Synopsis
This book can serve as a first course on measure theory and measure theoretic probability for upper undergraduate and graduate students of mathematics, statistics and probability. Starting from the basics, the measure theory part covers Caratheodory’s theorem, Lebesgue–Stieltjes measures, integration theory, Fatou’s lemma, dominated convergence theorem, basics of Lp spaces, transition and product measures, Fubini’s theorem, construction of the Lebesgue measure in Rd, convergence of finite measures, Jordan–Hahn decomposition of signed measures, Radon–Nikodym theorem and the fundamental theorem of calculus.
The material on probability covers standard topics such as Borel–Cantelli lemmas, behaviour of sums of independent random variables, 0-1 laws, weak convergence of probability distributions, in particular via moments and cumulants, and the central limit theorem (via characteristic function, and also via cumulants), and ends with conditional expectation as a natural application of the Radon–Nikodym theorem. A unique feature is the discussion of the relation between moments and cumulants, leading to Isserlis’ formula for moments of products of Gaussian variables and a proof of the central limit theorem avoiding the use of characteristic functions.
For clarity, the material is divided into 23 (mostly) short chapters. At the appearance of any new concept, adequate exercises are provided to strengthen it. Additional exercises are provided at the end of almost every chapter. A few results have been stated due to their importance, but their proofs do not belong to a first course. A reasonable familiarity with real analysis is needed, especially for the measure theory part. Having a background in basic probability would be helpful, but we do not assume a prior exposure to probability.
"synopsis" may belong to another edition of this title.
About the Author
Arup Bose is an Honorary Visiting Professor at the Indian Statistical Institute since his superannuation in 2024. He has published more than 150 research articles in probability, statistics, econometrics and economics., as well as six books (singly or with others) covering topics in random matrices, non-commutative probability, U-statistics, Mm estimates, resampling, and martingales. He is a Fellow of the Institute of Mathematical Statistics, the Indian National Science Academy, the National Academy of Science and the Indian Academy of Sciences. He has won the Shanti Swarup Bhatnagar Prize and the C.R. Rao award from the Governemtn of India, and the Mahalanobis International Award for Lifetime Achievements from the International Statistical Institute.
From the Back Cover
This book can serve as a first course on measure theory and measure theoretic probability for upper undergraduate and graduate students of mathematics, statistics and probability. Starting from the basics, the measure theory part covers Caratheodory’s theorem, Lebesgue–Stieltjes measures, integration theory, Fatou’s lemma, dominated convergence theorem, basics of Lp spaces, transition and product measures, Fubini’s theorem, construction of the Lebesgue measure in Rd, convergence of finite measures, Jordan–Hahn decomposition of signed measures, Radon–Nikodym theorem and the fundamental theorem of calculus.
The material on probability covers standard topics such as Borel–Cantelli lemmas, behaviour of sums of independent random variables, 0-1 laws, weak convergence of probability distributions, in particular via moments and cumulants, and the central limit theorem (via characteristic function, and also via cumulants), and ends with conditional expectation as a natural application of the Radon–Nikodym theorem. A unique feature is the discussion of the relation between moments and cumulants, leading to Isserlis’ formula for moments of products of Gaussian variables and a proof of the central limit theorem avoiding the use of characteristic functions.
For clarity, the material is divided into 23 (mostly) short chapters. At the appearance of any new concept, adequate exercises are provided to strengthen it. Additional exercises are provided at the end of almost every chapter. A few results have been stated due to their importance, but their proofs do not belong to a first course. A reasonable familiarity with real analysis is needed, especially for the measure theory part. Having a background in basic probability would be helpful, but we do not assume a prior exposure to probability.
"About this title" may belong to another edition of this title.
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Elements of Measure and Probability (Texts and Readings in Mathematics, 88)
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Elements of Measure and Probability (Texts and Readings in Mathematics, 88)
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Elements of Measure and Probability (eng)
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Elements of Measure and Probability
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Buch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -This book can serve as a first course on measure theory and measure theoretic probability for upper undergraduate and graduate students of mathematics, statistics and probability. Starting from the basics, the measure theory part covers Caratheodory s theorem, Lebesgue Stieltjes measures, integration theory, Fatou s lemma, dominated convergence theorem, basics of Lp spaces, transition and product measures, Fubini s theorem, construction of the Lebesgue measure in Rd, convergence of finite measures, Jordan Hahn decomposition of signed measures, Radon Nikodym theorem and the fundamental theorem of calculus.The material on probability covers standard topics such as Borel Cantelli lemmas, behaviour of sums of independent random variables, 0-1 laws, weak convergence of probability distributions, in particular via moments and cumulants, and the central limit theorem (via characteristic function, and also via cumulants), and ends with conditional expectation as a natural application of the Radon Nikodym theorem. A unique feature is the discussion of the relation between moments and cumulants, leading to Isserlis formula for moments of products of Gaussian variables and a proof of the central limit theorem avoiding the use of characteristic functions.For clarity, the material is divided into 23 (mostly) short chapters. At the appearance of any new concept, adequate exercises are provided to strengthen it. Additional exercises are provided at the end of almost every chapter. A few results have been stated due to their importance, but their proofs do not belong to a first course. A reasonable familiarity with real analysis is needed, especially for the measure theory part. Having a background in basic probability would be helpful, but we do not assume a prior exposure to probability. 328 pp. Englisch. Seller Inventory # 9789819527571
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Elements of Measure and Probability
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ISBN 10: 9819527570
ISBN 13: 9789819527571
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Buch. Condition: Neu. This item is printed on demand - Print on Demand Titel. Neuware -This book can serve as a first course on measure theory and measure theoretic probability for upper undergraduate and graduate students of mathematics, statistics and probability. Starting from the basics, the measure theory part covers Caratheodory's theorem, LebesgueStieltjes measures, integration theory, Fatou's lemma, dominated convergence theorem, basics of Lp spaces, transition and product measures, Fubini's theorem, construction of the Lebesgue measure in Rd, convergence of finite measures, JordanHahn decomposition of signed measures, RadonNikodym theorem and the fundamental theorem of calculus.The material on probability covers standard topics such as BorelCantelli lemmas, behaviour of sums of independent random variables, 0-1 laws, weak convergence of probability distributions, in particular via moments and cumulants, and the central limit theorem (via characteristic function, and also via cumulants), and ends with conditional expectation as a natural application of the RadonNikodym theorem. A unique feature is the discussion of the relation between moments and cumulants, leading to Isserlis' formula for moments of products of Gaussian variables and a proof of the central limit theorem avoiding the use of characteristic functions.For clarity, the material is divided into 23 (mostly) short chapters. At the appearance of any new concept, adequate exercises are provided to strengthen it. Additional exercises are provided at the end of almost every chapter. A few results have been stated due to their importance, but their proofs do not belong to a first course. A reasonable familiarity with real analysis is needed, especially for the measure theory part. Having a background in basic probability would be helpful, but we do not assume a prior exposure to probability.Springer-Verlag KG, Sachsenplatz 4-6, 1201 Wien 328 pp. Englisch. Seller Inventory # 9789819527571
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Elements of Measure and Probability
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Buch. Condition: Neu. Elements of Measure and Probability | Arup Bose | Buch | xix | Englisch | 2025 | Springer | EAN 9789819527571 | Verantwortliche Person für die EU: Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg, juergen[dot]hartmann[at]springer[dot]com | Anbieter: preigu Print on Demand. Seller Inventory # 134159302
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Buch. Condition: Neu. Neuware - This book can serve as a first course on measure theory and measure theoretic probability for upper undergraduate and graduate students of mathematics, statistics and probability. Starting from the basics, the measure theory part covers Caratheodory s theorem, Lebesgue Stieltjes measures, integration theory, Fatou s lemma, dominated convergence theorem, basics of Lp spaces, transition and product measures, Fubini s theorem, construction of the Lebesgue measure in Rd, convergence of finite measures, Jordan Hahn decomposition of signed measures, Radon Nikodym theorem and the fundamental theorem of calculus.The material on probability covers standard topics such as Borel Cantelli lemmas, behaviour of sums of independent random variables, 0-1 laws, weak convergence of probability distributions, in particular via moments and cumulants, and the central limit theorem (via characteristic function, and also via cumulants), and ends with conditional expectation as a natural application of the Radon Nikodym theorem. A unique feature is the discussion of the relation between moments and cumulants, leading to Isserlis formula for moments of products of Gaussian variables and a proof of the central limit theorem avoiding the use of characteristic functions.For clarity, the material is divided into 23 (mostly) short chapters. At the appearance of any new concept, adequate exercises are provided to strengthen it. Additional exercises are provided at the end of almost every chapter. A few results have been stated due to their importance, but their proofs do not belong to a first course. A reasonable familiarity with real analysis is needed, especially for the measure theory part. Having a background in basic probability would be helpful, but we do not assume a prior exposure to probability. Seller Inventory # 9789819527571