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Are You a Micro Project Manager?
Gil Junqueira

Most project managers are well-versed at decomposition. Project managers are trained to break down complex deliverable(s) into smaller and more manageable parts. These parts then serve as a foundation for costing, scheduling and control. As much as this reductionist approach is essential for project management, there is another side to the coin, often neglected by project managers: the systems theory viewpoint.

Before going any further, we shall define what a system is. A system is a “set of things- people, cells, molecules or whatever – interconnected in such a way that they produce their own pattern of behavior over time” (Thinking in Systems, 2008). Projects fit into the definition of systems. Projects are complex systems. There are considerable body of knowledge about systems and the dynamics of systems. This knowledge can, and should be tapped by project managers.

Just by looking at projects through the systems theory viewpoint, we can draw surprising conclusions:

  • Complex projects have feedback delays, which usually means, in practice, that by the time you realize something is wrong with your project, it is too late to do anything about it.
  • The elements of a project (team members, management members, assets, etc; have secondary importance. Much more important are the relationships (interconnections) and purposes within the project. Therefore, as counter-intuitive as it may seem, it may not be of much help to replace your project team if things are not going well!

  • There are other projects within complex projects, which we shall call “sub-projects”. Sub-projects can have purposes and goals that differ from those of the project they are part of. Aligning the goals and purposes of the sub-projects with those of the “main” project are essential to a well-functioning environment.

  • If one of the goals of the project is to be stable as opposes to resilient, you will have a stable but unresilient project. In this circumstance, if the project does not suffer any serious disturbance (risk), it will probably do reasonably well. However, the project will breakdown upon impact of risks because it was not made resilient.

  • Self-organizing elements of a project are better than static; at least for the long term life of the project. New ideas and innovation arise from self-organization. Therefore, allowing elements to self-organize, are not only better in the long run, but can also be a competitive advantage.

  • Hierarchies within a complex project contribute to a more stable and resilient project. Hierarchies simplify the amount of information generated in a project. We know that the number of communication channels increase exponentially for every communication node added. A project which implements effective channels of communication responds more appropriately to the environment and to their own behavior.

Despite continuing advance in project management methodologies, projects, large and small continue to fail at an alarming rate. There is no single reason for this. However, even here systems theory can lead to some new insights.

One of the reasons complex projects are, well, complex is because they exhibit non-linear behavior, which usually means that past performance is not a good indication for what is to come in the future. Non-linearity can also indicate that important stocks within the project (for example throughput) can grow exponentially but then decay as rapidly as it grew, without any warning sign. The unpredictable nature of projects due to non-linearity can be a source of many surprises.

Another source of problems are the multiple nature of limiting factors. When a project manager removes a barrier, which was previously limiting work progress, another barrier can quickly take its place. This is called “layers of limits”. When one layer is removed, another one takes its place.

Delays can also defuse project productivity- not only delays in the actual project schedule when compared to baseline but also delays in information feedback. A delay in feedback can cause a response to be too weak or too late. The same is also true in the other direction: a delayed feedback can cause an unwarranted response, which ends up hurting the project.

Non-linearity, delays, layers of limits… adding to the list is the boundary-less nature of complex projects. There is an old saying stating that everything is connected to everything else. In fact, there are no boundaries surrounding a project, just boundaries of ” convenience”. This is what the PMBOK calls enterprise environmental factors, a placeholder for everything in the project that we have no control of. One can argue that risk analysis can help eliminate or mitigate the negative impacts from factors outside of the project environment. However, risk analysis is mostly done in the framework of reductionism: each element is analyzed separate from the others. The behavior of dynamic systems such as projects, cannot be predicted from studying each element separated from the others. Behavior arises from the interconnection of project elements. Thus one cannot appreciate the risks that a complex project is subjected unless one steps away from it and consider the project as what it really is: a system of interconnected elements.

Humans add to project complexity as well. As a matter of fact, humans are complex systems in their own self. Theories such as bounded rationality and tragedy of the commons put in perspective the human behavior present in projects.

To conclude, much attention is paid to the “micro” management of projects and rightly so. We all know that difficulties arise from details. However, the other side of the coin – the “macro” management, is being neglected by project managers. It is the project manager’s best interest to know when to put a project under a microscope, and when to step back and look at it as a whole. System theory can help project managers be more effective in their job.

Gil Junqueira is an Electrical Engineer with more than 15 years of experience in the manufacturing industry. Past experiences include software and controls engineering as well as mechanical engineering. Recently graduated in Technical Management. PMP certified.

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