Abstract
Water Supply Systems (WSS) share close similarities with international standards that are widely used in the industry (specifically for food). Therefore, Industry 4.0 (I4.0) principles can integrate software modules and types of equipment among WSS developers and the end users. In this process, existing WSS devices and software applications may remain in use, which requests the coexistence and integration of these current systems. The purpose of the Cyber-Physical Systems (CPS) concept –as the basis of I4.0– into WSS should correspond to an entirely new way of thinking regarding the design of these systems. The CPS combines a virtual representation of embedded systems, real-time and deterministic systems with the physical part of cloud systems. For this reason, it is fundamental to create methods that guide WSS developers in deploying systems that can be easily changed over. The CPS transformation for WSS cannot be performed in a significant and single step but instead requests the applicability of a sequence of smaller steps. In this case, the formation of migration strategies is essential for the WSS adoption, with CPS playing a crucial role via modularization, reconfiguration, and decentralization that provide an encapsulation of their functions as services. There are some issues of the CPS design of the digitalization and implementation of self-* properties (self-organization, self-adaptation, self-optimization, and self-healing) which are vital from the I4.0. The inspiration from nature and biology helps developing adaptive, responsiveness, and evolvable systems. A particular case is that of holonic systems that are an elementary paradigm that can solve very complex problems. This work aims translating correctly the CPS purposes to the WSS domain, considering holonic attributes and constraints. It is expected that the encapsulation of CPS functionalities as services can hide the WSS complexity from the final users as black boxes. In this work, we consider that the management of the CPS in WSS is a Holonic Production Unit.
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Chacón Ramírez, E., Albarrán, J.C., Cruz Salazar, L.A. (2020). The Control of Water Distribution Systems as a Holonic System. In: Borangiu, T., Trentesaux, D., Leitão, P., Giret Boggino, A., Botti, V. (eds) Service Oriented, Holonic and Multi-agent Manufacturing Systems for Industry of the Future. SOHOMA 2019. Studies in Computational Intelligence, vol 853. Springer, Cham. https://doi.org/10.1007/978-3-030-27477-1_27
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