Stamatis Karnouskos scite author profile

Abstract-The increasing usage of smart embedded devices in business blurs the line between the virtual and real worlds. This creates new opportunities to build applications that better integrate real-time state of the physical world, and hence, provides enterprise services that are highly dynamic, more diverse, and efficient. Service-Oriented Architecture (SOA) approaches traditionally used to couple functionality of heavyweight corporate IT systems, are becoming applicable to embedded real-world devices, i.e., objects of the physical world that feature embedded processing and communication. In such infrastructures, composed of large numbers of networked, resource-limited devices, the discovery of services and on-demand provisioning of missing functionality is a significant challenge. We propose a process and a suitable system architecture that enables developers and business process designers to dynamically query, select, and use running instances of real-world services (i.e., services running on physical devices) or even deploy new ones on-demand, all in the context of composite, real-world business applications.

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Industrial automation based on cyber-physical systems technologies: Prototype implementations and challenges

Leitão

Colombo

Karnouskos

2016

Computers in Industry

560

258

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The Internet of Things in an Enterprise Context

Karnouskos²,

2009

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This paper puts the Internet of Things in a wider context: How it relates to the Future Internet overall, and where the business value lies so that it will become interesting for enterprises to invest in it. Real-World Awareness and Business Process Decomposition are the two major paradigms regarding future business value. The major application domains where the Internet of Things will play an important role and where there are concrete business opportunities are highlighted. But there are also many technical challenges that need to be addressed. These are listed and it is shown how they are tackled by existing research projects with industrial participation.

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Stuxnet worm impact on industrial cyber-physical system security

Karnouskos

2011

379

170

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Smart Agents in Industrial Cyber–Physical Systems

Karnouskos²,

et al. 2016

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Abstract-Future industrial systems can be realized using the Cyber-Physical Systems (CPS) that advocate the co-existence of cyber and physical counterparts in a network structure to perform the system's functions in a collaborative manner. MultiAgent systems share common ground with CPS and can empower them with a multitude of capabilities in their efforts to achieve complexity management, decentralization, intelligence, modularity, flexibility, robustness, adaptation, and responsiveness. This work surveys and analyzes the current state of the industrial application of agent technology in CPS, and provides a vision on the way agents can effectively enable emerging CPS challenges.

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