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040   $aDip.to Ingegneria dell'Innovazione$beng
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100 1 $aBaldi, Pierre$0282482
245 10$aModeling the Internet and the Web :$bprobabilistic methods and algorithms /$cPierre Baldi, Paolo Frasconi, Padhraic Smyth
260   $aChichester, England :$bJohn Wiley & Sons,$cc2003
300   $axix, 285 p. :$bill. ;$c24 cm
504   $aIncludes bibliographical references and index
650  4$aInternet$xMathematical models
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700 1 $aSmyth, Padhraic$eauthor$4http://id.loc.gov/vocabulary/relators/aut$0145717
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200 00$aHSPA Evolution : The Fundamentals for Mobile Broadband $ethe fundamentals for mobile broadband /$fPeter von Wrycza
205   $a1st edition
210  1$aLondon, [England] ;$aSan Diego, California :$cAcademic Press,$d2015.
210  4$dİ2015
215   $a1 online resource (561 p.)
300   $aDescription based upon print version of record.
311   $a1-322-34101-X 
311   $a0-08-099969-7 
320   $aIncludes bibliographical references and index.
327   $aCover; Title Page; Copyright Page; Contents; List of Figures; List of Tables; Preface; Acknowledgments; Part I - Introduction; Chapter 1 - From 3G to 4G: background and motivation of 3G evolution; 1.1 - History and background of 3G; 1.1.1 - Before 3G; 1.1.2 - Research on 3G; 1.1.3 - 3G standardization roots; 1.2 - Standardization; 1.2.1 - The standardization process; 1.2.2 - 3GPP; 1.2.3 - IMT-2000 and IMT-Advanced activities in ITU; 1.3 - Spectrum for 3G and systems beyond 3G; 1.4 - The motivations behind continuing HSPA evolution; 1.4.1 - General driving forces
327   $a1.4.1.1 - Technology advancements1.4.1.2 - Services; 1.4.1.3 - User expectations; 1.4.1.4 - Operator business models; 1.4.1.5 - Cost; 1.4.2 - HSPA-specific evolution drivers and philosophy; References; Part II - Technologies for HSPA; Chapter 2 - High data rates in mobile communication; 2.1 - High data rates: Fundamental constraints; 2.1.1 - High data rates in noise-limited scenarios; 2.1.2 - Higher data rates in interference-limited scenarios; 2.2 - Higher data rates within a limited bandwidth: Higher-order modulation; 2.2.1 - Higher-order modulation in combination with channel coding
327   $a2.2.2 - Variations in instantaneous transmit power2.3 - Wider bandwidth including multi-carrier transmission; 2.3.1 - Multi-carrier transmission; References; Chapter 3 - CDMA transmission principles; 3.1 - Spread spectrum basics; 3.2 - Baseband transmitter model for a CDMA system; 3.3 - Spread spectrum in a real propagation environment; 3.4 - Receiver and equalization strategies; 3.4.1 - Time-domain linear equalization; References; Chapter 4 - Multi-antenna techniques; 4.1 - Multi-antenna configurations; 4.2 - Benefits of multi-antenna techniques; 4.3 - Multiple receive antennas
327   $a4.4 - Multiple transmit antennas4.4.1 - Transmit-antenna diversity; 4.4.1.1 - Delay diversity; 4.4.1.2 - Diversity by means of space-time coding; 4.4.2 - Transmitter-side beamforming; 4.5 - Spatial multiplexing; 4.5.1 - Basic principles; 4.5.2 - Precoder-based spatial multiplexing; 4.5.3 - Nonlinear receiver processing; References; Chapter 5 - Scheduling, link adaptation, and hybrid-ARQ; 5.1 - Link adaptation: power and rate control; 5.2 - Channel-dependent scheduling; 5.2.1 - Downlink scheduling; 5.2.2 - Uplink scheduling
327   $a5.2.3 - Link adaptation and channel-dependent scheduling in the frequency domain5.2.4 - Acquiring channel-state information; 5.2.5 - Traffic behavior and scheduling; 5.3 - Retransmission schemes; 5.4 - Hybrid-ARQ with soft combining; References; Part III - HSPA and its evolution; Chapter 6 - Overview of release 99 WCDMA; 6.1 - System architecture; 6.2 - Protocol architecture; 6.3 - Physical layer;  downlink; 6.4 - Physical layer;  uplink; 6.5 - Resource handling and packet-data session; 6.6 - UE RRC states and state transitions; References; Further Reading; Chapter 7 - Introduction to HSPA
327   $a7.1 - HSPA emerges from WCDMA: Fundamental building blocks
330   $a This book is essential reading for those wishing to obtain a systems perspective and a broad view on the background, performance and application of the latest developments in HSPA in the context of the demands on today's mobile broadband devices and networks. It takes the reader behind the scenes of 3GPP and provides an easily accessible understanding of the basic principles, the latest steps in the standard's evolution, and the motivations behind the development of standardized features. It covers important topics such as smartphone related features, multi-carrier and multi-antenna operation
606   $aBroadband communication systems$xStandards
606   $aMobile communication systems$xStandards
606   $aNetwork performance (Telecommunication)
615  0$aBroadband communication systems$xStandards.
615  0$aMobile communication systems$xStandards.
615  0$aNetwork performance (Telecommunication)
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200 10$aReal-time C++ $eefficient object-oriented and template micro-controller programming /$fChristopher Michael Kormanyos
205   $a1st ed. 2013.
210  1$aHeidelberg [Germany] :$cSpringer,$d2013.
215   $a1 online resource (xxiii, 357 pages) $cillustrations (some color)
225 0 $aGale eBooks
300   $aDescription based upon print version of record.
311   $a3-642-34687-1 
311   $a3-642-42915-7 
320   $aIncludes bibliographical references and index.
327   $aPart I Language Technologies for Real-Time C++ -- Getting Started with Real-Time C++ -- Working with a Real-Time C++ Program on a Board -- An Easy Jump-Start in Real-Time C++ -- Object-Oriented Techniques for Microcontrollers -- C++ Templates for Microcontrollers -- Optimized C++ Programming for Microcontrollers -- Part II Components for Real-Time C++ -- The Right Start -- Low-Level Hardware Drivers in C++ -- Custom Memory Management -- C++ Multitasking -- Part III Mathematics and Utilities for Real-Time C++ -- Floating-Point Mathematics -- Fixed-Point Mathematics -- High-Performance Digital Filters -- C++ Utilities -- Extending the C++ Standard Library and the STL -- Additional Reading -- Part IV Appendices -- A Tutorial for Real-Time C++ -- A Robust Real-Time C++ Environment -- Building and Installing GNU GCC Cross-Compilers -- Building a Microcontroller Circuit.
330   $aThe C++ language has powerful object-oriented and template features that can improve software design and portability while simultaneously reducing code complexity and the risk of error. Furthermore, C++ compiles highly efficient native code. This unique and effective combination makes C++ well-suited for programming microcontroller systems that require compact size, high performance and safety-critical reliability. With this book, Chris Kormanyos delivers a highly practical guide to programming real-time embedded microcontroller systems in C++. It is divided into three parts plus several appendices. Part I provides a foundation for real-time C++ by covering language technologies, including object-oriented methods, template programming and optimization. Next, part II presents detailed descriptions of a variety of C++ components that are widely used in microcontroller programming. It details some of C++?s most powerful language elements, such as class types, templates and the STL, to develop components for microcontroller register access, low-level drivers, custom memory management, embedded containers, multitasking, etc.  Finally, part III describes mathematical methods and generic utilities that can be employed to solve recurring problems in real-time C++. The appendices include a brief C++ language tutorial, information on the real-time C++ development environment and instructions for building GNU GCC cross-compilers and a microcontroller circuit. The most recent specification of C++11 in ISO/IEC 14882:2011 is used throughout the text. To facilitate portability, no libraries other than those specified in the language standard itself are used. Efficiency is always in focus and numerous examples are backed up with real-time performance measurements and size analyses that quantify the true costs of the code down to the very last byte and microsecond. The target audience of this book mainly consists of students and professionals interested in real-time C++. Readers should be familiar with C or another programming language and will benefit most if they have had some previous experience with microcontroller electronics and the performance and size issues prevalent in embedded systems programming.
606   $aC++ (Computer program language)
606   $aMicrocontrollers
606   $aMicroprogramming
615  0$aC++ (Computer program language)
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615  0$aMicroprogramming.
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