2020
DOI: 10.3390/fi12110203
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Pulverization in Cyber-Physical Systems: Engineering the Self-Organizing Logic Separated from Deployment

Abstract: Emerging cyber-physical systems, such as robot swarms, crowds of augmented people, and smart cities, require well-crafted self-organizing behavior to properly deal with dynamic environments and pervasive disturbances. However, the infrastructures providing networking and computing services to support these systems are becoming increasingly complex, layered and heterogeneous—consider the case of the edge–fog–cloud interplay. This typically hinders the application of self-organizing mechanisms and patterns, whic… Show more

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Cited by 38 publications
(56 citation statements)
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“…The most straightforward deployment is where each DT is hosted by the corresponding PT, but more complex systems can be designed. The pulverisation meta-model [11] provides exactly that: a partitioning schema and formal model for describing deployments of self-organising Cyber-Physical Systems like aggregate computing systems. However, previous research on aggregate computing and pulverisation model did not explicitly consider the notions like digital twin, virtual device, and the other concepts introduced in Section 2.2.…”
Section: Motivation and Related Workmentioning
confidence: 99%
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“…The most straightforward deployment is where each DT is hosted by the corresponding PT, but more complex systems can be designed. The pulverisation meta-model [11] provides exactly that: a partitioning schema and formal model for describing deployments of self-organising Cyber-Physical Systems like aggregate computing systems. However, previous research on aggregate computing and pulverisation model did not explicitly consider the notions like digital twin, virtual device, and the other concepts introduced in Section 2.2.…”
Section: Motivation and Related Workmentioning
confidence: 99%
“…In this paper, we focus on self-organising Cyber-Physical Systems [10,11], namely collectives of physical devices monitored and controlled by computer-based algorithms that allow them to autonomously organise as a whole towards global goals. In this context, we sustain a vision whereby logical representations of system entities (e.g., digital twins and virtual devices) are key for: (i) separation of concerns in system design and implementation [11,12]; and (ii) achieving improved application cost/performance profiles, for example, through smart deployment or controlled augmentation of the system to improve or facilitate self-organisation processes [13][14][15]. Our position is also that programming approaches to self-organisation can especially benefit from such logical representations, for example, in terms of separation of concerns, declarativity, modularity, and execution optimisability.…”
Section: Introductionmentioning
confidence: 99%
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“…Variants of such a control architecture can also be envisaged, e.g., by considering asynchronicity and different rates for context evaluation, computation, and action. Preliminary work supporting this direction can be found in [37,38], where partitioning schemas and programmable schedulers are proposed.…”
mentioning
confidence: 99%