Title Cognitive underwater acoustic networking techniques / Dimitri Sotnik, Michael Goetz, Ivor Nissen, editors

Published Berlin, Germany : Springer, [2020] ©2020

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Description 1 online resource (xi, 81 pages) : illustrations Series SpringerBriefs in electrical and computer engineering SpringerBriefs in electrical and computer engineering. Contents Intro -- Preface -- Contents -- Acronyms and Abbreviations -- 1 Overview and Definitions -- 1.1 Cognitive Radio in Wireless Communication -- 1.2 Cognitive Radio in Underwater Communication -- 1.3 Sonar Equation -- 1.4 Intra-/Inter-Knowledge -- References -- 2 Adaptivity at the Physical Layer -- 2.1 Physical-Layer Adjustments -- 2.1.1 Adapting the Source Level -- 2.1.2 Adapting the Data Rate -- 2.1.3 Other Physical Layer Adaptations -- 2.2 Input Parameters for Physical-Layer Adaptivity -- 2.2.1 Relevant User, Application and Platform Inputs for Adaptation 2.2.2 Adaptation Based on Environmental Awareness -- 2.3 Communication of Adaptions -- 2.3.1 Configuration Messages -- 2.3.2 Preamble Encoding -- 2.3.3 Waveform Detection and Classification -- 2.4 Adaptive Parameter Control -- 2.4.1 Negotiation and Switching Mechanisms -- 2.4.2 Optimization Methods and Decision Criteria -- 2.5 CSI Estimation, Prediction and Adjustment -- 2.6 Adaptive MAC -- 2.7 Summary of Adaptivity Parameters and Methods -- References -- 3 Distance Estimation -- 3.1 Inter-Knowledge -- 3.2 Intra-Knowledge -- References -- 4 Delay/Disruption Tolerant Networking 4.1 Store-Carry-Forward Paradigm -- 4.2 Bundle Protocol Specification -- 4.3 DTN for Underwater Acoustic Networks -- 4.4 Data Muling -- References -- 5 Multi Topology Routing -- References -- 6 Autonomous Ad Hoc Networks -- 6.1 JANUS -- 6.2 Kieler Approach -- 6.3 Address Assignment -- References -- 7 Summary -- Index Summary "This book summarizes the latest research on cognitive network-layer methods and smart adaptive physical-layer methods in underwater networks. Underwater communication requires extendable and delay-tolerant underwater acoustic networks capable of supporting multiple frequency bands, data rates and transmission ranges. The book also discusses a suitable foreground communication stack for mixed mobile/static networks, a technology that requires adaptive physical layer waveforms and cognitive network strategies with underlying cooperative and non-cooperative robust processes. The goal is to arrive at a universally applicable standard in the area of Underwater Internet-of-Things [ISO/IEC 30140, 30142, 30143]. The book is the second spin-off of the research project RACUN, after the first RACUN-book 'Underwater Acoustic Networking Techniques'"--Publisher Bibliography Includes bibliographical references and index Notes Online resource; title from PDF title page (SpringerLink, viewed November 24, 2020) Subject Underwater acoustic telemetry. Ad hoc networks (Computer networks) Ad hoc networks (Computer networks) Underwater acoustic telemetry Form Electronic book Author Sotnik, Dimitri, editor Goetz, Michael (Computer scientist) editor Nissen, Ivor, editor. ISBN 9783662616581 3662616580

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