Systems Design - Key Principles
What you'll learn
- Key ideas in systems thinking
- Key concepts in complexity theory
- How to apply complexity theory to design
- How to apply system thinking to design
- Basic understanding of design
This course presents an overview of the key principles of systems design. The course should help you gain a basic understanding of key concepts in systems thinking and complexity theory and how these can be applied in the design of complex systems of all kind.
Section 1: Holism
The systems approach is a holistic one, this means we seek to understand something primarily in the context of the whole that it is part of. Before we go about changing parts we seek to gain an understanding of the overall context in which the parts exist and how they are interrelated in affecting each other and the whole system. Systems design likewise should start with a holistic consideration of the system we are interested in designing.
Section 2: Open Systems
Complex systems are fundamentally open systems. The Internet, a city, or social networks are all open in that anyone can join or leave and their boundary is permeable. This characteristic of complex systems changes fundamentally how we should go about designing for them as without boundary conditions we do not have the same kind of control that we may have when designing simpler systems. Without the capacity to directly impose order on the system we have to work with processes of self-organization and emergence. Most of all this loss of control and being able to impose order on the system requires that as designers we learn to work with context.
Section 3: Relational
At a low level of connectivity what defines an entity is simply its set of elements, but as the degree of connectivity is turned up it is the connections between the parts that comes to define the whole organization as a system. At a low level of connectivity and integration, the system’s parts define the relations and the whole, but given an integrated system with a dense network of connections, this is inverted as the parts come to be shaped by the connections and the whole. At this stage of complexity we have to switch to a relational design paradigm to start to look at and design networks of connections.
Section 4: Networks
As we go from a system with a relatively low level of connectivity to one with a very high level of connectivity, the make-up and behavior of the system change fundamentally. In relatively isolated systems, our focus is on the components and their properties. Due to the high cost of interaction the system is typically bound into a centralized monolithic configuration to reduce the organization’s overall cost of transactions. But when we reduce the cost of interaction - as IT and other innovations have done - then connectivity increases and the system can become unbundled from this centralized configuration allowing for components to become distributed out and re-coordinated through a network.
Section 5: Life Cycle
Within our traditional design paradigm, technologies are designed to operate at some kind of normal static equilibrium within a well-known and predefined environment. Their life-cycle is a linear one, the system is created, put into its operating environment where it is designed to function within some normal set of parameters, at a stable and static equilibrium. It is, most importantly, designed to resist change and to maintain operations within these parameters for as long as possible, before being disposed of; subject to a linear decaying life-cycle. Complex systems are fundamentally dynamic, adaptive, and evolving systems. The net result of this is that the system can change and is not determined to follow a linear life-cycle from cradle to grave. It can learn, grow, and adapt in response to internal and external conditions in order to renew itself. If we want regenerative, resilient, and sustainable systems we have to design for systems to evolve over time.
This is a course on design principles - thus you will not learn new design methods or tools - it will help you to better understand foundational ideas in systems thinking and complexity theory so that you are better able to work with complex systems. It will be of relevance for service designers, organizational designers, sustainable designers, urban designers, among others.
Who this course is for:
- Anyone interested in systems thinking and design
Systems Innovation is an online platform dedicated to the area of complex systems and systems change, our mission is to take the world of complexity and make it accessible to all. Systems and complex can be intimidating subjects with many sophisticated concepts, this is why we believe it is important to always start with the most essential, simplest elements of a subject making sure that students come away with a solid understanding of the core concepts behind each area. As Einstein said "Make everything as simple as possible, but not simpler"
Courses are curated and presented by Joss Colchester. Joss has extensive experience within the domain of complex systems both within academic research(mathematical modeling of complex system + network analysis) and has many years of practical systems engineering experience(designing and developing complex web-based information systems). He has a passion for taking abstract and complex concepts and making them concrete and accessible to as broad an audience as possible by combining clear and effective graphics with well-structured course content.