CFP CAA 2013 Perth and our Complexity sessions

The CAA (computer applications and quantitative methods in archaeology) is one of those conferences I actually look forward to each year. It has a big community of genuinely great people, it’s always a good experience. Next year it will be held in Perth, Australia. The call for papers is just out, and it looks like there will be quite a few interesting sessions on quite diverse topics. Download the CFP and list of sessions here.

I am involved in one session and one workshop this year, both with Iza Romanowska, Carolin Vegvari and Eugene Ch’ng. Our papers session is entitled “S9. Complex systems simulation in archaeology” and our hands-on workshop “W1. Complex Systems and Agent-Based Modelling in Archaeology”. Feel free to submit an abstract to the session. We hope we will spark some interest in complexity and good discussion with both the session and workshop.

Here are the abstracts:

S9. Complex systems simulation in archaeology. Chairs: I. Romanowska, T. Brughmans. Discussants: E. Ch’ng, C. Vegvari Format: Paper presentation (LP)

A complex system is “a system in which large networks of components with no central control and simple rules of operation give rise to complex collective behaviour, sophisticated information processing, and adaptation via learning or evolution.” Mitchell 2009: 14. Complexity has been proclaimed as a new paradigm shift in science almost half a century ago. It developed as a response to the reductionist approach of René Descartes and the idea of a ‘clockwork universe’ that dominated past thinking for many centuries. Complexity brings a fresh alternative to this mechanistic approach. Complex Systems exist in every hierarchy of our world, from the molecular, to individual organisms, and from community to the global environment. This is why researchers in many disciplines, including archaeology, found particularly appealing the idea that global patterns can emerge in the absence of central control through interaction between local elements governed by simple rules (Kohler 2012). As a result, the unifying phrase ‘the whole is greater than the sum of its parts’ (Aristotle, Metaphysica 10f-1045a) became the common ground for scholars in many disciplines.
Due to the complex nature of interactions, the study of complex systems requires computational tools such as equation-based modelling, agent-based modelling (ABM) and complex network analysis. In recent years the number of archaeological applications of complex systems simulation has increased significantly, not in the least due to a wider availability of computing power and user-friendly software alternatives. The real strength of these tools lies in their ability to explore hypothetical processes that give rise to archaeologically attested structures. They require archaeological assumptions to be made explicit and very often force researchers to present them in quantifiable form. For example, vague concepts such as ‘social coherence’, ‘connectivity’ or even seemingly explicit ‘dispersal rates’, often have to be given numeric values if they are to be integrated into computational models. Computational tools also allow for testing alternative hypotheses by creating ‘virtual labs’ in which archaeologists can test and eliminate models which, although superficially logical, are not plausible.
The main contribution that complexity science perspectives have to offer archaeology is the wide set of modelling and analytical approaches which recognise the actions of individual agents who collectively and continually create new cultural properties. Indeed, it has been argued that a complexity science perspective incorporates the advantages of culture historical, processual and post-processual paradigms in archaeology (Bentley and Maschner 2003; Bintliff 2008). Quantifiable complex systems simulations and mathematical modelling can provide a way to bridge the gap between the reductionist approach and the constructionist study of the related whole (Bentley and Maschner 2003).
This session aims to reflect upon and build on the recent surge of complex systems simulation applications in archaeology. Innovative and critical applications in analytical modelling, ABM, network analysis and other methods performed in a complexity science approach are welcomed. We hope this session will spark creative and insightful discussion on the potential and limitations of complexity science, possible applications, tools as well as its theoretical implications.

W1. Complex Systems and Agent-Based Modelling in Archaeology. Chairs: E. Ch’ng, C. Vegvari. Discussants: I. Romanowska, T. Brughmans

Modelling in various forms has always been an integral part of archaeology. In the broadest sense, archaeology is the study of human activities in the past, and a model is a simplified representation of reality. As a map is a useful abstract of the physical world that allows us to see aspects of the world we chose to, so a computational model distils reality into a few key features, leaving out unnecessary details so as to let us see connections. Human societies in their environmental context can be considered as complex systems. Complex systems are systems with many interacting parts, they are found in every hierarchy of the universe, from the molecular level to large planetary systems within which life and humanity with its cultural developments occur. Formal modelling can help archaeologists to identify the relationships between elements within a complex socio-environmental system in that particular hierarchy. Simulating large populations and non-linear interactions are computationally expensive. In recent years, however, the introduction of new mathematical techniques, rapid advances in computation, and modelling tools has greatly enhanced the potential of complex systems analysis in archaeology. Agent-Based Modelling (ABM) is one of these new methods and has become highly popular with archaeologists. In Agent-Based Modelling, human individuals in ancient societies are modelled as individual agents. The interaction of agents with each other and with their environment can give rise to emergent properties and self-organisation at the macro level – the distribution of wealth within a society, the forming of cohesive groups, population movements in climate change, the development of culture, and the evolution of landscape use are among the examples. Thus, the application of Agent-Based Models to hypothesis testing in archaeology becomes part of the question. The ability to construct various models and run hundreds of simulation in order to see the general developmental trend can provide us with new knowledge impossible in traditional approaches. Another advantage of agent-based models over other mathematical methods is that they can easily model, or capture heterogeneity within these systems, such as the different characteristics (personalities, gender, age, size, etc), preferences (coastal, in-land, food, fashion), and dynamics (microstates of position and orientation).
We would like to invite archaeologists new to complex systems and Agent-Based Modelling for an introductory workshop on Complex Systems and Agent-Based Modelling in archaeology. The workshop introduces the concept of Complexity in archaeology, drawing relationships between Information, Computation and Complexity. The practicality of the workshop leads beginners in building simple agent- based models and provides a means to build more complex simulations after. Participants knowledgeable in Complexity wishing to gain insights on real-world applications of Complexity will benefit from this workshop. Participants will get the opportunity to experiment with simple models and draw conclusions from analysis of simulations of those models. Programming experience is not required as the workshop leads beginners from the ground up in modelling tools.

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