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Handbook of Signal Processing Systems

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Feldname	Details
Vorliegende Sprache	eng
Hinweise auf parallele Ausgaben	391470582 Druckausg.: ‡Handbook of signal processing systems
ISBN	978-1-4614-6858-5
Name	Bhattacharyya, Shuvra S.
Name	Deprettere, Ed F.
ANZEIGE DER KETTE	Deprettere, Ed F.
Name	Leupers, Rainer
Name	Takala, Jarmo
T I T E L	Handbook of Signal Processing Systems
Auflage	2nd ed. 2013
Verlagsort	New York, NY [u.a.]
Verlag	Springer New York
Erscheinungsjahr	2013
Erscheinungsjahr	2013
Umfang	Online-Ressource (XXI, 1399 p. 708 illus, digital)
Reihe	SpringerLink. Bücher
Notiz / Fußnoten	Description based upon print version of record
Weiterer Inhalt	Foreword; Preface to the First Edition; Preface to the Second Edition; Contents; Contributors; Part I Applications; Signal Processing for Stereoscopic and Multi-View 3D Displays; 1 Introduction; 2 Principles of 3D Visualization; 2.1 3D Scene Perception and Representation; 2.1.1 Visual Perception of Depth; 2.1.2 3D Scene Sensing and Representation; 2.2 3D Displays; 2.2.1 Classification; 2.2.2 Glasses-Enabled Stereoscopic Displays; 2.2.3 Dual-View Autostereoscopic Displays; 2.2.4 Multiview Displays; 2.2.5 Autostereoscopic Displays Modeled as a Signal Processing Channel. 3 Visual Quality of Stereoscopic Displays3.1 Visibility of Image Distortions; 3.1.1 Viewpoint-Related Distortions; 3.1.2 Distortions Related to Spatial View Multiplexing; 3.1.3 Content-Related Distortions; 3.2 Visually Important Properties of Stereoscopic Displays; 3.2.1 Position and Size of the Sweet Spots; 3.2.2 Interdigitation Map; 3.2.3 Angular Visibility; 3.2.4 Display Passband; 3.2.5 Equivalent Perceptual Resolution; 3.2.6 Comfortable Disparity Range; 4 Visual Optimization by Signal Processing; 4.1 View-Point Optimization; 4.1.1 Optimization for Observation Angle. 4.1.2 Optimization for Viewing Distance4.1.3 Optimization for Observation Pose; 4.2 Optimization of Display Passband; 4.2.1 Passband Approximation with a Non-Separable Filter; 4.2.2 Passband Approximation with a Separable Filter; 4.2.3 Passband Approximation with a Tunable Filter; 4.3 Content Optimization; 4.3.1 Crosstalk Mitigation; 4.3.2 Repurposing; 5 Conclusions; References; Video Compression; 1 Evolution of Video Coding Standards; 2 Basic Components of Video Coding Systems; 2.1 Color Processing; 2.2 Prediction; 2.2.1 Temporal Prediction; 2.2.2 Spatial Prediction; 2.2.3 Coding Structure. 2.3 Transform and Quantization2.4 Entropy Coding; 3 Emergent Video Applications and Corresponding Coding Systems; 3.1 HDTV Applications and H.264/AVC; 3.2 Streaming and Surveillance Applications and Scalable Video Coding; 3.3 3D Video Applications and Multiview Video Coding; 4 Conclusion; References; Inertial Sensors and Their Applications; 1 Introduction to Inertial Sensors; 1.1 Accelerometers; 1.2 Gyroscopes; 1.3 Areas of Application; 1.3.1 Navigation; 1.3.2 Automotive; 1.3.3 Industrial; 1.3.4 Consumer Products; 1.3.5 Sport; 2 Performance of Inertial Sensors. 2.1 Effect of Different Sources of Error2.1.1 Calibration of Inertial Sensors; 2.1.2 Allan Variance; 2.1.3 Modeling the Measurement Errors; 2.2 Sensor Quality Grade; 3 Pedestrian Dead Reckoning; 3.1 Step Detection with Accelerometers; 3.2 Step Length Estimation; 3.3 PDR Mechanization; 4 Human Motion Classification with Accelerometers; 4.1 Pattern Recognition; 4.2 Feature Selection; 4.3 Classification Accuracy; 4.4 Areas of Application; 5 Summary; References; Finding It Now: Construction and Configuration of Networked Classifiers in Real-Time Stream Mining Systems; 1 Defining Stream Mining. 1.1 Motivation. Foreword; Preface to the First Edition; Preface to the Second Edition; Contents; Contributors; Part I Applications; Signal Processing for Stereoscopic and Multi-View 3D Displays; 1 Introduction; 2 Principles of 3D Visualization; 2.1 3D Scene Perception and Representation; 2.1.1 Visual Perception of Depth; 2.1.2 3D Scene Sensing and Representation; 2.2 3D Displays; 2.2.1 Classification; 2.2.2 Glasses-Enabled Stereoscopic Displays; 2.2.3 Dual-View Autostereoscopic Displays; 2.2.4 Multiview Displays; 2.2.5 Autostereoscopic Displays Modeled as a Signal Processing Channel. 3 Visual Quality of Stereoscopic Displays3.1 Visibility of Image Distortions; 3.1.1 Viewpoint-Related Distortions; 3.1.2 Distortions Related to Spatial View Multiplexing; 3.1.3 Content-Related Distortions; 3.2 Visually Important Properties of Stereoscopic Displays; 3.2.1 Position and Size of the Sweet Spots; 3.2.2 Interdigitation Map; 3.2.3 Angular Visibility; 3.2.4 Display Passband; 3.2.5 Equivalent Perceptual Resolution; 3.2.6 Comfortable Disparity Range; 4 Visual Optimization by Signal Processing; 4.1 View-Point Optimization; 4.1.1 Optimization for Observation Angle. 4.1.2 Optimization for Viewing Distance4.1.3 Optimization for Observation Pose; 4.2 Optimization of Display Passband; 4.2.1 Passband Approximation with a Non-Separable Filter; 4.2.2 Passband Approximation with a Separable Filter; 4.2.3 Passband Approximation with a Tunable Filter; 4.3 Content Optimization; 4.3.1 Crosstalk Mitigation; 4.3.2 Repurposing; 5 Conclusions; References; Video Compression; 1 Evolution of Video Coding Standards; 2 Basic Components of Video Coding Systems; 2.1 Color Processing; 2.2 Prediction; 2.2.1 Temporal Prediction; 2.2.2 Spatial Prediction; 2.2.3 Coding Structure. 2.3 Transform and Quantization2.4 Entropy Coding; 3 Emergent Video Applications and Corresponding Coding Systems; 3.1 HDTV Applications and H.264/AVC; 3.2 Streaming and Surveillance Applications and Scalable Video Coding; 3.3 3D Video Applications and Multiview Video Coding; 4 Conclusion; References; Inertial Sensors and Their Applications; 1 Introduction to Inertial Sensors; 1.1 Accelerometers; 1.2 Gyroscopes; 1.3 Areas of Application; 1.3.1 Navigation; 1.3.2 Automotive; 1.3.3 Industrial; 1.3.4 Consumer Products; 1.3.5 Sport; 2 Performance of Inertial Sensors. 2.1 Effect of Different Sources of Error2.1.1 Calibration of Inertial Sensors; 2.1.2 Allan Variance; 2.1.3 Modeling the Measurement Errors; 2.2 Sensor Quality Grade; 3 Pedestrian Dead Reckoning; 3.1 Step Detection with Accelerometers; 3.2 Step Length Estimation; 3.3 PDR Mechanization; 4 Human Motion Classification with Accelerometers; 4.1 Pattern Recognition; 4.2 Feature Selection; 4.3 Classification Accuracy; 4.4 Areas of Application; 5 Summary; References; Finding It Now: Construction and Configuration of Networked Classifiers in Real-Time Stream Mining Systems; 1 Defining Stream Mining. 1.1 Motivation
Titelhinweis	Druckausg.: ‡Handbook of signal processing systems
ISBN	ISBN 978-1-4614-6859-2
ISBN	ISBN 978-1-4614-6858-5 ebook
Klassifikation	TTBM
	UYS
	TEC008000
	COM073000
	621.382
	621.382
	621.382/2
	TK5102.9
	TA1637-1638
	TK7882.S65
Kurzbeschreibung	Handbook of Signal Processing Systems is organized in three parts. The first part motivates representative applications that drive and apply state-of-the art methods for design and implementation of signal processing systems; the second part discusses architectures for implementing these applications; the third part focuses on compilers and simulation tools, describes models of computation and their associated design tools and methodologies.This handbook is an essential tool for professionals in many fields and researchers of all levels.
2. Kurzbeschreibung	Handbook of Signal Processing Systems is organized in three parts. The first part motivates representative applications that drive and apply state-of-the art methods for design and implementation of signal processing systems; the second part discusses architectures for implementing these applications; the third part focuses on compilers and simulation tools, describes models of computation and their associated design tools and methodologies.This handbook is an essential tool for professionals in many fields and researchers of all levels
SWB-Titel-Idn	386842094
Signatur	Springer E-Book
Bemerkungen	Elektronischer Volltext - Campuslizenz
Elektronische Adresse	$uhttp://dx.doi.org/10.1007/978-1-4614-6859-2
Internetseite / Link	Volltext
Siehe auch	Volltext

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