Affiliation:
1. Department of Computer Science, School of Computing and Engineering, University of Huddersfield, Queensgate, Huddersfield HD1 3DH, UK
Abstract
Despite a profusion of literature on complex adaptive system (CAS) definitions, it is still challenging to definitely answer whether a given system is or is not a CAS. The challenge generally lies in deciding where the boundaries lie between a complex system (CS) and a CAS. In this work, we propose a novel definition for CASs in the form of a concise, robust, and scientific algorithmic framework. The definition allows a two-stage evaluation of a system to first determine whether it meets complexity-related attributes before exploring a series of attributes related to adaptivity, including autonomy, memory, self-organisation, and emergence. We demonstrate the appropriateness of the definition by applying it to two case studies in the medical and supply chain domains. We envision that the proposed algorithmic approach can provide an efficient auditing tool to determine whether a system is a CAS, also providing insights for the relevant communities to optimise their processes and organisational structures.
Reference44 articles.
1. Zimmerman, B., Lindberg, C., and Plsek, P. (1998). Adapted From: Edgeware: Lessons From Complexity Science for Health Care Leaders, VHA Inc.
2. Health care as a complex adaptive system: Implications for design and management;Rouse;Bridge-Wash.-Natl. Acad. Eng.,2008
3. Complex systems: Network thinking;Mitchell;Artif. Intell.,2006
4. Abbott, R., and Hadžikadić, M. (2017). Advanced Technologies, Systems, and Applications, Springer.
5. Understanding complexity—The palliative care situation as a complex adaptive system;Hodiamont;BMC Health Serv. Res.,2019