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Partial Update Least-Square Adaptive Filtering (2014)

Xie, Bei [VerfasserIn] ; Bose, Tamal

[San Rafael] : Morgan & Claypool Publishers

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UID:

gbv_786663200

Format: 1 Online-Ressource (117 Seiten)

Edition: Also available in print

ISBN: 9781627052320

Series Statement: Synthesis Lectures on Communications #10

Content: Adaptive filters play an important role in the fields related to digital signal processing and communication, such as system identification, noise cancellation, channel equalization, and beamforming. In practical applications, the computational complexity of an adaptive filter is an important consideration. The Least Mean Square (LMS) algorithm is widely used because of its low computational complexity (O(N)) and simplicity in implementation. The least squares algorithms, such as Recursive Least Squares (RLS), Conjugate Gradient (CG), and Euclidean Direction Search (EDS), can converge faster and have lower steady-state mean square error (MSE) than LMS. However, their high computational complexity (O(N2)) makes them unsuitable for many real-time applications. A well-known approach to controlling computational complexity is applying partial update (PU) method to adaptive filters. A partial update method can reduce the adaptive algorithm complexity by updating part of the weight vector instead of the entire vector or by updating part of the time. In the literature, there are only a few analyses of these partial update adaptive filter algorithms. Most analyses are based on partial update LMS and its variants. Only a few papers have addressed partial update RLS and Affine Projection (AP). Therefore, analyses for PU least-squares adaptive filter algorithms are necessary and meaningful

Content: 2. Background -- 2.1 Basic adaptive filter models -- 2.2 Adaptive filter models -- 2.2.1 System identification -- 2.2.2 Channel equalization -- 2.3 Existing work on partial update adaptive filters -- 2.4 Basic partial update methods -- 2.4.1 Periodic partial update method -- 2.4.2 Sequential partial update method -- 2.4.3 Stochastic partial update method -- 2.4.4 MMax method --

Content: 1. Introduction -- 1.1 Motivation -- 1.2 Problem statement -- 1.3 Organization of the monograph --

Content: 3. Partial update CMA-based algorithms for adaptive filtering -- 3.1 Motivation -- 3.2 Review of constant modulus algorithms -- 3.3 Partial update constant modulus algorithms -- 3.3.1 Partial update CMA -- 3.3.2 Partial update NCMA -- 3.3.3 Partial update LSCMA -- 3.4 Algorithm analysis for a time-invariant system -- 3.4.1 Steady-state performance of partial update SDCMA -- 3.4.2 Steady-state performance of partial update dynamic LSCMA -- 3.4.3 Complexity of the PU SDCMA and LSCMA -- 3.5 Simulation, a simple FIR channel -- 3.5.1 Convergence performance -- 3.5.2 Steady-state performance -- 3.5.3 Complexity -- 3.6 Algorithm analysis for a time-varying system -- 3.6.1 Algorithm analysis of CMA1-2 and NCMA for a time-varying system -- 3.6.2 Algorithm analysis of LSCMA for a time-varying system -- 3.6.3 Simulation -- 3.7 Conclusion --

Content: 4. Partial-update CG algorithms for adaptive filtering -- 4.1 Review of conjugate gradient algorithm -- 4.2 Partial-update CG -- 4.3 Steady-state performance of partial-update CG for a time-invariant system -- 4.4 Steady-state performance of partial-update CG for a time-varying system -- 4.5 Simulations -- 4.5.1 Performance of different PU CG algorithms -- 4.5.2 Tracking performance of the PU CG using the first-order Markov model -- 4.6 Conclusion --

Content: 5. Partial-update EDS algorithms for adaptive filtering -- 5.1 Motivation -- 5.2 Review of Euclidean direction search algorithm -- 5.3 Partial update EDS -- 5.4 Performance of the partial-update EDS in a time-invariant system -- 5.5 Performance of the partial-update EDS in a time-varying system -- 5.6 Simulations -- 5.6.1 Performance of the PU EDS in a time-invariant system -- 5.6.2 Tracking performance of the PU EDS using the first-order Markov model -- 5.6.3 Performance comparison of the PU EDS with EDS, PU RLS, RLS, PU CG, and CG -- 5.7 Conclusion --

Content: 6. Special applications of partial-update adaptive filters -- 6.1 Application in detecting GSM signals in a local GSM system -- 6.2 Application in image compression and classification -- 6.2.1 Simulations -- 6.3 Conclusion --

Content: Bibliography -- Authors' biographies

Note: Description based upon print version of record , Introduction; Motivation; Problem Statement; Organization of the Monograph; Background; Basic Adaptive Filter Models; Adaptive Filter Models; System Identification; Channel Equalization; Existing Work on Partial Update Adaptive Filters; Basic Partial Update Methods; Periodic Partial Update Method; Sequential Partial Update Method; Stochastic Partial Update Method; MMax Method; Partial Update CMA-based Algorithms for Adaptive Filtering; Motivation; Review of Constant Modulus Algorithms; Partial Update Constant Modulus Algorithms; Partial Update CMA; Partial Update NCMA; Partial Update LSCMA , Algorithm Analysis for a Time-Invariant SystemSteady-State Performance of Partial Update SDCMA; Steady-State Performance of Partial Update Dynamic LSCMA; Complexity of the PU SDCMA and LSCMA; Simulation - A Simple FIR Channel; Convergence Performance; Steady-State Performance; Complexity; Algorithm Analysis for a Time-Varying System; Algorithm Analysis of CMA1-2 and NCMA for a Time-Varying System; Algorithm Analysis of LSCMA for a Time-Varying System; Simulation; Conclusion; Partial-Update CG Algorithms for Adaptive Filtering; Review of Conjugate Gradient Algorithm; Partial-Update CG , Steady-State Performance of Partial-Update CG for a Time-Invariant SystemSteady-State Performance of Partial-Update CG for a Time-Varying System; Simulations; Performance of Different PU CG Algorithms; Tracking Performance of the PU CG Using the First-Order Markov Model; Conclusion; Partial-Update EDS Algorithms for Adaptive Filtering; Motivation; Review of Euclidean Direction Search Algorithm; Partial update EDS; Performance of the Partial-Update EDS in a Time-Invariant System; Performance of the Partial-Update EDS in a Time-Varying System; Simulations , Performance of the PU EDS in a Time-Invariant SystemTracking performance of the PU EDS Using the First-Order Markov Model; Performance Comparison of the PU EDS with EDS, PU RLS, RLS, PU CG, and CG; Conclusion; Special Applications of Partial-Update Adaptive Filters; Application in Detecting GSM Signals in a Local GSM System; Application in Image Compression and Classification; Simulations; Conclusion; Bibliography; Authors' Biographies , Also available in print. , Mode of access: World Wide Web. , System requirements: Adobe Acrobat Reader.

Additional Edition: ISBN 9781627052313

Additional Edition: Print version Partial Update Least-Square Adaptive Filtering

Language: English

Keywords: Electronic books

DOI: 10.2200/S00575ED1V01Y201403COM010

URL: Volltext

URL: Inhaltstext

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Mobile Platforms and Development Environments (2012)

Helal, Sumi [VerfasserIn] ; Bose, Raja [VerfasserIn] ; Li, Wengdong [VerfasserIn]

[San Rafael] : Morgan & Claypool Publishers

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UID:

gbv_723616493

Format: 1 Online-Ressource (122 Seiten)

Edition: Also available in print

ISBN: 9781608458677

Series Statement: Synthesis Lectures on Mobile & Pervasive Computing #9

Content: Mobile platform development has lately become a technological war zone with extremely dynamic and fluid movement, especially in the smart phone and tablet market space. This Synthesis lecture is a guide to the latest developments of the key mobile platforms that are shaping the mobile platform industry. The book covers the three currently dominant native platforms--iOS, Android and Windows Phone--along with the device-agnostic HTML5 mobile web platform. The lecture also covers location-based services (LBS) which can be considered as a platform in its own right.The lecture utilizes a sample application (TwitterSearch) that the authors show programmed on each of the platforms. Audiences who may benefit from this lecture include: (1) undergraduate and graduate students taking mobile computing classes or self-learning the mobile platform programmability road map; (2) academic and industrial researchers working on mobile computing R&D projects; (3) mobile app developers for a specific platform who may be curious about other platforms; (4) system integrator consultants and firms concerned with mobilizing businesses and enterprise apps; and (5) industries including health care, logistics, mobile workforce management, mobile commerce and payment systems and mobile search and advertisement

Content: 1. From the Newton to the iPhone -- 1.1 Recent history of mobile platforms -- 1.2 First generation mobile platforms -- 1.3 J2ME and BREW -- 1.4 The stars aligned --

Content: 2. iOS -- 2.1 Evolution: from iPhone OS to iOS -- 2.2 Direct manipulation through multi-touch -- 2.3 iOS architecture layers -- 2.3.1 Core OS layer -- 2.3.2 Core services layer -- 2.3.3 Media layer -- 2.3.4 Cocoa touch layer -- 2.4 Software development tools -- 2.4.1 Objective C -- 2.4.2 Xcode -- 2.4.3 Interface builder -- 2.4.4 Instruments -- 2.4.5 iOS simulator -- 2.4.6 Writing your first iOS app -- 2.5 iCloud --

Content: 3. Android -- 3.1 From humble beginnings to top dog -- 3.2 Platform architecture -- 3.2.1 Kernel -- 3.2.2 Android runtime -- 3.2.3 System libraries -- 3.2.4 Application framework -- 3.3 Developing android applications -- 3.4 Anatomy of an android application -- 3.5 The android software development kit -- 3.5.1 Debugging and testing -- 3.5.2 Useful tools -- 3.5.3 Writing your first android application --

Content: 4. Windows phone -- 4.1 Evolution: from Windows mobile to Windows phone -- 4.2 Metro UI -- 4.3 Platform architecture -- 4.3.1 The kernel -- 4.3.2 Common library -- 4.4 Programming languages and frameworks -- 4.4.1 The silverlight framework -- 4.4.2 The XNA framework -- 4.4.3 Mixing XNA with silverlight -- 4.5 Development tools -- 4.5.1 Visual studio -- 4.5.2 Expression blend -- 4.5.3 Windows phone emulator -- 4.5.4 XNA game studio -- 4.5.5 Silverlight for Windows phone toolkit -- 4.5.6 App hub and marketplace -- 4.5.7 Windows azure toolkit --

Content: 5. Mobile web -- 5.1 Mobile web evolution -- 5.2 Being mobile friendly -- 5.2.1 Device detection -- 5.2.2 Viewport meta tag -- 5.2.3 CSS media queries -- 5.2.4 Orientation detection -- 5.2.5 Touch and gesture events -- 5.2.6 Open native applications -- 5.2.7 Device APIs -- 5.2.8 Browser fragmentation -- 5.2.9 Data optimization -- 5.3 HTML5 -- 5.4 WebKit -- 5.5 Web vs. native vs. hybrid -- 5.5.1 Web vs. native -- 5.5.2 Hybrid applications -- 5.6 Offline web application -- 5.6.1 HTML5 AppCache -- 5.6.2 W3C widget -- 5.6.3 WAC -- 5.7 Mobile web application frameworks -- 5.8 Development tools --

Content: 6. Platform-in-platform: location-based services (LBS) -- 6.1 Historical perspective -- 6.2 Evolution of LBS -- 6.3 Mapping the world -- 6.3.1 Outdoor maps -- 6.3.2 Mapping the indoors -- 6.4 iOS LBS support -- 6.4.1 iOS core location framework -- 6.4.2 iOS map kit framework -- 6.4.3 Other LBS/maps support for iOS -- 6.5 Android LBS support -- 6.5.1 Android location manager service -- 6.5.2 Android geocoding service -- 6.5.3 Google map view -- 6.5.4 Other LBS support for android -- 6.6 Windows phone LBS support -- 6.6.1 Windows phone location service -- 6.6.2 Bing maps control -- 6.6.3 Bing maps web services -- 6.6.4 Other LBS support for Windows phone -- 6.7 Mobile web LBS support --

Content: 7. The future of mobile platforms -- A. TwitterSearch sample application -- iOS code -- Android code -- Windows phone code -- Mobile web code -- Authors' biographies

Note: Description based upon print version of record , Preface; From the Newton to the iPhone; Recent History of Mobile Platforms; First Generation Mobile Platforms; J2ME and BREW; The Stars Aligned; iOS; Evolution: From iPhone OS to iOS; Direct Manipulation Through Multi-Touch; iOS Architecture Layers; Core OS Layer; Core Services Layer; Media Layer; Cocoa Touch Layer; Software Development Tools; Objective C; Xcode; Interface Builder; Instruments; iOS Simulator; Writing your First iOS App; iCloud; Android; From Humble Beginnings to Top Dog; Platform Architecture; Kernel; Android Runtime; System Libraries; Application Framework , Developing Android ApplicationsAnatomy of an Android Application; The Android Software Development Kit; Debugging and Testing; Useful Tools; Writing your First Android Application; Windows Phone; Evolution: From Windows Mobile to Windows Phone; Metro UI; Platform Architecture; The Kernel; Common Library; Programming Languages and Frameworks; The Silverlight Framework; The XNA Framework; Mixing XNA with Silverlight; Development Tools; Visual Studio; Expression Blend; Windows Phone Emulator; XNA Game Studio; Silverlight for Windows Phone Toolkit; App Hub and Marketplace; Windows Azure Toolkit , Mobile WebMobile Web Evolution; Being Mobile Friendly; Device Detection; Viewport Meta Tag; CSS Media Queries; Orientation Detection; Touch and Gesture Events; Open Native Applications; Device APIs; Browser Fragmentation; Data Optimization; HTML5; WebKit; Web vs. Native vs. Hybrid; Web vs. Native; Hybrid Applications; Offline Web Application; HTML5 AppCache; W3C Widget; WAC; Mobile Web Application Frameworks; Development Tools; Platform-in-Platform: Location-Based Services (LBS); Historical Perspective; Evolution of LBS; Mapping the World; Outdoor Maps; Mapping the Indoors; iOS LBS Support , iOS Core Location FrameworkiOS Map Kit Framework; Other LBS/Maps Support for iOS; Android LBS Support; Android Location Manager Service; Android Geocoding Service; Google Map View; Other LBS/Maps Support for Android; Windows Phone LBS Support; Windows Phone Location Service; Bing Maps Control; Bing Maps Web Services; Other LBS/Maps Support for Windows Phone; Mobile Web LBS Support; The Future of Mobile Platforms; TwitterSearch Sample Application; iOS Code; Android Code; Windows Phone Code; Mobile Web Code; Authors' Biographies; , 6. Platform-in-platform: location-based services (LBS) -- 6.1 Historical perspective -- 6.2 Evolution of LBS -- 6.3 Mapping the world -- 6.3.1 Outdoor maps -- 6.3.2 Mapping the indoors -- 6.4 iOS LBS support -- 6.4.1 iOS core location framework -- 6.4.2 iOS map kit framework -- 6.4.3 Other LBS/maps support for iOS -- 6.5 Android LBS support -- 6.5.1 Android location manager service -- 6.5.2 Android geocoding service -- 6.5.3 Google map view -- 6.5.4 Other LBS support for android -- 6.6 Windows phone LBS support -- 6.6.1 Windows phone location service -- 6.6.2 Bing maps control -- 6.6.3 Bing maps web services -- 6.6.4 Other LBS support for Windows phone -- 6.7 Mobile web LBS support , Also available in print. , System requirements: Adobe Acrobat Reader. , Mode of access: World Wide Web.

Additional Edition: ISBN 9781608458660

Additional Edition: Print version Mobile Platforms and Development Environments

Language: English

Keywords: Electronic books

DOI: 10.2200/S00404ED1V01Y201202MPC009

URL: Volltext

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Basic simulation models of phase tracking devices using MATLAB (2010)

Tranter, William [VerfasserIn] ; Thamvichai, Ratchaneekorn [VerfasserIn] ; Bose, Tamal [VerfasserIn]

[San Rafael] : Morgan & Claypool Publishers

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UID:

gbv_715251503

Format: 1 Online-Ressource (xiv, 122 Seiten)

Edition: Electronic reproduction Available via World Wide Web

ISBN: 9781608452606

Series Statement: Synthesis lectures on communications #5

Content: Includes bibliographical references

Content: 1. Introduction -- Outline of the book -- A word of warning -- Origins of this synthesis lecture and a reference --

Content: 2. Basic PLL theory -- Basic phase-lock loop concepts -- Basic PLL model -- Nonlinear PLL phase model -- PLL linear phase model -- PLL order and loop filters -- Steady-state phase errors -- Acquisition and phase plane analysis -- First-order PLL -- The perfect second-order phase lock loop -- The imperfect second-order phase lock loop -- The perfect third-order phase lock loop -- Transport delay in phase-lock loops -- Problems --

Content: 3. Structures developed from the basic PLL -- The Costas phase-locked loop -- The QPSK loop -- The N-phase tracking loop -- Problems --

Content: 4. Simulation models -- Basic models for phase-locked loops -- The simulation model for the Costas PLL -- The QPSK loop -- The N-phase tracking loop -- Error sources in simulation -- Problems --

Content: 5. MATLAB simulations -- Simulation structure -- Assumed loop inputs -- MATLAB and SIMULINK simulations -- Second-order PLL demonstrations -- QPSK loop -- The N-phase tracking loop -- Problems --

Content: 6. Noise performance analysis -- PLL with additive noise -- Linear analysis -- Noise bandwidth -- Signal to noise ratio of the loop -- Nonlinear analysis -- PLL with VCO phase noise -- Linear analysis of VCO phase noise -- Simulation of 1st-order PLL with additive noise -- Simulation model -- Simulation results -- Problems --

Content: A. Complex envelope and phase detector models -- A.1. Complex envelope -- A.2. Phase detector realizations --

Content: B. Loop filter implementations -- B.1. Trapezoidal integration -- B.2. The loop filter for the perfect second-order phase-locked loop -- B.3. The loop filter for the imperfect second-order phase-locked loop -- B.4. The perfect third-order loop filter --

Content: Bibliography -- Authors' biographies

Content: C. SIMULINK examples -- C.1. The perfect second-order PLL -- C.2. The perfect second-order PLL with transport delay -- C.3. The perfect third-order PLL -- C.4. Comments --

Content: D. MATLAB and SIMULINK files -- D.1. MATLAB files -- D.2. SIMULINK files --

Note: Description based upon print version of record , Preface; Introduction; Outline of the Book; A Word of Warning; Origins of this Synthesis Lecture and a Reference; Basic PLL Theory; Basic Phase-Lock Loop Concepts; Basic PLL Model; Nonlinear PLL Phase Model; PLL Linear Phase Model; PLL Order and Loop Filters; Steady-State Phase Errors; Acquisition and Phase Plane Analysis; First-order PLL; The Perfect Second-Order Phase Lock Loop; The Imperfect Second-Order Phase Lock Loop; The Perfect Third-Order Phase Lock Loop; Transport Delay in Phase-Lock Loops; Problems; Structures Developed From The Basic PLL; The Costas Phase-Locked Loop , The Perfect Second-Order PLLThe QPSK Loop; The Perfect Second-Order PLL with Transport Delay; The N-Phase Tracking Loop; The Perfect Third-Order PLL; Problems; Comments; Simulation Models; Basic Models for Phase-Locked Loops; The Simulation Model for the Costas PLL; The QPSK Loop; The N-Phase Tracking Loop; Error Sources in Simulation; Problems; MATLAB Simulations; Simulation Structure; Assumed Loop Inputs; MATLAB and SIMULINK Simulations; Second-order PLL Demonstrations; QPSK Loop; The N-Phase Tracking Loop; Problems; Noise Performance Analysis; PLL with Additive Noise; Linear Analysis , Noise BandwidthSignal to Noise Ratio of the Loop; Nonlinear Analysis; PLL with VCO Phase Noise; Linear Analysis of VCO Phase Noise; Simulation of 1st-Order PLL with Additive Noise; Simulation model; Simulation results; Problems; Complex Envelope and Phase Detector Models; Complex Envelope; Phase Detector Realizations; Loop Filter Implementations; Trapezoidal Integration; The Loop Filter for the Perfect Second-Order Phase-Locked Loop; The Loop Filter for the Imperfect Second-Order Phase-Locked Loop; The Perfect Third-Order Loop Filter; SIMULINK Examples; MATLAB and SIMULINK Files; MATLAB Files , SIMULINK FilesBibliography; Authors' Biographies; , Electronic reproduction Available via World Wide Web , Mode of access: World Wide Web. , System requirements: Adobe Acrobat Reader.

Additional Edition: ISBN 9781608452590

Additional Edition: Print version Basic Simulation Models of Phase Tracking Devices Using MATLAB Theory and Applications

Language: English

Keywords: Electronic books

DOI: 10.2200/S00245ED1V01Y201009COM005

URL: Volltext

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Frontiers of applied and computational mathematics : New Jersey Institute of Technology, USA, 19-21 May 2008 (2008)

Bose, Amithaba [HerausgeberIn] ; Ahluwalia, Daljit Singh [GefeierteR] ; Blackmore, Denis L. [HerausgeberIn] ; [et al.]

Singapore : World Scientific

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UID:

gbv_1690523360

Format: 1 Online-Ressource (xvii, 258 Seiten) , Illustrationen

ISBN: 9789814469753 , 9789812835291

Content: This volume contains a selection of papers presented at the 2008 Conference on Frontiers of Applied and Computational Mathematics (FACM'08), held at the New Jersey Institute of Technology (NJIT), May 19-21, 2008. The papers reflect the conference themes of mathematical biology, mathematical fluid dynamics, applied statistics and biostatistics, and waves and electromagnetics. Some of the world's most distinguished experts in the conference focus areas provide a unique and timely perspective on leading-edge research, research trends, and important open problems in several fields, making it a "must read" for active mathematical scientists

Content: pt. A. Plenary papers. Multi-scale methods, computer simulations, and data mining: difference equations and renewal equations / F. Hoppensteadt. Whither biostochastics in computational biology and bioinformatics / P. K. Sen. Studies of nonlinear three-dimensional free surface flows / J.-M. Vanden-Broeck -- pt B. Invited papers. Bursting in pituitary cells / R. Bertram. The dynamics of antibody dependent enhancement in multi-strain diseases with vaccination / L. Billings, I. B. Schwartz and L. B. Shaw. Dynamics of inextensible vesicles suspended in a confined two-dimensional stokes flow / A. Rahimian ... [et al.]. A robust recursive partitioning algorithm for mining multiple populations / J. Alvir ... [et al.]. Scattering of water waves by freely floating semi-infinite elastic plates on water of finite depth / A. Chakrabarti and S. C. Martha. On the hyperbolicity of two-layer flows / R. Barros and W. Choi. Contributions to balanced arrays of strength t with applications / D. V. Chopra and R. M. Low. Asymptotic solutions of some randomly perturbed nonlinear wave equations / P.-L. Chow. The bootstrap in binary model diagnostics / G. Dikta. Nonreflecting local boundary conditions for elliptical-shaped exterior boundaries / H. Barucq ... [et al.]. Modeling and analysis of axonogenesis: random spatial network perspective / Y. E. Pearson, D. A. Drew and E. Castronovo. Steady vortex flow past a cylinder or sphere / A. Elcrat, K. Miller and B. Fornberg. On two fast algorithms for estimating the mixing distribution in mixture models / J. K. Ghosh and R. Martin. Direct regression models for survival parameters based on pseudo-values / J. P. Klein and G. Tunes-da-Silva. On some non-linear recurrences that arise in computer science / C. Knessl and W. Szpankowski. Small-sample inference for non-inferiority in binomial experiments / J. Davidson and J. Kolassa. Termination of cardiac reentry / T. Krogh-Madsen and D. J. Christini. A parametric derivation of the surfactant transport equation along a deforming fluid interface / H. Huang, M.-C. Lai and H.-C. Tseng. Analysis and estimation of the variance of cross-validation estimators of the generalization error: a short review / M. Markatou, R. Dimova and A. Sinha. Negative phase and leader switching in non-weakly coupled two-cell inhibitory networks / V. Matveev and M. Oh. A boundary integral strategy for the Laplace-Beltrami-Dirichlet problem on the sphere S[symbol] / S. Gemmrich and N. Nigam. Non-spatial whole cell models of global calcium responses that account for heterogeneous domain calcium concentrations / G. Williams ... [et al.]. Stable and accurate outgoing wave filters for anisotropic and nonlocal waves / A. Soffer and C. Stucchio. Asymptotic approximations in financial mathematics / R. Jordan and C. Tier.

Note: "Dedicated to Daljit Singh Ahluwalia on his 75th birthday".--Cover , Includes bibliographical references and index

Additional Edition: ISBN 9789812835284

Language: English

Keywords: Electronic books ; Konferenzschrift ; Festschrift

URN: 10.1142/7041

URL: Access to full text is restricted to subscribers

URL: Inhaltstext

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