Self-Organization in Sensor and Actor Networks. (Record no. 69851)

000 -LEADER
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001 - CONTROL NUMBER
control field EBC470513
003 - CONTROL NUMBER IDENTIFIER
control field MiAaPQ
005 - DATE AND TIME OF LATEST TRANSACTION
control field 20181121153415.0
006 - FIXED-LENGTH DATA ELEMENTS--ADDITIONAL MATERIAL CHARACTERISTICS--GENERAL INFORMATION
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007 - PHYSICAL DESCRIPTION FIXED FIELD--GENERAL INFORMATION
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008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
fixed length control field 181113s2007 xx o ||||0 eng d
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 9780470724453
-- (electronic bk.)
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
Cancelled/invalid ISBN 9780470028209
035 ## - SYSTEM CONTROL NUMBER
System control number (MiAaPQ)EBC470513
035 ## - SYSTEM CONTROL NUMBER
System control number (Au-PeEL)EBL470513
035 ## - SYSTEM CONTROL NUMBER
System control number (CaPaEBR)ebr10301385
035 ## - SYSTEM CONTROL NUMBER
System control number (CaONFJC)MIL212311
035 ## - SYSTEM CONTROL NUMBER
System control number (OCoLC)609849451
040 ## - CATALOGING SOURCE
Original cataloging agency MiAaPQ
Language of cataloging eng
Description conventions rda
-- pn
Transcribing agency MiAaPQ
Modifying agency MiAaPQ
050 #4 - LIBRARY OF CONGRESS CALL NUMBER
Classification number TK7872.D48D74 2007
082 0# - DEWEY DECIMAL CLASSIFICATION NUMBER
Classification number 681/.2
100 1# - MAIN ENTRY--PERSONAL NAME
Personal name Dressler, Falko.
245 10 - TITLE STATEMENT
Title Self-Organization in Sensor and Actor Networks.
250 ## - EDITION STATEMENT
Edition statement 1st ed.
264 #1 - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT)
Place of publication, distribution, etc New York :
Name of publisher, distributor, etc John Wiley & Sons, Incorporated,
Date of publication, distribution, etc 2007.
264 #4 - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT)
Date of publication, distribution, etc ©2008.
300 ## - PHYSICAL DESCRIPTION
Extent 1 online resource (388 pages)
336 ## - CONTENT TYPE
Content type term text
Content type code txt
Source rdacontent
337 ## - MEDIA TYPE
Media type term computer
Media type code c
Source rdamedia
338 ## - CARRIER TYPE
Carrier type term online resource
Carrier type code cr
Source rdacarrier
505 0# - FORMATTED CONTENTS NOTE
Formatted contents note Self-Organization in Sensor and Actor Networks -- Contents -- Foreword -- Preface -- About the Author -- List of Abbreviations -- I Self-Organization -- 1 Introduction to Self-Organization -- 1.1 Understanding self-organization -- 1.2 Application scenarios for self-organization -- 2 System Management and Control - A Historical Overview -- 2.1 System architecture -- 2.2 Management and control -- 2.2.1 Centralized control -- 2.2.2 Distributed systems -- 2.2.3 Self-organizing systems -- 3 Self-Organization - Context and Capabilities -- 3.1 Complex systems -- 3.2 Self-organization and emergence -- 3.3 Systems lacking self-organization -- 3.3.1 External control -- 3.3.2 Blueprints and templates -- 3.4 Self-X capabilities -- 3.5 Consequences of emergent properties -- 3.6 Operating self-organizing systems -- 3.6.1 Asimov's Laws of Robotics -- 3.6.2 Attractors -- 3.7 Limitations of self-organization -- 4 Natural Self-Organization -- 4.1 Development of understandings -- 4.2 Examples in natural sciences -- 4.2.1 Biology -- 4.2.2 Chemistry -- 4.3 Differentiation self-organization and bio-inspired -- 4.3.1 Exploring bio-inspired -- 4.3.2 Bio-inspired techniques -- 4.3.3 Self-organization vs bio-inspired -- 5 Self-Organization in Technical Systems -- 5.1 General applicability -- 5.1.1 Autonomous systems -- 5.1.2 Multi-robot systems -- 5.1.3 Autonomic networking -- 5.1.4 Mobile Ad Hoc Networks -- 5.1.5 Sensor and Actor Networks -- 5.2 Operating Sensor and Actor Networks -- 6 Methods and Techniques -- 6.1 Basic methods -- 6.1.1 Positive and negative feedback -- 6.1.2 Interactions among individuals and with the environment -- 6.1.3 Probabilistic techniques -- 6.2 Design paradigms for self-organization -- 6.2.1 Design process -- 6.2.2 Discussion of the design paradigms -- 6.3 Developing nature-inspired self-organizing systems.
505 8# - FORMATTED CONTENTS NOTE
Formatted contents note 6.4 Modeling self-organizing systems -- 6.4.1 Overview of modeling techniques -- 6.4.2 Differential equation models -- 6.4.3 Monte Carlo simulations -- 6.4.4 Choosing the right modeling technique -- Appendix I Self-Organization - Further Reading -- II Networking Aspects: Ad Hoc and Sensor Networks -- 7 Mobile Ad Hoc and Sensor Networks -- 7.1 Ad hoc networks -- 7.1.1 Basic properties of ad hoc networks -- 7.1.2 Mobile Ad Hoc Networks -- 7.2 Wireless Sensor Networks -- 7.2.1 Basic properties of sensor networks -- 7.2.2 Composition of single-sensor nodes -- 7.2.3 Communication in sensor networks -- 7.2.4 Energy aspects -- 7.2.5 Coverage and deployment -- 7.2.6 Comparison between MANETs and WSNs -- 7.2.7 Application examples -- 7.3 Challenges and research issues -- 7.3.1 Required functionality and constraints -- 7.3.2 Research objectives -- 8 Self-Organization in Sensor Networks -- 8.1 Properties and objectives -- 8.2 Categorization in two dimensions -- 8.2.1 Horizontal dimension -- 8.2.2 Vertical dimension -- 8.3 Methods and application examples -- 8.3.1 Mapping with primary self-organization methods -- 8.3.2 Global state -- 8.3.3 Location information -- 8.3.4 Neighborhood information -- 8.3.5 Local state -- 8.3.6 Probabilistic techniques -- 9 Medium Access Control -- 9.1 Contention-based protocols -- 9.2 Sensor MAC -- 9.2.1 Synchronized listen/sleep cycles -- 9.2.2 Performance aspects -- 9.2.3 Performance evaluation -- 9.3 Power-Control MAC protocol -- 9.4 Conclusion -- 10 Ad Hoc Routing -- 10.1 Overview and categorization -- 10.1.1 Address-based routing vs data-centric forwarding -- 10.1.2 Classification of ad hoc routing protocols -- 10.2 Principles of ad hoc routing protocols -- 10.2.1 Destination Sequenced Distance Vector -- 10.2.2 Dynamic Source Routing -- 10.2.3 Ad Hoc on Demand Distance Vector -- 10.2.4 Dynamic MANET on Demand.
505 8# - FORMATTED CONTENTS NOTE
Formatted contents note 10.3 Optimized route stability -- 10.4 Dynamic address assignment -- 10.4.1 Overview and centralized assignment -- 10.4.2 Passive Duplicate Address Detection -- 10.4.3 Dynamic Address Allocation -- 10.5 Conclusion -- 11 Data-Centric Networking -- 11.1 Overview and classification -- 11.1.1 Data dissemination -- 11.1.2 Network-centric operation -- 11.1.3 Related approaches -- 11.2 Flooding, gossiping and optimizations -- 11.2.1 Flooding -- 11.2.2 Pure gossiping -- 11.2.3 Optimized gossiping -- 11.3 Agent-based techniques -- 11.4 Directed diffusion -- 11.4.1 Basic algorithm -- 11.4.2 Mobility support -- 11.4.3 Energy efficiency -- 11.5 Data aggregation -- 11.5.1 Principles and objectives -- 11.5.2 Aggregation topologies -- 11.6 Conclusion -- 12 Clustering -- 12.1 Principles of clustering -- 12.1.1 Requirements and classification -- 12.1.2 k-means -- 12.1.3 Hierarchical clustering -- 12.2 Clustering for efficient routing -- 12.2.1 Low-Energy Adaptive Clustering Hierarchy -- 12.2.2 Hybrid Energy-Efficient Distributed Clustering Approach -- 12.3 Conclusion -- Appendix II Networking Aspects - Further Reading -- III Coordination and Control: Sensor and Actor Networks -- 13 Sensor and Actor Networks -- 13.1 Introduction -- 13.1.1 Composition of SANETs - an example -- 13.1.2 Properties and capabilities -- 13.1.3 Components of SANET nodes -- 13.1.4 Application examples -- 13.2 Challenges and research objectives -- 13.2.1 Communication and coordination -- 13.2.2 Collaboration and task allocation -- 13.3 Limitations -- 14 Communication and Coordination -- 14.1 Synchronization vs coordination -- 14.1.1 Problem statement -- 14.1.2 Logical time -- 14.1.3 Coordination -- 14.2 Time synchronization in WSNs and SANETs -- 14.2.1 Requirements and objectives -- 14.2.2 Conventional approaches -- 14.2.3 Algorithms for WSNs -- 14.3 Distributed coordination.
505 8# - FORMATTED CONTENTS NOTE
Formatted contents note 14.3.1 Scalable coordination -- 14.3.2 Selected algorithms -- 14.3.3 Integrated sensor-actor and actor-actor coordination -- 14.3.4 Problems with selfish nodes -- 14.4 In-network operation and control -- 14.5 Conclusion -- 15 Collaboration and Task Allocation -- 15.1 Introduction to MRTA -- 15.1.1 Primary objectives -- 15.1.2 Classification and taxonomy -- 15.2 Intentional cooperation - auction-based task allocation -- 15.2.1 Open Agent Architecture -- 15.2.2 Murdoch -- 15.2.3 Dynamic negotiation algorithm -- 15.3 Emergent cooperation -- 15.3.1 Stimulation by work -- 15.3.2 Stimulation by state -- 15.4 Conclusion -- Appendix III Coordination and Control - Further Reading -- IV Self-Organization Methods in Sensor and Actor Networks -- 16 Self-Organization Methods - Revisited -- 16.1 Self-organization methods in SANETs -- 16.2 Positive and negative feedback -- 16.3 Interactions among individuals and with the environment -- 16.4 Probabilistic techniques -- 17 Evaluation Criteria -- 17.1 Scalability -- 17.2 Energy considerations -- 17.2.1 Energy management -- 17.2.2 Transmission power management -- 17.3 Network lifetime -- 17.3.1 Definition of 'network lifetime' -- 17.3.2 Scenario-based comparisons of network lifetime -- V Bio-inspired Networking -- 18 Bio-inspired Systems -- 18.1 Introduction and overview -- 18.1.1 Ideas and concepts -- 18.1.2 Bio-inspired research fields -- 18.2 Swarm Intelligence -- 18.2.1 Principles of ant foraging -- 18.2.2 Ant-based routing -- 18.2.3 Ant-based task allocation -- 18.3 Artificial Immune System -- 18.3.1 Principles of the immune system -- 18.3.2 Application examples -- 18.4 Cellular signaling pathways -- 18.4.1 Introduction to signaling pathways -- 18.4.2 Applicability in SANETs -- 18.5 Conclusion -- Appendix IV Bio-inspired Networking - Further Reading -- Bibliography -- Index.
520 ## - SUMMARY, ETC.
Summary, etc Dr. Falko Dressler is Assistant Professor at the Department of Computer Sciences, University of Erlangen, Germany and, since 2004, Head of the Autonomic Networking Group.  He has made many contributions in the area of quality of service in communication networks (IP, multicast, sensor networks), network security (intrusion detection, high-speed monitoring, IP traceback), ad hoc wireless sensor networks (communication paradigms, congestion control), and bio-inspired networking (lessons learnt from molecular biology to be adapted to communication networks).  His areas of expertise include distributed systems and communication networks, self-organizing autonomous sensor/actuator networks and bio-inspired networking.
588 ## - SOURCE OF DESCRIPTION NOTE
Source of description note Description based on publisher supplied metadata and other sources.
590 ## - LOCAL NOTE (RLIN)
Local note Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2018. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Biologically-inspired computing.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Computer networks -- Management -- Data processing.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Self-organizing systems.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Sensor networks.
655 #4 - INDEX TERM--GENRE/FORM
Genre/form data or focus term Electronic books.
776 08 - ADDITIONAL PHYSICAL FORM ENTRY
Display text Print version:
Main entry heading Dressler, Falko
Title Self-Organization in Sensor and Actor Networks
Place, publisher, and date of publication New York : John Wiley & Sons, Incorporated,c2007
International Standard Book Number 9780470028209
797 2# - LOCAL ADDED ENTRY--CORPORATE NAME (RLIN)
Corporate name or jurisdiction name as entry element ProQuest (Firm)
856 40 - ELECTRONIC LOCATION AND ACCESS
Uniform Resource Identifier <a href="https://ebookcentral.proquest.com/lib/buse-ebooks/detail.action?docID=470513">https://ebookcentral.proquest.com/lib/buse-ebooks/detail.action?docID=470513</a>
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