions (Carlile, 2002), within projects (Ayas and Zeniuk, 2001), and between projects and other organization units (Scarbrough et al, 2004).

Project teams are supported by cross-sector disciplines and a canonical mechanism since they are regulated by a hierarchical authority (Cohendet, Diani, 2003) and temporally bounded task-setting. Learning within projects depends on the relationship between participants and their adherence to the projects in question (Hatchuel, 1992). More broadly, it indicates a cooperation device founded on the understanding of different perspectives of action in order to achieve a predetermined common goal.

The project is thus a boundary spanning activity (Scabought et al, 2004), where social boundaries are based on a prescribed area of interaction made up of formalized rules that structure membership, discourse, participation, temporal dimensions and authority structures. In this work context, project managers coordinate project teams (IT workers’ boundaries) and stakeholders (users’ boundaries), and encourage cooperation at different levels of interaction in order to complete their project. They are boundary spanners (Levina, Vaast, 2005) in the meaning that their role is to encourage the sharing of expertise by linking two or more groups of people separated by location, hierarchy, or function. The cooperation through these different boundaries is both the process and the result of an individual, collective and organizational learning dynamic, based on interaction between those involved. In order to promote this cooperation, project managers need to apply their capacity to enact “actionable practice” in different situations (Orlikowski, 2002). They often create a new emergent field in practice to create combined knowledge from different groups (Levina, Vaast, 2005). This capacity to enact is based on three types of cognitive knowledge: device (technical knowledge), procedural (process, methods, rules for action) and strategic knowledge (decision-making) (Gott et al, 1993). This knowledge is not always as present as desired in the rules and resources imposed or allocated by the IS Department for their ongoing projects. Project teams can transform it through the “learning-by-doing” dynamic that can be created more informally according to the project situations. Such practices within projects are heterogeneous, and sharing knowledge within groups like communities of practice can reinforce this capacity.

The integration of different sets of knowledge in these ephemeral units and the diffusion produced by them in organizations are largely discussed in the project-based perspective but researches partially respond to the limits concerning the accumulation or the deposition of knowledge in a more long term. Considering that project working practices have their own logic of action (Hansen, 2002, Brenen et al., 2004), we first suggest that the strengthening of the practice-based perspective can help us to better understand embedded practices from IT project workers in a more informal and long term viewpoint.

Situational theory offers a general framework for analyzing activities located and organized in a social context. Lave (1991) for example, is interested in knowledge acquisition in situations or “situational social practices”. Taking this work as a starting point, Wenger (1998) conceptualizes communities of practice (CoP). This theorization is anchored in the idea that learning takes place in a privileged way via interactions between individuals confronted with the same tasks and strongly engaged in the same field of knowing. This theorization proposes a social perspective for learning by taking the relations between organizational knowledge and collective action into account. Wenger shows how members of a CoP deal with ambiguous situations and institutional tension in their daily routines, how they create sense (the individual aspect) and negotiate meaning (the collective aspect) in practice. Wenger suggests that learning emerges from practice and continuously evolving routines in daily activities. Practice constitutes a support for collective memory and contributes to creating the frames of interpretation required to achieve tasks.

These autonomous communities are founded on voluntary membership according to certain values, norms and collectively shared interests. Discourse, coordination and learning are structured in this area of interaction via identity. The most “dramatic knowledge creation” is likely to occur in this kind of group (Cohendet, Diani, 2003). Communities of practice tend to stabilize individual commitment in uncertain contexts and update cooperative forms, depending on a situation’s specificities. The duality between “theparticipationof actors” and “reification of practices” is central to this regulation process. The participation of CoP members is revealed through the exchange of ideas and information, the discussion of problems and discovery of new solutions, the shared evaluation of new work situations, etc. These interactions continuously build shared practice, which reflects the collective learning of the CoP members, and the relations and identities that individuals develop. The informal and spontaneous character of the CoP supports the interactions facilitated by the shared history that their members experience in a work context. The common knowledge that they progressively create generates a shared repertory that supports the routines in the CoP and knowledge transfer. However, it is important to create complementarity between CoP and other more traditional coordination mechanisms (Cohendet, Diani, 2003) in order to avoid the risk of failure in the CoP, such as exclusion or deviation from organizational rules (Castro Gonçalves, 2007). The practice-based learning perspective underlines the embedded nature of knowledge and the notion of identity in practice.

We shall now turn to how these informal and emergent organizations interacts with more formal, ephemeral and prescribed organizations such as IT projects and how this level of action can interacts with the structure level of organizations.

Our emphasis on the complementarity of projects and communities of practice helps us understand how embedded learning dynamics are absorbed by organizations. At present, research that focuses on one or other of these groups’ properties fails to provide a representative view of the complexity of organizational learning (Bootz, 2009, Scabrough et al, 2004). As argued Bresnen et al. (2004), structuration theory helps to conceptualize the introduction of new practices in organizations in which decentralization and diversity of practice are the norm.

To construct a theoretical framework that dynamically combines both perspectives of the learning process, we refer to Giddens’ (1984) concept of duality of structure, a concept incorporated in the theory of structuration. This rich and multi-faceted social theory is compatible with the vision of the world advanced by Wenger, and places the study of the dynamics between the project and CoP within a broader organizational level.

The concept of structural duality provides insights into the recursive articulation between structure (rules and resources) and collective action (social interactions) in accordance with a relationship that facilitates or restricts learning in groups. In structuration theory, interactions between the participants and the social structures become indivisible. The structure enables action which is reproduced simultaneously in the interactions between individuals. It is thus the means and the result of the action, which it organizes in a recursive way. For Groleau (2000), rules and resources make it possible to connect technical and social aspects of the system and approach dimensions associated with power. Actually rules can be interpretative (rules of signification) and normative (regulate the legitimization of actions) and resources are constituted in one hand from power relationships (resources of domination) and in another hand from economic aspects (Giddens (1984).

Rules and resources are the product of a mobilization and knowledge creation process (Romelaer, 1998), which is shaped by the blending of individual interactions at local level and by the structure at global level. This dynamic between action and structure brings to the fore the capacity of rules and resources to entitle and force action (Giddens, 1984). Collective learning develops in accordance with this dynamic and the reflexive movement between the two levels, as a continuum.

The level of action within this conceptual framework is bimodal. Rules and resources are transformed by the mobilization and exploration of knowledge in daily practice, and by participation in the project mode and in the CoP mode. The project is regarded as a prescribed area of interaction and CoP as an emergent area of interaction insofar as it is not defined by the organization but by the various informal interactions that occur within it. We take IT projects as point of entry for empirical observations of CoP, which can be relatively difficult to locate within the organization. The link between the two operating modes is formed by a transitory area where the interface actors, the common boundary objects and shared repertories circulate. These elements ensure intermediation between the two operating modes and, more broadly, learning between IT projects that crosses three invisible boundaries (Hernes, 2004): mental boundaries (ideas and concepts linked to technologies), physical boundaries (rules of action in projects) and social boundaries (representation of practices and professions linked to identity). While these invisible boundaries can be considered as distinguishing attributes of knowledge, they also enable us to explore the relationship system between this knowledge and the structures in which it occurs.

The duality of structure concept enables the micro-social level to be determined in its daily activity. This study examines the way in which IT project managers mobilize and explore knowledge across boundaries. By their daily transformation of rules and resources, they develop a learning dynamic in the recursive relationship between the project, the CoP and the IS Department structure. This organizational dynamic is illustrated in figure 1. This reading of learning dynamics takes the evolution of individuals (project manager) into account within the “sites of difference” (Abott, 1995) that distinguish both groups (project and CoP) and organizational change. This interactional analysis raises key questions linked to both cooperation and coordination between distinctive work groups, and the role of representations and collective beliefs in the creation of knowledge production and transfer situations (Cohendet, Diani, 2003). Our goal is to provide knowledge management perspectives with a multi-level and integrated approach that associates networking activities through invisible boundaries, learning effects and organizational change.

Attached to the “Innovation Quality Department”, the IS Department is expected to contribute to the company’s innovation and strategy by managing evolutions in IS for all of the international group’s activities.

The introduction of “new IT” led to a certain number of changes in the IS Department: internalization of IT projects, growth of IT developments, significant customer demands, and challenging new knowledge and skills. To meet these needs and to facilitate the development of business knowledge for the IT workers, a new organization was deployed in 2000. The IS Department has been organized in IS Business Units (ISBU). The greatest number of the 1000 IT workers of the IS Department has been regrouped according to the 5 business units (BU) from the French car manufacturer: Product and Process, Industrial Manufacturing, Human Resources Management and Purchasing, Finance Corporation, Trade and Distribution. The two IT projects and the community of practice we studied were located in 2 of the 3 different units located at the ISBU Trade and Distribution. The IT projects were located in the “Internet of Brands Service” and the CoP was located in the “Business Network, Intranet and Training Service”. The third unit was “Marketing and CRM Service”.

Other complementary actions were deployed in line with this organizational structure in order to reinforce the project management policy and standardise practices within IT projects. The IS Department tried to encourage the internal development of skills and control the complexity of data-processing projects by stepping up its formal rules via an increase in the number of validation and follow-up stages in the project process. This made the process linear and required considerable formalization of the activities carried out during the projects. Various actions were implemented to this end: creation of standard forms to fill in (specifying the technical and functional project information details), creation of partnership contracts between the various participants (specifying the role of each participant involved in the project and the stages to be respected), putting the documents produced at the time of the projects online, creation of a consultation body and quality methods aimed at coordinating the teams in the course of the project and at re-utilizing the successes of preceding projects. While these step may at times appear difficult to follow, they were designed to be adaptable to all the projects developed in the IS Department. Training focused on these rules was obligatory for all new project managers. In this context, internal quality consultants acted as the guarantor of rules and the use of activity-formalization tools.

All of these actions adopted by the IS Department therefore reinforced IT project boundaries. On the other hand, project teams needed a more flexible context to work in so as to appropriate new technologies and practice. The community of practice thus emerged from these work contradictions. Different knowledge management initiatives based on a social perspective of knowledge transfer were introduced by the hierarchy (work groups focused on integrating new IT, presentation of projects developing specific technologies, reporting meetings…). These initiatives centred more on the new technologies (device knowledge) rather than on the evolution of project practice (strategic knowledge) and IS Department rules and resources (procedural knowledge) required. Most of the knowledge centre’s interaction with actors in an IS context failed to be seriously taken into account. The community of practice represented a pool of other forms of knowledge for IT project managers.

A community of practice was identified within this strongly formalized and hierarchically arranged context, which was at the origin of a Lotus Notes technology skills hub (called Domino Competence Center) created on the initiative of one manager. This formal unit was created in the beginning of organizational change in the IS Department. The manager brought the participants together on a project platform, seeking the transfer of old to new technologies using an external consultant with a brief to take part in the IT projects and to transfer this technology knowledge. The organizational unit adopted a “learning by doing” approach insofar as its objective was to develop Lotus Notes skills via the implementation of the projects. The unit, initially composed of 15 Project Managers, (including the 10 that we studied) was characterized by freedom of its members to organize themselves autonomously and to exchange information and knowledge about ongoing projects. Distinctive operation rules and routines were gradually created in the IS Department. External consultants and internal IT experts participated punctually on the daily life of this unit, during the implementation of various IT projects.

As the IS Department gradually developed the technological skills required, the Project Managers joined other departments. Five of them left for other departments located in other sites in the Paris Region and in the same building, eight of them integrated the “Business Network, Intranet and Training Service”, and two others (Pierre and Françoise) joined the “Internet of Brands Service”. For those that stayed in the same building, in spite of the group’s spread throughout the organization, informal meetings and rituals that had been developed continued to take place during breaks, at coffee machines, during meals and in offices. Their common history thus created a social link that went beyond the formal boundaries of the skills hub, and a community of practice (CoP) was born. This change led to an evolution in the knowledge field of its members, which was extended to Internet technologies. Subjects of discussion covered technological developments, the project’s implementation, and evolutions in the IS Department and IT fields in general.

The specific language developed by the group indicated their membership. In fact, newcomers to the IS Department, external consultants and internal IT Experts often felt excluded from the informal meetings.

This informal group thus bore all the hallmarks of a community of practice: a common history created during the creation of the skills hub, common knowledge which is that of the context and the integration of Internet technologies framework, the shared repertory inherent to a specific language, and daily ritual.

Before piloting the “Website Hosting Project” in the “Internet of Brands Service”, Pierre had played an important role in this organizational unit’s development. He was a principal founding participant and was also the only one with prior experience of Lotus Notes technology. In line with the hub coordinator’s aim to support skills development by socialization, he shared and developed the team spirit. In sharing his knowledge spontaneously, he encouraged sharing between the other people involved in the project, and also built legitimacy among the other newcomers. After leaving the hub, he continued to take part in the CoP’s informal meetings.

The Converging Configuration Technologies Project Manager, Françoise, was recruited to develop an IT project within the hub. She was directly linked to the CoP members, and she gradually adopted the CoP’s language and routines until she was fully integrated. In spite of her subsequent move to Internet of Brands Service to pilot this project, she also remained a member of the CoP.

The CoP thus included the Project Managers of both the IT projects studied. We shall now present the dynamics created within each project and their interaction with the CoP and the structural level of the IS Department.

The aim of Website Hosting Project was to host all the international subsidiaries websites of the company (approximately a hundred) within the corporate IT infrastructure. The decision to carry out this project was taken during an informal meeting between the CEO and the CIO. Because of this atypical origin, different situations became sources of ambiguity in the project and highlight the needs in terms of knowledge management within this work context:

• Poor interactions across multiple boundaries at the local/global level: Pierre was the only resource entirely devoted to the project. The Internal Consultant and the Technical Manager in charge of the workgroups program, were punctual resources officially allocated by the IS Department. In addition, Pierre was in contact with a wide range of participants in corporate and subsidiary companies who were not entirely dedicated to the project (at the head offices: the User Project Manager and the five Business Managers, at each of the hundred subsidiaries concerned: the CEO, the marketing director, the webmaster and the web agency). In consequence of these multi-stakeholders with different perceptions of the project and the IS Department activities, Pierre had difficulties to cross these multiple boundaries and persuade others of the interest of the project. This factor negatively affected the horizontal cooperation and the collective sensemaking within the project.

• Deviant use of a boundary object in the prescribed area: project implementation was based on a primary study that underestimated the cost and the effects of the project within the organization. The different participants gradually discovered the technological[4] and organizational[5] complexity during the project’s implementation, and the clients refused the excessive modifications in terms of cost, time and quality. This situation gave the IS Department a poor image within the company. The participants tended to use the study as a boundary-object to put pressure on Pierre in line with a formal customer/supplier relationship at the local level.

• A nominated boundary spanner without resources: the undervaluation of resources for the project intensified the IS Department’s problem in terms of legitimacy, especially for Pierre. He had neither the autonomy, nor the authority needed to pursue the project. In accordance with the project management policy, Pierre had to formalize in reports all his actions in detail in order to validate them with the clients. However, respecting the rules did not help him manage the difficulties involved in producing and obtaining the resources needed for the project’s implementation (technical and functional knowledge about websites and more widely about web technologies, website hosting skills, information about marketing constraints in the subsidiaries using websites, etc).

These ambiguous situations highlight the complexity of the IT work context in catalyzing interaction between the different actors through boundaries. We will now show how Pierre attempted to mobilize knowledge and transform rules and resources to overcome the problems of cooperation between the participants in Z1.

The aim of this IT project was to merge two different configurators in a unique IT solution. This web technology allows website users to configure a car (color, design, accessories, etc.) and simulate its finance by the company. The French car manufacture could then offer its potential clients the option to personify their car before buying it. The “French configurator” and the “English configurator” had a good performance record and functional complementarities. However the technologies used had different properties. The head offices of the three business Departments (Export Department, European Department and Internet Project Department) therefore wanted to merge them and then integrate them into the international subsidiaries’ websites. Subsidiaries in 23 countries would implement the unique configurator subsequently.

Sources of ambiguity in this IT work context included mainly the lack of knowledge within the project team and the privileged relationship between Françoise and her hierarchical responsible, Pierre:

• Rich interactions across multiple boundaries at the local level: The project team included Françoise as IS Department Project Manager, an IT Internal Expert and an External Consultant engaged by the project’s client. While the role of the consultant was to provide strategic knowledge about the business company and to specify the project requirements, the expert was there to provide general Internet technology knowledge. In addition, the IT workgroup program was mobilized to put forward proposals for the project’s development. The IT project team firstly faced the difficulty of making the project expectations explicit, notably the implementation of the design features. It was only the second IT project that the young Project Manager had been in charge of. She needed to develop device knowledge (Internet technologies, configurators, integration within existent IS, technical aspects, etc.), procedural knowledge (rules to ensure coordination, agreement processes for operation set-ups, the functional department’s operating mode) and strategic knowledge (evolution of project requirements, mobilization of resources) to carry through the Converging Configurators Project. Thirdly, the Technical Expert had little experience of the configutator technologies, and the External Consultant’s knowledge was insufficient to define the project requirements.

The project team therefore operated via experimentation through an intense communication process across boundaries at the local level. While the project team members progressively discovered the technical specificities of both technologies, they came up with proposals to implement a unique IT solution. This situation generated coordination problems and misunderstanding of the proposals put forward, but also indicated the mutual recognition of the team’s lack of knowledge.

• An autonomous nominated boundary spanner: The affinity between Françoise and Pierre individuals went beyond their hierarchical relationship. Pierre allowed Françoise to adapt the formal project management policy to her strategic view in order to deal with conflicting relationships between business managers. As said Françoise, this autonomy offered her more flexibility within the project and motivated her to look for new resources by relational actions:

  It’s advantageous passing through my hierarchical responsible before contacting other people because he’s a person who encourages his teams and it can avoid certain misunderstandings related to the implicit rules from relational actions
  

  verbatim from Françoise

The adaptation developed encouraged Françoise to deviate rules from the project management policy from the IS Department. As we will show below, this initiative created ambiguous situations with the Business Managers.

The first zone illustrates a “learning process by reaction and formalization” and shows how the project managers found it difficult to overcome social boundaries. The resource of domination used by the project client through a highly formalized relationship reduced the Project Manager’s autonomy. Artefacts mobilized within the project (contract, forms, planning tools, reports and written accounts) reinforced the physical boundaries and limited the Project Manager’s capacity to mobilize strategic knowledge within and without the prescribed area. His lack of autonomy and the negative IS Department representation from the Business Managers were inhibiting factors in the learning process and reinforced the constrictive character of the structure with regards to action. The imbalance of the rules of authority with the rules of coordination and cooperation created a vicious circle: the tenser the situations, the more they were formalized, and the more formalization there was, the tenser the situations became between the participants. Signification process is than inhibited (Giddens, 1984).

The various factors that impacted on Pierre’s practice created an imbalance between the physical, mental and social boundaries, the former being reinforced to the detriment of the other two. The social boundaries became impermeable, despite the numerous interactions between actors. The clients’ supremacy kept the Project Manager from crossing physical boundaries to mobilize new resources. The organizational rigidities of the IS Department generated the opposite effect. Top management only reacted when the project situation become extremely tense and action would otherwise have been blocked. They thus restored the project’s progress by imposing the limited and fragmented participation of the stakeholders.

The learning process was thus triggered “by force” in reaction to the Project Manager’s mobilization of knowledge. The effects of domination avoid the process “disembedding” and “re-embedding” knowledge (Giddens, 1990), “it sticks where practice is not shared’ (Brown and Duguid 2001). Actually, Knowledge creation remained nested at project manager level. In this case, the CoP provided moral support in terms of professional identity and IT Project Manager practice in the context of continual IS Department change. However, this knowledge creation was not enough to ensure good project performance. The project finished one year late. Globally, the IS Department top management team became aware of the impact of the work context’s specific features on the project performance. The organizational learning generated from this local dynamic led to the creation of a new rule (now IT project managers are physically placed in business department during the project implementation) and a new resource (a technical transitory platform,[7] created during the implementation of the “Website Hosting Project”, could be widely used as a new IS Department artefact.

The second zone illustrates a “learning process by emergent cooperation”, and shows the Project Manager’s ability to overcome project boundaries to mobilize knowledge in the CoP. Physical, mental and social boundaries are crossed by the boundary spanner to mobilize and create new resources for the project. Despite the domination effect formulated by the customers, the Project Manager seized emergent learning opportunities, integrated new device-related, procedural and strategic knowledge into the project, and thus sped up the latter. The colleague “adopted” by the Project Manager became an interface actor to transfer knowledge across the CoP and IT project boundaries. This learning dynamic, facilitated by the IT Project Manager’s autonomy, made the mental, physical and social boundaries permeable. She used her legitimacy with project team members and her hierarchical manager to promote knowledge exploration within the project. The experimentation applied by the project team helped them to resolve adverse issues in the project performance, in spite of having less experience than the other project manager. Paradoxically, the IS Department tended to reinforce its structural rigidities.

Both zones of interaction show the importance of the co-construction of boundary objects through local/global level in order to become artefacts in practice and recognised by the structure. Legitimating a posteriori a boundary object created in practice in the prescribed area or in the emergence area, or within the transition area (between both areas) is hardest, in particular if boundary spanners have not the support of top management in the structure level.

Table 1 presents the learning outcomes, the knowledge attributes generated and the facilitating/inhibiting factors identified in each learning dynamic.

The analysis we put forward offers better insights into the impact of the IS work context’s complexities in daily IT project team practice. This perspective can fuel knowledge management systems based on social approaches in order to better incorporate the facilitating and inhibiting factors of the learning dynamic. Rather than create a separate system, it implies improving integration in the organization’s daily operations through the existing coordination and cooperation mechanisms. It is essential to take a critical look at organizational rigidities and project management policy to avoid the vicious circle whereby the more ambiguous the situation, the more formalization is reinforced, thereby inhibiting broader learning dynamics based on cooperation. The instrumentation of “socialization spaces” or “interpretative spaces” (Weick, 1990) as resources for learning is a prior condition to enhancing shared cognition and positively transforming local rules. This work context requires the negotiation of procedural knowledge in order to restore the permeability of social boundaries and construct the cooperative relationship needed to successfully complete a project on time.

In a context of permanent change, knowledge management systems can help develop the identity, culture and global structure of companies. This challenge can not be achieved with a knowledge management system focused only on a codification approach (Mansour, Gaha, 2009). Three potential starting points could be developed. Firstly, the knowledge system should to work on the IS Department’s legitimacy with respect to business departments. The project team made too much effort at local level regarding the evolution of the perception of IS Department and this affected the performance of the IT projects. It should to be managed by another entity.

Secondly, we also need to be aware of certain deviations in project management. Companies may be tempted to allocate fewer human resources solely dedicated to certain projects. There is a trend towards “splitting” the work context, leading to the fragmentation of collective learning. When a project manager only works with actors assigned to complete tasks on a “one-off” basis, there is less opportunity to develop collective learning.

Finally, the knowledge system should to develop an ongoing search for a balance between the project, CoP and the organizational structure, with a special attention to project managers such as knowledge workers (Horibes, 1999). This relationship, constructed by project managers, has a positive impact on project performance. Our study shows that the creation of informal resources and rules conditions the construction of local strategies by IT project teams. It implies a coordination mechanism that encourages network activities, particularly with informal communities. Top management can then play an active role as a “knowledge ambassador” in order to help problematic IT project situations be dealt with successfully. By making the organizational structure more flexible, they can ensure the porosity of boundaries and the exploration of new knowledge within and between projects and also in relation with informal communities. These points are worth exploring in more depth to improve integrated knowledge management system structure an define a more organic project management policy (Koskine, 2004). With regard to future research, we suggest that the investigation of power factors in the integration of embeddedness in organizational learning dynamics is a useful avenue to follow.