Autonomic Communication (eBook, PDF)
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Autonomic Communication (eBook, PDF)
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Produktdetails
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- Verlag: Springer US
- Erscheinungstermin: 23. September 2009
- Englisch
- ISBN-13: 9780387097534
- Artikelnr.: 37288557
- Verlag: Springer US
- Erscheinungstermin: 23. September 2009
- Englisch
- ISBN-13: 9780387097534
- Artikelnr.: 37288557
Stamatis Karnouskos is an Expert on M2M / Internet of Things within SAP. He investigates the added-value of integrating networked embedded devices in enterprise systems. For more than 15 years Stamatis leads efforts in several European Commission and industry funded projects related to industrial automation, smart grids, Internet-based services and architectures, software agents, mobile commerce, security and mobility. He serves in the technical advisory board of Internet Protocol for Smart Objects Alliance (IPSO), and the Permanent Stakeholder Group of the European Network and Information Security Agency (ENISA).
Manish Parashar, PhD, is an associate professor in the Department of Electrical and Computer Engineering at Rutgers, The State University of New Jersey, where he is Director of The Applied Software Systems Laboratory (TASSL). Professor Parashar is a recipient of the NSF CAREER award and the Enrico Fermi scholarship, and is a senior member of the IEEE. In addition to publishing over a hundred technical papers in international journals and conferences, Professor Parashar has coauthored/edited three books, and has contributed to several others, in the area of parallel and distributed computing.
Manish Parashar, PhD, is an associate professor in the Department of Electrical and Computer Engineering at Rutgers, The State University of New Jersey, where he is Director of The Applied Software Systems Laboratory (TASSL). Professor Parashar is a recipient of the NSF CAREER award and the Enrico Fermi scholarship, and is a senior member of the IEEE. In addition to publishing over a hundred technical papers in international journals and conferences, Professor Parashar has coauthored/edited three books, and has contributed to several others, in the area of parallel and distributed computing.
Bio
inspired Autonomic Structures: a middleware for Telecommunications Ecosystems.
Social
based Autonomic Routing In Opportunistic Networks.
A Collaborative Knowledge Plane for Autonomic Networks.
A Rate Feedback Predictive Control Scheme Based on Neural Network and Control Theory for Autonomic Communication.
Hovering Information
Self Organizing Information That Finds Its Own Storage.
The CASCADAS Framework for Autonomic Communications.
Autonomic Middleware for Automotive Embedded Systems.
Social Opportunistic Computing: Design for Autonomic User
Centric Systems.
Programming and Validation Techniques for Reliable Goal
driven Autonomic Software.
Autonomic Communication in Pervasive Multimodal Multimedia Computing Systems.
Self
healing for Autonomic Pervasive Computing.
Map
based Design for Autonomic Wireless Sensor Networks.
An Efficient, Scalable and Robust P2P Overlay for Autonomic Communication.
Autonomic and Coevolutionary Sensor Networking.
inspired Autonomic Structures: a middleware for Telecommunications Ecosystems.
Social
based Autonomic Routing In Opportunistic Networks.
A Collaborative Knowledge Plane for Autonomic Networks.
A Rate Feedback Predictive Control Scheme Based on Neural Network and Control Theory for Autonomic Communication.
Hovering Information
Self Organizing Information That Finds Its Own Storage.
The CASCADAS Framework for Autonomic Communications.
Autonomic Middleware for Automotive Embedded Systems.
Social Opportunistic Computing: Design for Autonomic User
Centric Systems.
Programming and Validation Techniques for Reliable Goal
driven Autonomic Software.
Autonomic Communication in Pervasive Multimodal Multimedia Computing Systems.
Self
healing for Autonomic Pervasive Computing.
Map
based Design for Autonomic Wireless Sensor Networks.
An Efficient, Scalable and Robust P2P Overlay for Autonomic Communication.
Autonomic and Coevolutionary Sensor Networking.
Bio
inspired Autonomic Structures: a middleware for Telecommunications Ecosystems.
Social
based Autonomic Routing In Opportunistic Networks.
A Collaborative Knowledge Plane for Autonomic Networks.
A Rate Feedback Predictive Control Scheme Based on Neural Network and Control Theory for Autonomic Communication.
Hovering Information
Self Organizing Information That Finds Its Own Storage.
The CASCADAS Framework for Autonomic Communications.
Autonomic Middleware for Automotive Embedded Systems.
Social Opportunistic Computing: Design for Autonomic User
Centric Systems.
Programming and Validation Techniques for Reliable Goal
driven Autonomic Software.
Autonomic Communication in Pervasive Multimodal Multimedia Computing Systems.
Self
healing for Autonomic Pervasive Computing.
Map
based Design for Autonomic Wireless Sensor Networks.
An Efficient, Scalable and Robust P2P Overlay for Autonomic Communication.
Autonomic and Coevolutionary Sensor Networking.
inspired Autonomic Structures: a middleware for Telecommunications Ecosystems.
Social
based Autonomic Routing In Opportunistic Networks.
A Collaborative Knowledge Plane for Autonomic Networks.
A Rate Feedback Predictive Control Scheme Based on Neural Network and Control Theory for Autonomic Communication.
Hovering Information
Self Organizing Information That Finds Its Own Storage.
The CASCADAS Framework for Autonomic Communications.
Autonomic Middleware for Automotive Embedded Systems.
Social Opportunistic Computing: Design for Autonomic User
Centric Systems.
Programming and Validation Techniques for Reliable Goal
driven Autonomic Software.
Autonomic Communication in Pervasive Multimodal Multimedia Computing Systems.
Self
healing for Autonomic Pervasive Computing.
Map
based Design for Autonomic Wireless Sensor Networks.
An Efficient, Scalable and Robust P2P Overlay for Autonomic Communication.
Autonomic and Coevolutionary Sensor Networking.