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Mathematical statistics --- Reliability (Engineering) --- Bayesian statistical decision theory --- Statistique bayésienne --- Mathematical models --- Congresses --- Congrès --- 519.248 --- -Reliability of equipment --- Systems reliability --- Engineering --- Maintainability (Engineering) --- Probabilities --- Systems engineering --- Plant performance --- Safety factor in engineering --- Structural failures --- Engineering statistics. Operational research statistics. Queuing theory. Quality control. Reliability etc. --- Congresses. --- -Congresses --- -Engineering statistics. Operational research statistics. Queuing theory. Quality control. Reliability etc. --- 519.248 Engineering statistics. Operational research statistics. Queuing theory. Quality control. Reliability etc. --- -519.248 Engineering statistics. Operational research statistics. Queuing theory. Quality control. Reliability etc. --- Reliability of equipment --- Statistique bayésienne --- Congrès --- Reliability (Engineering) - Mathematical models - Congresses --- Bayesian statistical decision theory - Congresses
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Mathematics --- 51 --- #TCPW W1.0 --- #TCPW W1.1 --- Math --- Science --- 51 Mathematics
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Bayesian methods are growing more and more popular, finding new practical applications in the fields of health sciences, engineering, environmental sciences, business and economics and social sciences, among others. This book explores the use of Bayesian analysis in the statistical estimation of the unknown phenomenon of interest. The contents demonstrate that where such methods are applicable, they offer the best possible estimate of the unknown. Beyond presenting Bayesian theory and methods of analysis, the text is illustrated with a variety of applications to real world problems.
Statistics. --- Computer science. --- Statistical methods. --- Mathematics. --- Mathematical statistics. --- Statistical Theory and Methods. --- Applications of Mathematics. --- Mathematical Modeling and Industrial Mathematics. --- Probability and Statistics in Computer Science. --- Biostatistics. --- Popular Science in Mathematics/Computer Science/Natural Science/Technology. --- Bayesian statistical decision theory --- Mathematics --- Physical Sciences & Mathematics --- Mathematical Statistics --- Bayesian field theory. --- Bayesian statistical decision theory. --- Bayes' solution --- Bayesian analysis --- Field theory, Bayesian --- Applied mathematics. --- Engineering mathematics. --- Mathematical models. --- Popular works. --- Popular Science, general. --- Statistical decision --- Statistical physics --- Science (General). --- Informatics --- Science --- Math --- Statistical inference --- Statistics, Mathematical --- Statistics --- Probabilities --- Sampling (Statistics) --- Statistical methods --- Statistics . --- Biological statistics --- Biology --- Biometrics (Biology) --- Biostatistics --- Biomathematics --- Models, Mathematical --- Simulation methods --- Engineering --- Engineering analysis --- Mathematical analysis --- Statistical analysis --- Statistical data --- Statistical science --- Econometrics
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Science --- Statistical science --- Operational research. Game theory --- Mathematics --- Biomathematics. Biometry. Biostatistics --- Planning (firm) --- popularisering wetenschap --- toegepaste wiskunde --- stochastische analyse --- Bayesian statistics --- biostatistiek --- mathematische modellen --- biometrie --- wetenschappen --- informatietechnologie --- statistisch onderzoek
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Probability theory --- Probabilities --- Measure theory --- Axioms --- Probability --- Statistical inference --- Combinations --- Mathematics --- Chance --- Least squares --- Mathematical statistics --- Risk --- Lebesgue measure --- Measurable sets --- Measure of a set --- Algebraic topology --- Integrals, Generalized --- Measure algebras --- Rings (Algebra) --- Geometry --- Parallels (Geometry) --- Philosophy --- Foundations --- Probabilities. --- Axioms. --- Measure theory.
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Stochastic integral equations. --- Stochastic systems. --- Differential equations --- Probability theory --- Integral equations. --- Équations intégrales. --- Volterra equations --- Volterra, Équations de --- Volterra equations. --- Volterra, Équations de --- Analyse stochastique --- Equations integrales --- Integrales stochastiques --- Equations differentielles stochastiques --- Equations de fredholm
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Conflicts in the form of wars, or competition among countries and industrial institutions are plenty in human history. The introduction of game theory in the middle of the twentieth century shed insights and enabled researchers to analyze this subject with mathematical rigor. From the ground-breaking work of VonNeumann and Morgenston, modern game theory evolved enormously. In the last few decades, Dynamic game theory framework has been deepened and generalized from the pioneering work on differential games by R. Isaacs, L.S. Pontryagin and his school, and on stochastic games by Shapley. This book will expose the reader to some of the fundamental methodology in non-cooperative game theory, and highlight some numerical methods, along with some relevant applications. Since the early development days, differential game theory has had a significant impact in such diverse disciplines as applied mathematics, economics, systems theory, engineering, operations, research, biology, ecology, environmental sciences, among others. Modern game theory now relies on wide ranging mathematical and computational methods, and relevant applications that are rich and challenging. Game theory has been widely recognized as an important tool in many fields. Importance of game theory to economics is illustrated by the fact that numerous game theorists, such as John Forbes Nash, Jr., Robert J. Aumann and Thomas C. Schelling, have won the Nobel Memorial Prize in Economics Sciences. Simply put, game-theory has the potential to reshape the analysis of human interaction.
Game theory. --- Probabilities. --- Mathematics --- Physical Sciences & Mathematics --- Mathematical Theory --- Mathematics. --- Operations research. --- Decision making. --- Applied mathematics. --- Engineering mathematics. --- Economic theory. --- Mathematics, general. --- Probability Theory and Stochastic Processes. --- Applications of Mathematics. --- Economic Theory/Quantitative Economics/Mathematical Methods. --- Operation Research/Decision Theory. --- Probability --- Statistical inference --- Combinations --- Chance --- Least squares --- Mathematical statistics --- Risk --- Games, Theory of --- Theory of games --- Mathematical models --- Distribution (Probability theory. --- Operations Research/Decision Theory. --- Operational analysis --- Operational research --- Industrial engineering --- Management science --- Research --- System theory --- Economic theory --- Political economy --- Social sciences --- Economic man --- Distribution functions --- Frequency distribution --- Characteristic functions --- Probabilities --- Math --- Science --- Deciding --- Decision (Psychology) --- Decision analysis --- Decision processes --- Making decisions --- Management --- Management decisions --- Choice (Psychology) --- Problem solving --- Engineering --- Engineering analysis --- Mathematical analysis --- Decision making --- Economics, Mathematical. --- Economics --- Mathematical economics --- Econometrics --- Methodology
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The Joy of Finite Mathematics: The Language and Art of Math teaches students basic finite mathematics through a foundational understanding of the underlying symbolic language and its many dialects, including logic, set theory, combinatorics (counting), probability, statistics, geometry, algebra, and finance. Through detailed explanations of the concepts, step-by-step procedures, and clearly defined formulae, readers learn to apply math to subjects ranging from reason (logic) to finance (personal budget), making this interactive and engaging book appropriate for non-science, undergraduate students in the liberal arts, social sciences, finance, economics, and other humanities areas. The authors utilize important historical facts, pose interesting and relevant questions, and reference real-world events to challenge, inspire, and motivate students to learn the subject of mathematical thinking and its relevance. The book is based on the authors' experience teaching Liberal Arts Math and other courses to students of various backgrounds and majors, and is also appropriate for preparing students for Florida's CLAST exam or similar core requirements.--
Mathematics. --- Math --- Science
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