Tabla de Contenidos: “…About the Series Editors -- Preface -- List of Abbreviations -- 1 Introduction -- 1.1 Multihop wireless networks -- 1.2 Routing challenges in MWNs -- 1.3 Routing techniques in MWNs -- 1.4 Related work -- 1.5 Book contribution -- 1.6 System model and assumptions -- References -- 2 Taxonomy of opportunistic routing: principles and behaviors -- 2.1 EPA generalization -- 2.2 Principles of local behavior of GOR -- 2.3 Least cost opportunistic routing -- 2.4 Conclusions -- References -- 3 Energy efficiency of geographic opportunistic routing -- 3.1 EGOR problem formulation -- 3.2 Efficient localized node-selection algorithms -- 3.3 Energy-efficient geographic opportunistic routing -- 3.4 Performance evaluation -- 3.5 Conclusion -- References -- 4 Capacity of multirate opportunistic routing -- 4.1 Computing throughput bound of OR -- 4.2 Impact of transmission rate and forwarding strategy on throughput -- 4.3 Rate and candidate selection schemes -- 4.4 Performance evaluation -- 4.5 Conclusion -- References -- 5 Multiradio multichannel opportunistic routing -- 5.1 Introduction -- 5.2 System model and opportunistic routing primer -- 5.3 Problem formulation -- 5.4 Forwarding priority scheduling -- 5.5 Performance evaluation 1 -- 5.6 Conclusions and future work -- References -- 6 Medium access control for opportunistic routing - candidate coordination -- 6.1 Existing candidate coordination schemes -- 6.2 Design and analysis of FSA -- 6.3 Simulation results and evaluation -- 6.4 Conclusions -- References -- 7 Integration of opportunistic routing and network coding -- 7.1 A brief review of MORE -- 7.2 Mobile content distribution in VANETs -- 7.3 Related works on mobile content distribution in VANETs -- 7.4 Background on symbol-level network coding -- 7.5 CodeOn: a cooperative popular content broadcast scheme for VANETs based on SLNC -- 7.6 CodePlay: a live multimedia streaming scheme for VANETs based on SLNC -- 7.7 Conclusion -- References -- 8 Multirate geographic opportunistic routing protocol design…”

“…Finding solutions to larger issues requires cooperation between diverse stakeholders, and in this rapidly changing world, only those able to adapt and network successfully will produce fast, competitive solutions. …”

“…He discusses the professional networks in which they were conceived; how they were used; and how they served to legitimize the EPA. …”

Tabla de Contenidos: “…MITOS Y VERDADES DE LAS TIC EN EDUCACIÓN -- PÁGINA LEGAL -- ÍNDICE -- PARA COMENZAR A PONERNOS A TONO -- 1 CONSTRUCTIVISMO, COOPERATIVISMO Y COLABORACIÓN: EL LEGADO DE LEV VYGOTSKY PARA LAS NUEVAS TECNOLOGÍAS -- 2 ALGUNAS ALTERNATIVAS DE USO COLABORATIVO Y CONSTRUCTIVISTA DE TIC -- 2.1 REDES DE APRENDIZAJE BASADAS EN COMUNICACIÓN ESCRITA ASINCRÓNICA (ALN), ASYNCHRONOUS LEARNING NETWORKS -- 2.2 COMPUTER-SUPPORTED COLLABORATIVE LEARNING (CSCL), APRENDIZAJE COLABORATIVO SOPORTADO POR COMPUTADORA: DEFINICIÓN Y DISTINTOS MODELOS -- 2.2.1 ANTECEDENTES HISTÓRICOS DEL APRENDIZAJE COLABORATIVO SOPORTADO POR COMPUTADORA -- 2.3 ¡EPA! …”

Tabla de Contenidos: “…Front Cover -- Plant Hazard Analysis and Safety Instrumentation Systems -- Plant Hazard Analysis and Safety Instrumentation Systems -- Copyright -- Dedication -- Contents -- Foreword -- Preface -- Acknowledgments -- I - Basics of Hazard, Risk Ranking, and Safety Systems -- 1.0 INTRODUCTION -- 2.0 HAZARD AND RISK -- 2.1 Discussions on Hazard and Risk -- 2.2 Hazard Definition and Discussions -- 2.2.1 General Definition -- 2.2.2 HSE UK Definition -- 2.2.3 CCPS Definition -- 2.2.4 ISO/IEC Definition -- 2.2.5 Major Issues and Coverage of Hazard Identification -- 2.2.6 Definition of Commonly Used Terms -- 2.2.7 Hazard Types -- 2.2.8 CCOHS Guidelines -- 2.2.9 Hazard Study Issues -- 2.2.10 Industrial Hazards -- 2.2.11 Networking Security -- 2.3 Hazard Analysis Approach -- 2.4 Risk Definition -- 2.4.1 HSE UK Definition -- 2.4.2 EPA Definition of Risk -- 2.4.3 ISO Definition of Risk -- 2.4.4 IEC Definition of Risk -- 2.4.5 General Risk Concept -- 2.5 Risk Discussions -- 2.5.1 Risk Frequency -- 2.5.2 Severity -- 2.5.3 Risk Level (Based on Action and Time) -- 2.5.4 Control Measure -- 2.5.5 Risk Target -- 2.5.6 Risk Analysis -- 2.5.7 Risk Assessment -- 2.5.8 Risk Assessment Procedure -- 2.5.9 Risk Management -- 3.0 RISK REGISTER, RISK MATRIX AND RISK RANKING -- 3.1 Preamble and a Few Term Definitions -- 3.1.1 Risk Appetite -- 3.1.2 Key Risk Indicator -- 3.2 Risk Register -- 3.2.1 Characteristics of Risk Register -- 3.2.2 Description of Risk Register -- 3.3 Risk Matrix -- 3.3.1 Features of Risk Matrix -- 3.3.2 Risk Matrix Description -- 3.3.3 Risk Level -- 3.4 Risk Ranking -- 3.4.1 Challenges for Risk Ranking -- 3.4.2 Risk Ranking Features -- 3.4.3 Risk Categorization or Cataloging -- 3.4.4 Risk Ranking Methods -- 4.0 CONSEQUENCE, PHA AND ALARP -- 4.1 Consequence -- 4.1.1 Vulnerability -- 4.1.2 Speed of Onset -- 4.2 Preliminary Hazard Analysis (PrHA)…”

Tabla de Contenidos: “…Cover -- Contents -- Preface -- 1 Introduction -- 1.1 Water-Resources Engineering -- 1.2 The Hydrologic Cycle -- 1.3 Designof Water-Resource Systems -- 1.3.1 Water-Control Systems -- 1.3.2 Water-Use Systems -- 1.3.3 Supporting Federal Agencies in the United States -- Problem -- 2 Fundamentals of Flow in Closed Conduits -- 2.1 Introduction -- 2.2 Single Pipelines -- 2.2.1 Steady-State Continuity Equation -- 2.2.2 Steady-State Momentum Equation -- 2.2.3 Steady-State Energy Equation -- 2.2.3.1 Energy and hydraulic grade lines -- 2.2.3.2 Velocity profile -- 2.2.3.3 Head losses in transitions and fittings -- 2.2.3.4 Head losses in noncircular conduits -- 2.2.3.5 Empirical friction-loss formulae -- 2.2.4 Water Hammer -- 2.3 Pipe Networks -- 2.3.1 Nodal Method -- 2.3.2 Loop Method -- 2.3.3 Application of Computer Programs -- 2.4 Pumps -- 2.4.1 AffinityLaws -- 2.4.2 Pump Selection -- 2.4.2.1 Commercially available pumps -- 2.4.2.2 System characteristics -- 2.4.2.3 Limits on pump location -- 2.4.3 Multiple-Pump Systems -- 2.4.4 Variable-Speed Pumps -- Problems -- 3 Design of Water-Distribution Systems -- 3.1 Introduction -- 3.2 Water Demand -- 3.2.1 Per-Capita Forecast Model -- 3.2.1.1 Estimation of per-capita demand -- 3.2.1.2 Estimation of population -- 3.2.2 Temporal Variations in Water Demand -- 3.2.3 Fire Demand -- 3.2.4 Design Flows -- 3.3 Components of Water-Distribution Systems -- 3.3.1 Pipelines -- 3.3.1.1 Minimumsize -- 3.3.1.2 Service lines -- 3.3.1.3 Pipe materials -- 3.3.2 Pumps -- 3.3.3 Valves -- 3.3.4 Meters -- 3.3.5 Fire Hydrants -- 3.3.6 Water-Storage Reservoirs -- 3.4 Performance Criteria for Water-Distribution Systems -- 3.4.1 Service Pressures -- 3.4.2 Allowable Velocities -- 3.4.3 Water Quality -- 3.4.4 Network Analysis -- 3.5 Building Water-Supply Systems -- 3.5.1 Specification of Design Flows…”