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200 00$aProbabilistic Models and Inference for Multi-View People Detection in Overlapping Depth Images
210   $aKarlsruhe$cKIT Scientific Publishing$d2022
215   $a1 online resource (204 p.)
225 1 $aForschungsberichte aus der Industriellen Informationstechnik
311 08$a3-7315-1177-0 
330   $aIn this work, the task of wide-area indoor people detection in a network of depth sensors is examined. In particular, we investigate how the redundant and complementary multi-view information, including the temporal context, can be jointly leveraged to improve the detection performance. We recast the problem of multi-view people detection in overlapping depth images as an inverse problem and present a generative probabilistic framework to jointly exploit the temporal multi-view image evidence.
606   $aElectrical engineering$2bicssc
610   $adepth sensor indoor surveillance
610   $ainverses Problem
610   $ajoint multi-view person detection
610   $amean-field variational inference
610   $aNetzwerk von 3D-Sensoren
610   $aprobabilistische Personendetektion
610   $aTiefenbilder
610   $avertical top-view indoor pedestrian detection
615  7$aElectrical engineering
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200 10$aOutput coupling in optical cavities and lasers $ea quantum theoretical approach /$fKikuo Ujihara
210   $aWeinheim $cWiley$dc2010
215   $a1 online resource (410 p.)
300   $aDescription based upon print version of record.
311 08$a9783527407637 
311 08$a3527407634 
320   $aIncludes bibliographical references and index.
327   $aOutput Coupling in Optical Cavities and Lasers; Contents; Preface; Acknowledgments; 1 A One-Dimensional Optical Cavity with Output Coupling: Classical Analysis; 1.1 Boundary Conditions at Perfect Conductor and Dielectric Surfaces; 1.2 Classical Cavity Analysis; 1.2.1 One-Sided Cavity; 1.2.2 Symmetric Two-Sided Cavity; 1.3 Normal Mode Analysis: Orthogonal Modes; 1.3.1 One-Sided Cavity; 1.3.2 Symmetric Two-Sided Cavity; 1.4 Discrete versus Continuous Mode Distribution; 1.5 Expansions of the Normalization Factor; 1.6 Completeness of the Modes of the ''Universe''
327   $a2 A One-Dimensional Optical Cavity with Output Coupling: Quantum Analysis2.1 Quantization; 2.2 Energy Eigenstates; 2.3 Field Commutation Relation; 2.4 Thermal Radiation and the Fluctuation-Dissipation Theorem; 2.4.1 The Density Operator of the Thermal Radiation Field; 2.4.2 The Correlation Function and the Power Spectrum; 2.4.3 The Response Function and the Fluctuation-Dissipation Theorem; 2.4.4 Derivation of the Langevin Noise for a Single Cavity Resonant Mode; 2.4.5 Excitation of the Cavity Resonant Mode by a Current Impulse; 2.5 Extension to an Arbitrarily Stratified Cavity
327   $a2.5.1 Description of the Cavity Structure2.5.2 The Modes of the ''Universe''; 3 A One-Dimensional Quasimode Laser: General Formulation; 3.1 Cavity Resonant Modes; 3.2 The Atoms; 3.3 The Atom-Field Interaction; 3.4 Equations Governing the Atom-Field Interaction; 3.5 Laser Equation of Motion: Introducing the Langevin Forces; 3.5.1 The Field Decay; 3.5.2 Relaxation in Atomic Dipole and Atomic Inversion; 4 A One-Dimensional Quasimode Laser: Semiclassical and Quantum Analysis; 4.1 Semiclassical Linear Gain Analysis; 4.2 Semiclassical Nonlinear Gain Analysis; 4.3 Quantum Linear Gain Analysis
327   $a4.4 Quantum Nonlinear Gain Analysis5 A One-Dimensional Laser with Output Coupling: Derivation of the Laser Equation of Motion; 5.1 The Field; 5.2 The Atoms; 5.3 The Atom-Field Interaction; 5.4 Langevin Forces for the Atoms; 5.5 Laser Equation of Motion for a Laser with Output Coupling; 6 A One-Dimensional Laser with Output Coupling: Contour Integral Method; 6.1 Contour Integral Method: Semiclassical Linear Gain Analysis; 6.2 Contour Integral Method: Semiclassical Nonlinear Gain Analysis; 6.3 Contour Integral Method: Quantum Linear Gain Analysis
327   $a6.4 Contour Integral Method: Quantum Nonlinear Gain Analysis7 A One-Dimensional Laser with Output Coupling: Semiclassical Linear Gain Analysis; 7.1 The Field Equation Inside the Cavity; 7.2 Homogeneously Broadened Atoms and Uniform Atomic Inversion; 7.3 Solution of the Laser Equation of Motion; 7.3.1 The Field Equation for Inside the Cavity; 7.3.2 Laplace-Transformed Equations; 7.3.3 The Field Inside the Cavity; 7.3.4 The Field Outside the Cavity; 8 A One-Dimensional Laser with Output Coupling: Semiclassical Nonlinear Gain Analysis; 8.1 The Field Equation Inside the Cavity
327   $a8.2 Homogeneously Broadened Atoms and Uniform Pumping
330   $aAuthored by one of the founders and major players in this field of research, this is a thorough and comprehensive approach to the quantum mechanical output coupling theory of lasers -- an important area of optical physics that has so far been neglected in the scientific literature. Clearly structured, the various sections cover one-dimensional optical cavity, laser, and microcavity laser with output coupling, atom-field interaction in a free-dimensional space, 3D analysis of spontaneous emission in a planar microcavity with output coupling, plus two-atom spontaneous emission.With numer
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200 10$aMobile inter-networking with IPv6 $econcepts, principles, and practices /$fRajeev S. Koodli and Charles E. Perkins
210   $aHoboken, N.J. $cWiley-Interscience$dc2007
215   $a1 online resource (400 p.)
300   $aDescription based upon print version of record.
311 08$a9780471681656 
311 08$a0471681652 
320   $aIncludes bibliographical references and index.
327   $aPreface. -- Acknowledgments. -- Acronyms. -- Part I Introduction and Background. -- 1 Mobility on the Internet: Introduction. -- 2 IP Version. -- 3 IP Security. -- Part II IP Mobility. -- 4 Mobility Concepts and Principles. -- 5 Mobility Support Using Mobile IP. -- 6 Mobile IPv6 Protocol. -- 7 Binding Cache Management. -- 8 Return Routability. -- 9 IP Security for Mobile Nodes and their Home Agents. -- 10 Packet Handling. -- 11 Movement Detection. -- 12 Dynamic Home Agent Discovery. -- 13 Network Mobility. -- Part III Advanced Mobility Protocols. -- 14 Fast Handovers. -- 15 Fast Handovers Protocol. -- 16 Context Transfers. -- 17 Hierarchical Mobility Management.Part IV Applying IP Mobility. -- 18 Mobile IPv6 in CDMA Packet Data Networks. -- 19 Enterprise Mobile Networking. -- 20 Fast Handover in a Wireless LAN. -- Part V Emerging Topics in IP Mobility. -- 21 Multiaccess and Mobility. -- 22 Seamless Handovers. -- 23 Location Privacy and IP Mobility. -- 24 Route Optimization for Mobile IPv4 using Return Routability. -- References. -- Glossary. -- Index.
330   $aA comprehensive reference on understanding, designing, and implementing IP Mobility This authoritative reference provides readers with a thorough understanding of IP Mobility using Mobile IPv6 and companion advanced mobility protocols including network mobility and fast handovers. It illustrates basic concepts and principles behind the IP Mobility architecture and covers the practices using detailed protocol description. Of particular importance is how mobile networking will support billions of devices without restricting applications or overburdening network infrastructures, and how it will support the movement of users from network to network without compromising security. Authors Koodli and Perkins investigate how IP mobility is used in practice and the adoption of Mobile IPv6 in CDMA cellular systems. They also cover some experimental work, including performance of VoIP handovers over WLAN, multi-access network handovers, and emerging topics such as location privacy. In five parts, Mobile Inter-networking with IPv6 covers: . Features of IPv6 and IP security . Mobility concepts and principles, Mobile IPv6 protocol, packet handling, and network mobility . Advanced mobility protocols, including fast handovers, fast handover protocol, context transfers, and hierarchical mobility management . Applying IP mobility, including Mobile IPv6 in CDMA packet data networks, enterprise mobile networking, and WLAN fast handovers . Emerging topics such as multi-access and mobility, seamless IP handovers, location privacy and IP mobility, and route optimization for Mobile IPv4 using Mobile IPv6 return routability With chapter exercises and handy references, readers will have plenty of opportunities to pursue topics in further detail. This is a comprehensive reference suitable for practitioners and students with a basic understanding of TCP/IP protocols.
517 3 $aMobile internetworking with IPv6
606   $aMobile communication systems
606   $aTCP/IP (Computer network protocol)
606   $aInternetworking (Telecommunication)
615  0$aMobile communication systems.
615  0$aTCP/IP (Computer network protocol)
615  0$aInternetworking (Telecommunication)
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