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  • 1
    Online Resource
    Online Resource
    Digital signal processing : instant access (2009)
    Burlington, MA ; : Newnes,
    Details
    UID:
    almahu_9949697813202882
    Format: 1 online resource (164 p.)
    Edition: 1st edition
    ISBN: 1-283-60818-9 , 9786613920638 , 0-08-056013-X
    Series Statement: Instant Access
    Content: Digital signal processing is commonplace in most electronics including MP3 players, HDTVs, and phones, just to name a few of the applications. The engineers creating these devices are in need of essential information at a moment's notice. The Instant Access Series provides all the critical content that a signal or communications engineer needs in his or her daily work. This book provides an introduction to DSPs as well as succinct overviews of linear systems, digital filters, and digital compression. This book is filled with images, figures, tables, and easy to find tips and tricks fo
    Note: Description based upon print version of record. , Front Cover; Digital Signal Processing: Instant Access; Copyright Page; Contents; Chapter 1. Why DSP?; DSP Definitions; The Need for DSP; Learning Digital Signal Processing Techniques; Instant Summary; Chapter 2. The Analog-Digital Interface; Definitions; Sampling and Reconstruction; Quantization; Encoding and Modulation; Number Representation; Digital-to-Analog Conversion; Analog-to-Digital Conversion; Successive Approximation ADCs; Instant Summary; Chapter 3. DSP System General Model; Definitions; The Big Picture; Signal Acquisition; More on Sampling Theory; Sampling Resolution , Instant SummaryChapter 4. The Math of DSP; Definitions; Functions; Limits; Integration; Oscillatory Motion; Complex Numbers; Example Applications; Filters; Causality; Convolution; The Fourier Series; Orthogonality; Continuous Functions vs. Discrete Sequences; Orthogonality Continued; Quadrature; Instant Summary; Chapter 5. Transforms; Definitions; Background; The z-Transform and DFT; Application of the DFT; The Fourier Transform; Properties of the Fourier Transform; The Laplace Transform; Fast Fourier Transform (FFT); Instant Summary; Chapter 6. Digital Filters; Definitions; FIR Filters , The IIRInstant Summary; Chapter 7. Applications of DSP; Definitions; Measurements and Analysis; Telecommunications; Audio and Television; Household Appliances and Toys; Automotive; Nonlinear Applications; Instant Summary; Chapter 8. Digital Signal Processors; Definitions; System Considerations; Hardware Implementation; Digital Signal Processors versus Microprocessors; The Future; Instant Summary; Glossary; References; Index; A; B; C; D; E; F; G; H; I; L; M; N; O; P; Q; R; S; T; U; V; W; Z , English
    Additional Edition: ISBN 0-7506-8976-5
    Language: English
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    HU Berlin
    FU Berlin
    Charité
  • 2
    Online Resource
    Online Resource
    Rating based modeling of credit risk : theory and application of migration matrices (2009)
    London :Academic,
    Details
    UID:
    almahu_9949697618302882
    Format: 1 online resource (279 p.)
    Edition: 1st edition
    ISBN: 1-282-16852-5 , 9786612168529 , 9786611928513 , 0-08-092030-6
    Series Statement: Academic Press advanced finance series
    Content: In the last decade rating-based models have become very popular in credit risk management. These systems use the rating of a company as the decisive variable to evaluate the default risk of a bond or loan. The popularity is due to the straightforwardness of the approach, and to the upcoming new capital accord (Basel II), which allows banks to base their capital requirements on internal as well as external rating systems. Because of this, sophisticated credit risk models are being developed or demanded by banks to assess the risk of their credit portfolio better by recognizing the different und
    Note: Description based upon print version of record. , Front Cover; Rating Based Modeling of Credit Risk; Copyright Page; Table of Contents; Preface; Chapter 1. Introduction: Credit Risk Modeling, Ratings, and Migration Matrices; 1.1 Motivation; 1.2 Structural and Reduced Form Models; 1.3 Basel II, Scoring Techniques, and Internal Rating Systems; 1.4 Rating Based Modeling and the Pricing of Bonds; 1.5 Stability of Transition Matrices, Conditional Migrations, and Dependence; 1.6 Credit Derivative Pricing; 1.7 Chapter Outline; Chapter 2. Rating and Scoring Techniques; 2.1 Rating Agencies, Rating Processes, and Factors; 2.1.1 The Rating Process , 2.1.2 Credit Rating Factors2.1.3 Types of Rating Systems; 2.2 Scoring Systems; 2.3 Discriminant Analysis; 2.4 Logit and Probit Models; 2.4.1 Logit Models; 2.4.2 Probit Models; 2.5 Model Evaluation: Methods and Difficulties; 2.5.1 Model Performance and Benchmarking; 2.5.2 Model Accuracy, Type I and II Errors; Chapter 3. The New Basel Capital Accord; 3.1 Overview; 3.1.1 The First Pillar-Minimum Capital Requirement; 3.1.2 The Second Pillar-Supervisory Review Process; 3.1.3 The Third Pillar-Market Discipline; 3.2 The Standardized Approach; 3.2.1 Risk Weights for Sovereigns and for Banks , 3.2.2 Risk Weights for Corporates3.2.3 Maturity; 3.2.4 Credit Risk Mitigation; 3.3 The Internal Ratings Based Approach; 3.3.1 Key Elements and Risk Components; 3.3.2 Derivation of the Benchmark Risk Weight Function; 3.3.3 Asset Correlation; 3.3.4 The Maturity Adjustment; 3.3.5 Expected, Unexpected Losses and the Required Capital; 3.4 Summary; Chapter 4. Rating Based Modeling; 4.1 Introduction; 4.2 Reduced Form and Intensity Models; 4.2.1 The Model by Jarrow and Turnbull (1995); 4.2.2 The Model Suggested by Madan and ̈ Unal (1998); 4.2.3 The Model Suggested by Lando (1998) , 4.2.4 The Model of Duffie and Singleton (1999)4.3 The CreditMetrics Model; 4.4 The CreditRisk+ Model; 4.4.1 The First Modeling Approach; 4.4.2 Modeling Severities; 4.4.3 Shortcomings of the First Modeling Approach; 4.4.4 Extensions in the CR+ Model; 4.4.5 Allocating Obligors to One of Several Factors; 4.4.6 The pgf for the Number of Defaults; 4.4.7 The pgf for the Default Loss Distribution; 4.4.8 Generalization of Obligor Allocation; 4.4.9 The Default Loss Distribution; Chapter 5. Migration Matrices and the Markov Chain Approach; 5.1 The Markov Chain Approach; 5.1.1 Generator Matrices , 5.2 Discrete Versus Continuous-Time Modeling5.2.1 Some Conditions for the Existence of a Valid Generator; 5.3 Approximation of Generator Matrices; 5.3.1 The Method Proposed by Jarrow, Lando, and Turnbull (1997); 5.3.2 Methods Suggested by Israel, Rosenthal,and Wei (2000); 5.4 Simulating Credit Migrations; 5.4.1 Time-Discrete Case; 5.4.2 Time-Continuous Case; 5.4.3 Nonparametric Approach; Chapter 6. Stability of Credit Migrations; 6.1 Credit Migrations and the Business Cycle; 6.2 The Markov Assumptions and Rating Drifts; 6.2.1 Likelihood Ratio Tests; 6.2.2 Rating Drift , 6.2.3 An Empirical Study , English
    Additional Edition: ISBN 0-12-373683-8
    Language: English
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    HU Berlin
    FU Berlin
    Charité
  • 3
    Online Resource
    Online Resource
    Spaces and singular perturbations on manifolds without boundary (1990)
    Amsterdam : North-Holland | New York, N.Y., U.S.A : Sole distributors for the U.S. and Canada, Elsevier Science Pub. Co
    Details
    UID:
    gbv_630033382
    Format: Online Ressource (xxiv, 555 pages)
    Edition: Online-Ausg. 2009 Elsevier e-book collection on ScienceDirect Electronic reproduction; Mode of access: World Wide Web
    ISBN: 9780444881342 , 0444881344 , 9780080875446 , 0080875440
    Series Statement: Studies in mathematics and its applications v. 23
    Content: Singular perturbations, one of the central topics in asymptotic analysis, also play a special role in describing physical phenomena such as the propagation of waves in media in the presence of small energy dissipations or dispersions, the appearance of boundary or interior layers in fluid and gas dynamics, as well as in elasticity theory, semi-classical asymptotic approximations in quantum mechanics etc. Elliptic and coercive singular perturbations are of special interest for the asymptotic solution of problems which are characterized by boundary layer phenomena, e.g. the theory of thin buckling plates, elastic rods and beams. This first volume deals with linear singular perturbations (on smooth manifolds without boundary) considered as equicontinuous linear mappings between corresponding families of Sobolev-Slobodetski's type spaces of vectorial order
    Content: Singular perturbations, one of the central topics in asymptotic analysis, also play a special role in describing physical phenomena such as the propagation of waves in media in the presence of small energy dissipations or dispersions, the appearance of boundary or interior layers in fluid and gas dynamics, as well as in elasticity theory, semi-classical asymptotic approximations in quantum mechanics etc. Elliptic and coercive singular perturbations are of special interest for the asymptotic solution of problems which are characterized by boundary layer phenomena, e.g. the theory of thin buckling plates, elastic rods and beams. This first volume deals with linear singular perturbations (on smooth manifolds without boundary) considered as equicontinuous linear mappings between corresponding families of Sobolev-Slobodetski's type spaces of vectorial order
    Note: Includes bibliographical references (pages 533-555). - Print version record , 1. Spaces and singular perturbations on manifolds without boundary. 1990. , Singular perturbations, one of the central topics in asymptotic analysis, also play a special role in describing physical phenomena such as the propagation of waves in media in the presence of small energy dissipations or dispersions, the appearance of boundary or interior layers in fluid and gas dynamics, as well as in elasticity theory, semi-classical asymptotic approximations in quantum mechanics etc. Elliptic and coercive singular perturbations are of special interest for the asymptotic solution of problems which are characterized by boundary layer phenomena, e.g. the theory of thin buckling plates, elastic rods and beams. This first volume deals with linear singular perturbations (on smooth manifolds without boundary) considered as equicontinuous linear mappings between corresponding families of Sobolev-Slobodetski's type spaces of vectorial order , Electronic reproduction; Mode of access: World Wide Web
    Additional Edition: ISBN 0444881344
    Additional Edition: Erscheint auch als Druck-Ausgabe Frank, Leonid S. Singular perturbations ; 1: Spaces and singular perturbations on manifolds without boundary Amsterdam [u.a.] : North-Holland, 1990 ISBN 0444881344
    Language: English
    Keywords: Mannigfaltigkeit ; Singuläre Störung ; Electronic books ; Electronic books
    URL: Volltext  (lizenzpflichtig)
    URL: Volltext
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  • 4
    Online Resource
    Online Resource
    Numerical methods for roots of polynomials (2007)
    Amsterdam : Elsevier
    Details
    UID:
    gbv_630026912
    Format: Online Ressource (2 volumes)
    Edition: Online-Ausg. 2007 Elsevier e-book collection on ScienceDirect Electronic reproduction; Mode of access: World Wide Web
    ISBN: 9780444527295 , 044452729X , 0080489478 , 9780080489476
    Series Statement: Studies in computational mathematics 1570-579X 14
    Content: This book (along with volume 2 covers most of the traditional methods for polynomial root-finding such as Newtons, as well as numerous variations on them invented in the last few decades. Perhaps more importantly it covers recent developments such as Vincents method, simultaneous iterations, and matrix methods. There is an extensive chapter on evaluation of polynomials, including parallel methods and errors. There are pointers to robust and efficient programs. In short, it could be entitled A Handbook of Methods for Polynomial Root-finding. This book will be invaluable to anyone doing research in polynomial roots, or teaching a graduate course on that topic. - First comprehensive treatment of Root-Finding in several decades. - Gives description of high-grade software and where it can be down-loaded. - Very up-to-date in mid-2006; long chapter on matrix methods. - Includes Parallel methods, errors where appropriate. - Invaluable for research or graduate course
    Content: This book (along with volume 2 covers most of the traditional methods for polynomial root-finding such as Newtons, as well as numerous variations on them invented in the last few decades. Perhaps more importantly it covers recent developments such as Vincents method, simultaneous iterations, and matrix methods. There is an extensive chapter on evaluation of polynomials, including parallel methods and errors. There are pointers to robust and efficient programs. In short, it could be entitled A Handbook of Methods for Polynomial Root-finding. This book will be invaluable to anyone doing research in polynomial roots, or teaching a graduate course on that topic. - First comprehensive treatment of Root-Finding in several decades. - Gives description of high-grade software and where it can be down-loaded. - Very up-to-date in mid-2006; long chapter on matrix methods. - Includes Parallel methods, errors where appropriate. - Invaluable for research or graduate course
    Note: Includes bibliographical references and index. - Print version record , Preface -- -- Contents -- -- Introduction -- -- 1. Evaluation, Convergence, Bounds -- 2. Sturm Sequences and Greatest Common Divisors -- -- 3. Real Roots by Continued Fractions -- -- 4. Simultaneous Methods -- -- 5. Newton's and Related Methods -- -- 6. Matrix Models -- -- Index〈P〉. , This book (along with volume 2 covers most of the traditional methods for polynomial root-finding such as Newtons, as well as numerous variations on them invented in the last few decades. Perhaps more importantly it covers recent developments such as Vincents method, simultaneous iterations, and matrix methods. There is an extensive chapter on evaluation of polynomials, including parallel methods and errors. There are pointers to robust and efficient programs. In short, it could be entitled A Handbook of Methods for Polynomial Root-finding. This book will be invaluable to anyone doing research in polynomial roots, or teaching a graduate course on that topic. - First comprehensive treatment of Root-Finding in several decades. - Gives description of high-grade software and where it can be down-loaded. - Very up-to-date in mid-2006; long chapter on matrix methods. - Includes Parallel methods, errors where appropriate. - Invaluable for research or graduate course , Electronic reproduction; Mode of access: World Wide Web
    Additional Edition: ISBN 044452729X
    Additional Edition: Print version Numerical methods for roots of polynomials
    Additional Edition: Erscheint auch als Druck-Ausgabe McNamee, J. M. Numerical methods for roots of polynomials ; Pt. 1 Amsterdam [u.a.] : Elsevier, 2007 ISBN 044452729X
    Additional Edition: ISBN 9780444527295
    Language: English
    Keywords: Polynomlösung ; Polynom ; Numerisches Verfahren ; Electronic books ; Electronic books
    URL: Volltext
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  • 5
    Online Resource
    Online Resource
    Handbook of the history of logic (2004)
    Amsterdam : Elsevier
    Details
    UID:
    gbv_630035660
    Format: Online-Ressource (v. 〈1〉p) , ill , 25 cm
    Edition: 1st ed
    Edition: Online-Ausg. 2007 Elsevier e-book collection on ScienceDirect Electronic reproduction; Mode of access: World Wide Web
    ISBN: 0444516115 , 9780444516114
    Series Statement: Handbook of the history of logic v. 3
    Content: With the publication of the present volume, the Handbook of the History of Logic turns its attention to the rise of modern logic. The period covered is 1685-1900, with this volume carving out the territory from Leibniz to Frege. What is striking about this period is the earliness and persistence of what could be called 'the mathematical turn in logic'. Virtually every working logician is aware that, after a centuries-long run, the logic that originated in antiquity came to be displaced by a new approach with a dominantly mathematical character. It is, however, a substantial error to suppose that the mathematization of logic was, in all essentials, Frege's accomplishment or, if not his alone, a development ensuing from the second half of the nineteenth century. The mathematical turn in logic, although given considerable torque by events of the nineteenth century, can with assurance be dated from the final quarter of the seventeenth century in the impressively prescient work of Leibniz. It is true that, in the three hundred year run-up to the Begriffsschrift, one does not see a smoothly continuous evolution of the mathematical turn, but the idea that logic is mathematics, albeit perhaps only the most general part of mathematics, is one that attracted some degree of support throughout the entire period in question. Still, as Alfred North Whitehead once noted, the relationship between mathematics and symbolic logic has been an "uneasy" one, as is the present-day association of mathematics with computing. Some of this unease has a philosophical texture. For example, those who equate mathematics and logic sometimes disagree about the directionality of the purported identity. Frege and Russell made themselves famous by insisting (though for different reasons) that logic was the senior partner. Indeed logicism is the view that mathematics can be re-expressed without relevant loss in a suitably framed symbolic logic. But for a number of thinkers who took an algebraic approach to logic, the dependency relation was reversed, with mathematics in some form emerging as the senior partner. This was the precursor of the modern view that, in its four main precincts (set theory, proof theory, model theory and recursion theory), logic is indeed a branch of pure mathematics. It would be a mistake to leave the impression that the mathematization of logic (or the logicization of mathematics) was the sole concern of the history of logic between 1665 and 1900. There are, in this ...
    Content: With the publication of the present volume, the Handbook of the History of Logic turns its attention to the rise of modern logic. The period covered is 1685-1900, with this volume carving out the territory from Leibniz to Frege. What is striking about this period is the earliness and persistence of what could be called 'the mathematical turn in logic'. Virtually every working logician is aware that, after a centuries-long run, the logic that originated in antiquity came to be displaced by a new approach with a dominantly mathematical character. It is, however, a substantial error to suppose that the mathematization of logic was, in all essentials, Frege's accomplishment or, if not his alone, a development ensuing from the second half of the nineteenth century. The mathematical turn in logic, although given considerable torque by events of the nineteenth century, can with assurance be dated from the final quarter of the seventeenth century in the impressively prescient work of Leibniz. It is true that, in the three hundred year run-up to the Begriffsschrift, one does not see a smoothly continuous evolution of the mathematical turn, but the idea that logic is mathematics, albeit perhaps only the most general part of mathematics, is one that attracted some degree of support throughout the entire period in question. Still, as Alfred North Whitehead once noted, the relationship between mathematics and symbolic logic has been an "uneasy" one, as is the present-day association of mathematics with computing. Some of this unease has a philosophical texture. For example, those who equate mathematics and logic sometimes disagree about the directionality of the purported identity. Frege and Russell made themselves famous by insisting (though for different reasons) that logic was the senior partner. Indeed logicism is the view that mathematics can be re-expressed without relevant loss in a suitably framed symbolic logic. But for a number of thinkers who took an algebraic approach to logic, the dependency relation was reversed, with mathematics in some form emerging as the senior partner. This was the precursor of the modern view that, in its four main precincts (set theory, proof theory, model theory and recursion theory), logic is indeed a branch of pure mathematics. It would be a mistake to leave the impression that the mathematization of logic (or the logicization of mathematics) was the sole concern of the history of logic between 1665 and 1900. There are, in this long interval, aspects of the modern unfolding of logic that bear no stamp of the imperial designs of mathematicians, as the chapters on Kant and Hegel make clear. Of the two, Hegel's influence on logic is arguably the greater, serving as a spur to the unfolding of an idealist tradition in logic - a development that will be covered in a further volume, British Logic in the Nineteenth Century
    Note: Includes bibliographical references and index , v. 1. Greek, Indian, and Arabic logic , With the publication of the present volume, the Handbook of the History of Logic turns its attention to the rise of modern logic. The period covered is 1685-1900, with this volume carving out the territory from Leibniz to Frege. What is striking about this period is the earliness and persistence of what could be called 'the mathematical turn in logic'. Virtually every working logician is aware that, after a centuries-long run, the logic that originated in antiquity came to be displaced by a new approach with a dominantly mathematical character. It is, however, a substantial error to suppose that the mathematization of logic was, in all essentials, Frege's accomplishment or, if not his alone, a development ensuing from the second half of the nineteenth century. The mathematical turn in logic, although given considerable torque by events of the nineteenth century, can with assurance be dated from the final quarter of the seventeenth century in the impressively prescient work of Leibniz. It is true that, in the three hundred year run-up to the Begriffsschrift, one does not see a smoothly continuous evolution of the mathematical turn, but the idea that logic is mathematics, albeit perhaps only the most general part of mathematics, is one that attracted some degree of support throughout the entire period in question. Still, as Alfred North Whitehead once noted, the relationship between mathematics and symbolic logic has been an "uneasy" one, as is the present-day association of mathematics with computing. Some of this unease has a philosophical texture. For example, those who equate mathematics and logic sometimes disagree about the directionality of the purported identity. Frege and Russell made themselves famous by insisting (though for different reasons) that logic was the senior partner. Indeed logicism is the view that mathematics can be re-expressed without relevant loss in a suitably framed symbolic logic. But for a number of thinkers who took an algebraic approach to logic, the dependency relation was reversed, with mathematics in some form emerging as the senior partner. This was the precursor of the modern view that, in its four main precincts (set theory, proof theory, model theory and recursion theory), logic is indeed a branch of pure mathematics. It would be a mistake to leave the impression that the mathematization of logic (or the logicization of mathematics) was the sole concern of the history of logic between 1665 and 1900. There are, in this ... , Electronic reproduction; Mode of access: World Wide Web
    Additional Edition: ISBN 0444504664
    Additional Edition: ISBN 9780444504661
    Additional Edition: Erscheint auch als Druck-Ausgabe Handbook of the history of logic ; Vol. 3: The rise of modern logic Amsterdam [u.a.] : Elsevier North Holland, 2004 ISBN 0444516115
    Additional Edition: Erscheint auch als Druck-Ausgabe
    Language: English
    Subjects: Mathematics , Philosophy
    RVK:
    CC 2000
    RVK:
    SG 590
    Keywords: Mathematische Logik ; Mathematik ; Geschichte ; Electronic books
    URL: Volltext
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  • 6
    Online Resource
    Online Resource
    Stochastic modelling in process technology (2007)
    [s.l.] : Elsevier Science Ltd
    Details
    UID:
    gbv_630026874
    Format: Online Ressource , graph. Darst.
    Edition: 1. ed.
    Edition: Online-Ausg. Amsterdam Elsevier Science & Technology 2007 Online-Ressource Elsevier e-book collection on ScienceDirect Electronic reproduction; Mode of access: World Wide Web
    ISBN: 9780444520265 , 0444520260 , 0080548970 , 9780080548975
    Series Statement: Mathematics in science and engineering v. 211
    Content: There is an ever increasing need for modelling complex processes reliably. Computational modelling techniques, such as CFD and MD may be used as tools to study specific systems, but their emergence has not decreased the need for generic, analytical process models. Multiphase and multicomponent systems, and high-intensity processes displaying a highly complex behaviour are becoming omnipresent in the processing industry. This book discusses an elegant, but little-known technique for formulating process models in process technology: stochastic process modelling. The technique is based on computing the probability distribution for a single particle's position in the process vessel, and/or the particle's properties, as a function of time, rather than - as is traditionally done - basing the model on the formulation and solution of differential conservation equations. Using this technique can greatly simplify the formulation of a model, and even make modelling possible for processes so complex that the traditional method is impracticable. Stochastic modelling has sporadically been used in various branches of process technology under various names and guises. This book gives, as the first, an overview of this work, and shows how these techniques are similar in nature, and make use of the same basic mathematical tools and techniques. The book also demonstrates how stochastic modelling may be implemented by describing example cases, and shows how a stochastic model may be formulated for a case, which cannot be described by formulating and solving differential balance equations. Key Features: - Introduction to stochastic process modelling as an alternative modelling technique - Shows how stochastic modelling may be succesful where the traditional technique fails - Overview of stochastic modelling in process technology in the research literature - Illustration of the principle by a wide range of practical examples - In-depth and self-contained discussions - Points the way to both mathematical and technological research in a new, rewarding field - Introduction to stochastic process modelling as an alternative modelling technique - Shows how stochastic modelling may be succesful where the traditional technique fails - Overview of stochastic modelling in process technology in the research literature - Illustration of the principle by a wide range of practical examples - In-depth and self-contained discussions - Points the way to both mathematical and technological research in a new, rewarding field
    Content: There is an ever increasing need for modelling complex processes reliably. Computational modelling techniques, such as CFD and MD may be used as tools to study specific systems, but their emergence has not decreased the need for generic, analytical process models. Multiphase and multicomponent systems, and high-intensity processes displaying a highly complex behaviour are becoming omnipresent in the processing industry. This book discusses an elegant, but little-known technique for formulating process models in process technology: stochastic process modelling. The technique is based on computing the probability distribution for a single particle's position in the process vessel, and/or the particle's properties, as a function of time, rather than - as is traditionally done - basing the model on the formulation and solution of differential conservation equations. Using this technique can greatly simplify the formulation of a model, and even make modelling possible for processes so complex that the traditional method is impracticable. Stochastic modelling has sporadically been used in various branches of process technology under various names and guises. This book gives, as the first, an overview of this work, and shows how these techniques are similar in nature, and make use of the same basic mathematical tools and techniques. The book also demonstrates how stochastic modelling may be implemented by describing example cases, and shows how a stochastic model may be formulated for a case, which cannot be described by formulating and solving differential balance equations.〈P〉 Key Features: - Introduction to stochastic process modelling as an alternative modelling technique - Shows how stochastic modelling may be succesful where the traditional technique fails - Overview of stochastic modelling in process technology in the research literature - Illustration of the principle by a wide range of practical examples - In-depth and self-contained discussions - Points the way to both mathematical and technological research in a new, rewarding field〈P〉 - Introduction to stochastic process modelling as an alternative modelling technique - Shows how stochastic modelling may be succesful where the traditional technique fails - Overview of stochastic modelling in process technology in the research literature - Illustration of the principle by a wide range of practical examples - In-depth and self-contained discussions - Points the way to both mathematical and technological research in a new, rewarding field
    Note: Includes bibliographical references (pages 263-274) and index , There is an ever increasing need for modelling complex processes reliably. Computational modelling techniques, such as CFD and MD may be used as tools to study specific systems, but their emergence has not decreased the need for generic, analytical process models. Multiphase and multicomponent systems, and high-intensity processes displaying a highly complex behaviour are becoming omnipresent in the processing industry. This book discusses an elegant, but little-known technique for formulating process models in process technology: stochastic process modelling. The technique is based on computing the probability distribution for a single particle's position in the process vessel, and/or the particle's properties, as a function of time, rather than - as is traditionally done - basing the model on the formulation and solution of differential conservation equations. Using this technique can greatly simplify the formulation of a model, and even make modelling possible for processes so complex that the traditional method is impracticable. Stochastic modelling has sporadically been used in various branches of process technology under various names and guises. This book gives, as the first, an overview of this work, and shows how these techniques are similar in nature, and make use of the same basic mathematical tools and techniques. The book also demonstrates how stochastic modelling may be implemented by describing example cases, and shows how a stochastic model may be formulated for a case, which cannot be described by formulating and solving differential balance equations. Key Features: - Introduction to stochastic process modelling as an alternative modelling technique - Shows how stochastic modelling may be succesful where the traditional technique fails - Overview of stochastic modelling in process technology in the research literature - Illustration of the principle by a wide range of practical examples - In-depth and self-contained discussions - Points the way to both mathematical and technological research in a new, rewarding field - Introduction to stochastic process modelling as an alternative modelling technique - Shows how stochastic modelling may be succesful where the traditional technique fails - Overview of stochastic modelling in process technology in the research literature - Illustration of the principle by a wide range of practical examples - In-depth and self-contained discussions - Points the way to both mathematical and technological resea ... , Electronic reproduction; Mode of access: World Wide Web
    Additional Edition: ISBN 0444520260
    Additional Edition: Druckausg. Dehling, Herold G. Stochastic modelling in process technology Amsterdam : Elsevier, 2007 ISBN 9780444520265
    Additional Edition: Print version Stochastic Modelling in Process Technology
    Additional Edition: Erscheint auch als Druck-Ausgabe Dehling, Herold G. Stochastic modelling in process technology Amsterdam : Elsevier, 2007 ISBN 9780444520265
    Language: English
    Keywords: Verfahrenstechnik ; Stochastisches Modell ; Markov-Prozess ; Electronic books ; Electronic books
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    Author information: Gottschalk, Timo 1976-
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  • 7
    Online Resource
    Online Resource
    Developing mathematics in Third World countries : proceedings of the international conference held in Khartoum, March 6-9, 1978 (1979)
    Amsterdam : North-Holland Pub. Co | New York : Sole distributors for the U.S.A. and Canada, Elsevier North-Holland
    Details
    UID:
    gbv_630033633
    Format: Online Ressource (xi, 207 pages) , diagrams.
    Edition: Online-Ausg. 2009 Elsevier e-book collection on ScienceDirect Electronic reproduction; Mode of access: World Wide Web
    ISBN: 9780444852601 , 0444852603 , 9780080871448 , 0080871445
    Series Statement: North-Holland mathematics studies 33
    Content: Proceedings of the international conference held in Khartoum, March 6-9, 1978
    Content: Front Cover; Developing Mathematics in Third World Countries; Copyright Page; Foreword; Acknowledegments; Table of Contents; PART ONE: THE CONFERENCE: ITS BACKGROUND AND WORK; 1. Pre-Conference considerations; 2. Planning for the Conference; 3. Problems along the way; 4. Publications exhibition; 5. The Conference in action; 6. The work of the Conference; 7. Conclusions; PART TWO: THE INVITED TALKS; Chapter 1. Strategies & priorities in mathematical education and research in developing countries; Chapter 2. Adequate mathematics for third world countries: Consideranda and strategies
    Note: English, French, or Spanish. - English, French, or Spanish. - Print version record , Electronic reproduction; Mode of access: World Wide Web , English, French, or Spanish
    Additional Edition: ISBN 0444852603
    Additional Edition: Print version Developing mathematics in Third World countries
    Additional Edition: Erscheint auch als Druck-Ausgabe Developing mathematics in Third World countries Amsterdam : North-Holland Publ. Co, 1979 ISBN 0444852603
    Language: English
    Subjects: Mathematics
    RVK:
    SD 1978
    RVK:
    SM 601
    Keywords: Entwicklungsländer ; Mathematik ; Electronic books ; Electronic books ; Konferenzschrift
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  • 8
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    Recent progress in Fourier analysis : proceedings of the Seminar on Fourier Analysis held in El Escorial, Spain, June 30-July 5, 1983 (1985)
    Amsterdam : North-Holland | New York, N.Y : Sole distributors for the U.S.A. and Canada, Elsevier Science Pub. Co
    Details
    UID:
    gbv_1684907322
    Format: Online-Ressource , v, 268 p , ill , 24 cm
    Edition: Online-Ausg.] Elsevier e-book collection on ScienceDirect
    ISBN: 0444877452 , 9780444877451
    Series Statement: North-Holland mathematics studies 111
    Note: English or French , Includes bibliographies
    Additional Edition: Erscheint auch als Druck-Ausgabe Recent progress in Fourier analysis Amsterdam [u.a.] : North-Holland, 1985 ISBN 0444877452
    Language: English
    Subjects: Mathematics
    RVK:
    SI 867
    RVK:
    SK 600
    RVK:
    SK 450
    RVK:
    SD 1983
    Keywords: Harmonische Analyse ; Konferenzschrift
    URL: Volltext  (Deutschlandweit zugänglich)
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  • 9
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    Approximation theory and functional analysis : proceedings of the International Symposium on Approximation Theory, Universidade Estadual de Campinas (UNICAMP) Brazil, August 1-5, 1977 (1979)
    Amsterdam : North-Holland Pub. Co | New York : sole distributors for the U.S.A. and Canada, Elsevier North-Holland
    Details
    UID:
    gbv_1684908876
    Format: Online-Ressource , viii, 449 p , 24 cm
    Edition: Online-Ausg.] Elsevier e-book collection on ScienceDirect
    ISBN: 0444852646 , 9780444852649
    Series Statement: North-Holland mathematics studies 35
    Note: Includes bibliographies and index , Papers in English or French
    Language: English
    URL: Volltext  (Deutschlandweit zugänglich)
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  • 10
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    Online Resource
    Handbook of algebra; 4 (2006)
    Amsterdam : Elsevier North-Holland
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    Details
    UID:
    gbv_630035679
    Format: Online Ressource
    Edition: 1. ed.
    Edition: Amsterdam Elsevier Science & Technology Elsevier e-book collection on ScienceDirect Electronic reproduction; Mode of access: World Wide Web
    Edition: ScienceDirect
    ISBN: 0444522131 , 9780444522139 , 1280641878 , 9781280641879
    Content: Algebra, as we know it today, consists of many different ideas, concepts and results. A reasonable estimate of the number of these different items would be somewhere between 50,000 and 200,000. Many of these have been named and many more could (and perhaps should) have a name or a convenient designation. Even the nonspecialist is likely to encounter most of these, either somewhere in the literature, disguised as a definition or a theorem or to hear about them and feel the need for more information. If this happens, one should be able to find enough information in this Handbook to judge if it is worthwhile to pursue the quest. In addition to the primary information given in the Handbook, there are references to relevant articles, books or lecture notes to help the reader. An excellent index has been included which is extensive and not limited to definitions, theorems etc. The Handbook of Algebra will publish articles as they are received and thus the reader will find in this third volume articles from twelve different sections. The advantages of this scheme are two-fold: accepted articles will be published quickly and the outline of the Handbook can be allowed to evolve as the various volumes are published. A particularly important function of the Handbook is to provide professional mathematicians working in an area other than their own with sufficient information on the topic in question if and when it is needed. - Thorough and practical source for information - Provides in-depth coverage of new topics in algebra - Includes references to relevant articles, books and lecture notes
    Content: Algebra, as we know it today, consists of many different ideas, concepts and results. A reasonable estimate of the number of these different items would be somewhere between 50,000 and 200,000. Many of these have been named and many more could (and perhaps should) have a name or a convenient designation. Even the nonspecialist is likely to encounter most of these, either somewhere in the literature, disguised as a definition or a theorem or to hear about them and feel the need for more information. If this happens, one should be able to find enough information in this Handbook to judge if it is worthwhile to pursue the quest. In addition to the primary information given in the Handbook, there are references to relevant articles, books or lecture notes to help the reader. An excellent index has been included which is extensive and not limited to definitions, theorems etc. The Handbook of Algebra will publish articles as they are received and thus the reader will find in this third volume articles from twelve different sections. The advantages of this scheme are two-fold: accepted articles will be published quickly and the outline of the Handbook can be allowed to evolve as the various volumes are published. A particularly important function of the Handbook is to provide professional mathematicians working in an area other than their own with sufficient information on the topic in question if and when it is needed. - Thorough and practical source for information - Provides in-depth coverage of new topics in algebra - Includes references to relevant articles, books and lecture notes
    Note: Includes bibliographical references and indexes , Vol. 2: 1st ed , v. 1. Linear algebra, fields, algebraic number theory. , Preface -- Outline of the Series -- List of Contributors -- Section 2C. Algebraic K-theory -- Higher Algebraic K-theory (A. Kuku) -- Section 3B. Associative Rings and Algebras -- Filter Dimension (V.V. Bavula) -- Section 4E. Lie Algebras -- Gelfand-Tsetlin Bases for Classical Lie Algebras (A.I. Molev) -- Section 4H. Rings and Algebras with Additional Structure -- Hopf Algebras (M. Cohen, S. Gelaki and S. Westreich) -- Difference Algebra (A.B. Levin) -- Section 5A. Groups and Semigroups -- Reflection Groups (M. Geck and G. Malle) -- Hurwitz Groups and Hurwitz Generation (M.C. Tamburini and M. Vsemirnov) -- Survey on Braids (V. Vershinin) -- Groups with Finiteness Conditions (V.I. Senashov) -- Index. , Electronic reproduction; Mode of access: World Wide Web
    In: 4
    Additional Edition: ISBN 0444822127
    Additional Edition: ISBN 9780444822123
    Additional Edition: Erscheint auch als Druck-Ausgabe Handbook of algebra ; Vol. 4 Amsterdam [u.a.] : Elsevier, 2006 ISBN 0444522131
    Additional Edition: ISBN 9780444522139
    Additional Edition: Erscheint auch als Druck-Ausgabe Handbook of algebra ; 4 Amsterdam : Elsevier North-Holland, 2006 ISBN 0444522131
    Additional Edition: ISBN 9780444522139
    Language: English
    Subjects: Mathematics
    RVK:
    SK 200
    Keywords: Electronic books ; Electronic books
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