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This practical hands-on new resource presents LTE technologies from end-to-end, including network planning and the optimization tradeoff process. This book examines the features of LTE-Advanced and LTE-Advanced Pro and how they integrate into existing LTE networks. Professionals find in-depth coverage of how the air interface is structured at the physical layer and how the related link level protocols are designed and work. This resource highlights potential 5G solutions as considered in releases 14 and beyond, the migration paths, and the challenges involved with the latest updates and standardization process.n nMoreover, the book covers performance analysis and results, as well as SON specifications and realization. Readers learn about OFDMA, and how DFT is used to implement it. Link budgeting, parameter estimations, and network planning and sizing is explained. Insight into core network architecture is provided, including the protocols and signaling used for both data and voice services. The book also presents a detailed chapter on the end-to-end data transfer optimization mechanisms based on the TCP protocol. This book provides the tools needed for network planning and optimization while addressing the challenges of LTE and LTE-advanced networks.

Mobile communication systems. --- Long-Term Evolution (Telecommunications) --- 3GPP Long-Term Evolution (Telecommunications) --- LTE (Telecommunications) --- Cell phone systems --- Vehicles --- Vehicular communication systems --- Radio --- Wireless communication systems --- Standards --- Communication systems

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Destiné aux étudiants de cycle Master, aux ingénieurs et aux enseignants-chercheurs, ce livre décrit les protocoles et le fonctionnement des réseaux cellulaires depuis la troisième génération jusqu'aux évolutions les plus récentes. L'ouvrage commence par une revue des notions fondamentales nécessaires à la compréhension du sujet et donne une vision d'ensemble des versions (releases) du 3GPP pour les communications radiomobiles. Il décrit ensuite les interfaces radio UMTS, HSDPA, HSUPA, HSPA+ et LTE en insistant sur leurs différences et leurs points communs, les avancées et les inconvénients de

Mobile communication systems. --- Long-Term Evolution (Telecommunications) --- Universal Mobile Telecommunications System. --- UMTS (Telecommunication) --- Cell phone systems --- 3GPP Long-Term Evolution (Telecommunications) --- LTE (Telecommunications) --- Vehicles --- Vehicular communication systems --- Radio --- Wireless communication systems --- Standards --- Communication systems

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Creative ability in business. --- Leadership. --- Long-Term Evolution (Telecommunications) --- Mobile communication systems --- Vehicles --- Vehicular communication systems --- Radio --- Wireless communication systems --- 3GPP Long-Term Evolution (Telecommunications) --- LTE (Telecommunications) --- Cell phone systems --- Ability --- Command of troops --- Followership --- Business creativity --- Business --- Success in business --- Standards. --- Communication systems --- Standards --- Creative ability in business --- Leadership --- E-books

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As telecommunications operators and network engineers understand, specific operational requirements drive early network architectural and design decisions for 4G networks. But they also know that because technology, standards, usage practices, and regulatory regimes change on a continuous basis, so do best practices. 4G: Deployment Strategies and Operational Implications helps you stay up to date by providing the latest innovative and strategic thinking on 4G and LTE deployments. It evaluates specific design and deployment options in depth and offers roadmap evolution strategies for LTE network business development. Fortunately, as you’ll discover in this book, LTE is a robust and flexible standard for 4G communications. Operators developing 4G deployment strategies have many options, but they must consider the tradeoffs among them in order to maximize the return on investment for LTE networks. This book will show operators how to develop detailed but flexible deployment road maps incorporating business requirements while allowing the agility that expected and unexpected network evolution require. Such road maps help you avoid costly redeployment while leveraging profitable traffic. Telecommunications experts and authors Trichy Venkataraman Krishnamurthy and Rajaneesh Shetty examine various architectural options provided by the flexibility of LTE and their effect on the general current and future capability of the designed network. They examine specific features of the network, while covering specific architectural deployment strategies through example and then assessing their implications on both near- and long-term operations as well as potential evolutionary paths. Besides helping you understand and communicate network upgrade and architectural evolution road maps (with options), you will learn: How to plan for accessibility, retainability, integrity, availability, and mobility How to balance loads effectively How to manage the constraints arising from regulation and standardization How to manage the many disruptive factors affecting LTE networks 4G: Deployment Strategies and Operational Implications also outlines specific network strategies, which network features and deployment strategies support those strategies, and the trade-offs in business models depending on the strategies chosen. Best of all you will learn a process for proactive management of network road map evolution, ensuring that your network—and your skills—remain robust and relevant as the telecommunications landscape changes.

Long-Term Evolution (Telecommunications) --- 3GPP Long-Term Evolution (Telecommunications) --- LTE (Telecommunications) --- Cell phone systems --- Standards --- Computer Communication Networks. --- Computer network architectures. --- Computer Systems Organization and Communication Networks. --- Architectures, Computer network --- Network architectures, Computer --- Computer architecture --- Computer communication systems. --- Computer organization. --- Organization, Computer --- Electronic digital computers --- Communication systems, Computer --- Computer communication systems --- Data networks, Computer --- ECNs (Electronic communication networks) --- Electronic communication networks --- Networks, Computer --- Teleprocessing networks --- Data transmission systems --- Digital communications --- Electronic systems --- Information networks --- Telecommunication --- Cyberinfrastructure --- Electronic data processing --- Network computers --- Distributed processing

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The key to a successful future mobile communication system lies in the design of its radio scheduler. One of the key challenges of the radio scheduler is how to provide the right balance between Quality of Service (QoS) guarantees and the overall system performance. Yasir Zaki proposes innovative solutions for the design of the Long Term Evolution (LTE) radio scheduler and presents several LTE radio scheduler analytical models that can be used as efficient tools for radio dimensioning. The author also introduces a novel wireless network virtualization framework and highlights the potential gains of using this framework for the future network operators. This framework enables the operators to share their resources and reduce their cost, thus achieving a better overall system performance and radio resource utilization.   Contents - Long Term Evolution (LTE) - LTE Radio Scheduler - Wireless Network Virtualization - Continuous Time Markov Chain (CTMC) - Radio Scheduler Analytical Models - LTE Network Simulator   Target Groups Researchers and students in the field of mobile communication networks, especially with a focus on radio access network design, wireless network virtualization, and radio access analytical modeling.   Author Dr. Yasir Zaki completed his doctoral degree at the Communication Networks Group of TZI (Center for Communication and Information Technology), University of Bremen, Germany. He is a senior researcher and a lecturer at the Communication Networks Group, working in the field of future mobile communications and wireless network virtualization.

Mobile communication systems. --- Engineering & Applied Sciences --- Computer Science --- Long-Term Evolution (Telecommunications) --- Wireless communication systems. --- Communication systems, Wireless --- Wireless data communication systems --- Wireless information networks --- Wireless telecommunication systems --- 3GPP Long-Term Evolution (Telecommunications) --- LTE (Telecommunications) --- Vehicles --- Vehicular communication systems --- Communication systems --- Computer science. --- Computers. --- Computer Science. --- Information Systems and Communication Service. --- Telecommunication systems --- Cell phone systems --- Radio --- Wireless communication systems --- Standards --- Information systems. --- Automatic computers --- Automatic data processors --- Computer hardware --- Computing machines (Computers) --- Electronic brains --- Electronic calculating-machines --- Electronic computers --- Hardware, Computer --- Computer systems --- Cybernetics --- Machine theory --- Calculators --- Cyberspace