Synopses & Reviews
New paradigms for communication/networking systems are needed in order to tackle such emerging issues as heterogeneity, complexity and management of evolvable infrastructures, thus requiring approaches that are both task- and knowledge-driven. The networking and seamless integration of concepts, technologies and devices in a dynamically changing environment poses many challenges to the research community, including interoperability, programmability, management, openness, reliability, performance, context awareness, intelligence, autonomy, security, privacy, safety, and semantics. Inspired by biological systems, autonomic communication envisions communication systems that can organize, configure, optimize, protect, and heal themselves with minimal involvement of human administrators. Autonomic Communication explores conceptual models and associated technologies that will uphold the vision of autonomic communication where devices and applications blur the boundaries between virtual and real worlds as they seamlessly interconnect, intelligently cooperate, and autonomously manage themselves. Written by leading international researchers, the contributions give testimony to the challenges and prospects of this rapidly growing area. The volume is composed of chapters covering a wide range of issues related to autonomic communication. Part I Autonomic Communication Infrastructure 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 Part II Autonomic Communication Services and Middleware 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 Part III Applications to Ad-Hoc (Sensor) Networks and Pervasive Systems Autonomic Communication in Pervasive Multimodal Multimedia Computing System 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 Autonomic Communication provides a vital reference to both researchers and practitioners, particularly those in networking, future and emerging technologies, mobile systems, autonomous technologies, computational intelligence, and embedded systems. The book is also a useful tool for graduate students and senior undergraduate students in courses on networking, autonomous management web, services, network application modeling, knowledge-based systems, and evolutionary software.
Synopsis
New paradigms for communication/networking systems are needed in order to tackle the emerging issues such as heterogeneity, complexity and management of evolvable infrastructures. Such advanced systems possess a composition of characteristics including:
- Situated: they sense and react locally onto environment and context changes.
- Autonomously managed: their actions are decided using local knowledge and self-managing principles.
- Colloborative: they communicate and share knowledge optimizing functionality for suvivability. The intelligence of such networks relies not on the nodes themselves, but is directly associated with their size, complexity, communication and collaboration capabilities.
- Self-organizing: they reorganize and form communities on-the-fly based on the local/global goals and communication needs.
- Highly distributed: they use decentralized optimization strategies and cross-layer or non-layered approaches should be applicable.
- Technology independent: they will be built on abstraction layers that make it possible to develop modular approaches where software and hardware components can be exchanged on the fly.
- Scale-free: they can scale up to very large numbers without exhibiting any visible impact on the performance and functionality.
In order to realize such advanced systems, communcation/networking approaches should become task-and knowledge-driven, enabling a service oriented, requirement and trust driven development of communication networks. This should allow developing networking technologies (hardware/software combinations) that can evolve and create maximal synergy with the other types ofnon-technological networks that consitute their context. The growing complexity of control requires increasingly distributed and self-organizing structures, relying on simple and dependable elements that are able to collaborate to produce sophisticated behaviors and that can adapt to an evolving situation, in which new resources can become available, administrative domains can change and economic models can vary accordingly. The networking and seamless integration of concepts, technologies, devies in a dynamically changing environment sets many many challenges to the research community, including interoperability, programmability, management, openness, reliability, performance, context awareness, intelligence, autonomy, security, privacy, safety, semantics, etc. This edited volume explores the challenges in technolgies that will help realize the vision where devices and applications seamlessly interconnect, intelligently cooperate and autonomously manage themselves, and as a result, the borders of virtual and real world will vanish or become significantly blurred.
Synopsis
New paradigms for communication/networking systems are needed in order to tackle the emerging issues such as heterogeneity, complexity and management of evolvable infrastructures. In order to realize such advanced systems, approaches should become task- and knowledge-driven, enabling a service-oriented, requirement, and trust-driven development of communication networks. The networking and seamless integration of concepts, technologies and devices in a dynamically changing environment poses many challenges to the research community, including interoperability, programmability, management, openness, reliability, performance, context awareness, intelligence, autonomy, security, privacy, safety, and semantics. This edited volume explores the challenges of technologies to realize the vision where devices and applications seamlessly interconnect, intelligently cooperate, and autonomously manage themselves, and as a result, the borders of virtual and real world vanish or become significantly blurred.
Synopsis
This edited volume explores the technological challenge of realizing a world in which devices and applications seamlessly interconnect, intelligently cooperate, and autonomously manage themselves, blurring the boundaries between virtual and real worlds.
Table of Contents
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.-