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200 10$aSmall cell networks $edeployment, management, and optimization /$fHolger Claussen, David Lo?pez-Pe?rez, Lester Ho, Rouzbeh Razavi, Stepan Kucera
210  1$aHoboken, New Jersey :$cJohn Wiley and Sons, Inc.,$d[2017]
210  2$a[Piscataqay, New Jersey] :$cIEEE Xplore,$d[2017]
215   $a1 PDF (584 pages)
225 1 $aIEEE Press series on networks and services management
311   $a1-118-85434-9 
320   $aIncludes bibliographical references.
327   $aFront Matter -- Introduction. Small Cells-The Future of Cellular Networks -- 100x Capacity Scaling of Cellular Networks -- Automation of Cellular Networks -- Coverage and Capacity Optimization. Frequency Assignment and Access Methods -- Coverage and Capacity Optimization for Indoor Cells -- Coverage and Capacity Optimization for Outdoor Cells -- Interference Management. Frequency-Domain Inter-cell Interference Coordination -- Time-Domain Inter-cell Interference Coordination -- The Sector Offset Configuration -- Control Channel Inter-cell Interference Coordination -- Uplink-Oriented Optimization in Heterogeneous Networks -- Mobility Management and Energy Efficiency. Mobility Management -- Dormant Cells and Idle Modes -- Small Cell Deployment. Backhaul for Small Cells -- Optimization of Small Cell Deployment -- Future Trends and Applications. Ultra-Dense Networks -- HetNet Applications -- Simulating Hetnets -- IEEE Press Series on Networks and Services Management.
330   $a<p> <strong>The first and only up-to-date guide offering complete coverage of HetNets&mdash;written by top researchers and engineers in the field</strong> <p> <em>Small Cell Networks: Deployment, Management, and Optimization</em> addresses key problems of the cellular network evolution towards HetNets. It focuses on the latest developments in heterogeneous and small cell networks, as well as their deployment, operation, and maintenance. It also covers the full spectrum of the topic, from academic, research, and business, to the practice of HetNets in a coherent manner. Additionally, it provides complete and practical guidelines to vendors and operators interested in deploying small cells. <p> The first comprehensive book written by well-known researchers and engineers from Nokia Bell Labs, <em>Small Cell Networks</em> begins with an introduction to the subject&mdash;offering chapters on capacity scaling and key requirements of future networks. It then moves on to sections on coverage and capacity optimization, and interference management. From there, the book covers mobility management, energy efficiency, and small cell deployment, ending with a section devoted to future trends and applications. The book also contains: <ul> <li>The latest review of research outcomes on HetNets based on both theoretical analyses and network simulations</li> <li>Over 200 sources from 3GPP, the Small Cell Forum, journals and conference proceedings, covering all prominent topics in the area of HetNets</li> <li>An overview of indoor coverage techniques such as metrocells, picocells and femtocells, and their deployment and optimization</li> <li>Real case studies as well as innovative research results based on both simulation and measurements</li> <li>Detailed information on simulating heterogeneous networks as used in the examples throughout the book</li> </ul> <p> Given the importance of HetNets for future wireless communications, <em>Small Cell Networks: Deployment, Management, and Optimization</em> is sure to help decision makers as they consider the migration of services to HetNets. It will also appeal to anyone involved in information and communication technology.
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615  0$aCell phone systems$xComputer programs.
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200 10$aInorganic nanostructures$b[electronic resource] $eproperties and characterization /$fPetra Reinke
210   $aWeinheim, Germany $cWiley-VCH$d2012
215   $a1 online resource (203 p.)
300   $aDescription based upon print version of record.
311   $a3-527-40925-4 
320   $aIncludes bibliographical references and index.
327   $aInorganic Nanostructures: Properties and Characterization; Contents; Preface; 1: Dimensions and Surfaces - an Introduction; 1.1: Size, Dimensionality, and Confinement; 1.1.1: Density of States for 3,2,1,0 Dimensions; 1.2: Synthesis of Nanostructures: Fundamental Surface Processes and Reactions; 1.3: Closing Remarks; 2: Experimental Techniques for Nanoscale Materials Analysis; 2.1: Scanning Probe Microscopy; 2.1.1: Scanning Tunneling Microscopy - STM; 2.1.2: Atomic Force Microscopy - AFM; 2.1.3: Manipulation and Construction of Nanostructures with STM and AFM
327   $a2.2: Photoelectron Spectroscopy and Electron Spectroscopy Techniques2.3: Closing Remarks; 3: Semiconductor Nanowires; 3.1: Nanowire Growth; 3.2: Vapor-Liquid-Solid and Vapor-Solid-Solid Growth; 3.2.1: The Size and Position of the Catalyst Particle; 3.3: Nanowire Crystallography - Wire Structure; 3.3.1: Competing Structures: Wurtzite and Zincblende; 3.3.2: Nanowire Crystallography: Connecting to the Substrate; 3.3.3: Complex Nanowires: Branching, Co-axial and Axial Nanowires; 3.4: Horizontal Nanowires; 3.4.1: Synthesis of Horizontal Wires
327   $a3.4.2: The Smallest Wire - Electronic Structure of Monoatomic Wires3.5: Controlling the Electronic Properties of Semiconductor Nanowires; 3.5.1: Controlling the Electronic Properties of Nanowires - Confinement; 3.5.2: Controlling the Electronic Properties of Nanowires - Doping; 3.6: Closing Remarks; 4: Metal Clusters; 4.1: Cluster-Surface Interaction; 4.2: Synthesis of Metal Clusters; 4.2.1: Non-Wetting Metal Clusters; 4.2.2: Aerosols and Cluster Sources; 4.2.3: Synthesis and Stabilization of Metal Clusters; 4.2.4: Clusters on Surfaces: The Smallest Templates; 4.3: Geometry of Clusters
327   $a4.3.1: Shells of Atoms4.3.2: Magic Clusters and Stability; 4.4: Closing Remarks; 5: Quantum Dots; 5.1: Size and Shape in Quantum Dots; 5.1.1: A Short Excursion to Optical Properties; 5.2: Band Gap, Size, and Absorption Edge; 5.3: Synthesis of QDs; 5.3.1: QD Synthesis by Chemical Methods; 5.3.2: Strain-Driven Self-Assembly - Stranski-Krastanov Growth; 5.3.3: The Ge-Si System - Shape Evolution During Growth; 5.4: Superlattices Made of QDs; 5.5: Closing Remarks; 6: Pure Carbon Materials; 6.1: Carbonaceous Materials and Bonding; 6.2: Low-Dimensional Carbon Nanostructures
327   $a6.2.1: Zero-Dimensional - Fullerenes6.2.2: One- and Two-Dimensional - Carbon Nanotubes and Graphene; 6.3: Electronic and Geometric Structure: Graphene and Carbon Nanotubes; 6.3.1: From Graphene to Graphite to Graphene; 6.3.2: Geometric Structure of Carbon Nanotubes; 6.3.3: Electronic Structure of Carbon Nanotubes; 6.3.4: Synthesis of Carbon Nanotubes; 6.4: Graphene - the Electron as a Massless Dirac Fermion; 6.4.1: Electronic Properties, Doping, and Band Gap; 6.4.2: Quantum Confinement and Carbon Nanoribbons; 6.5: Synthesis of Graphene; 6.5.1: Exfoliation from Graphite
327   $a6.5.2: Growth on Metal Substrates
330   $aThis monograph for young researchers and professionals looking for a comprehensive reference offers an advanced treatment of the topic that extends beyond an introductory work.  As such, it systematically covers the inorganic nanostructures in the breadth needed, while presenting them together with the surface science tools used to characterize them, such as electron spectroscopy and scanning probe techniques. The unique challenges in the fabrication of nanostructures are illustrated, and set into context of controlling structure, dimensionality and electronic properties.
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