03922nam 22007214a 450 991081392930332120200520144314.01-107-11464-01-280-42934-80-511-17568-X0-511-03994-80-511-15618-90-511-32911-30-511-75576-70-511-05026-7(CKB)1000000000004181(EBL)201644(OCoLC)437063137(SSID)ssj0000182534(PQKBManifestationID)11156498(PQKBTitleCode)TC0000182534(PQKBWorkID)10187579(PQKB)10974664(UkCbUP)CR9780511755767(Au-PeEL)EBL201644(CaPaEBR)ebr10005020(CaONFJC)MIL42934(MiAaPQ)EBC201644(PPN)261305107(EXLCZ)99100000000000418119990329d2000 uy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierAn introduction to econophysics correlations and complexity in finance /Rosario N. Mantegna, H. Eugene Stanley1st ed.Cambridge, UK ;New York Cambridge University Press20001 online resource (ix, 148 pages) digital, PDF file(s)Title from publisher's bibliographic system (viewed on 05 Oct 2015).0-521-03987-8 0-521-62008-2 Includes bibliographical references (p. 137-144) and index.Cover; Half-title; Title; Copyright; Contents; Preface; Dedication; 1 Introduction; 2 Efficient market hypothesis; 3 Random walk; 4 Lévy stochastic processes and limit theorems; 5 Scales in financial data; 6 Stationarity and time correlation; 7 Time correlation in financial time series; 8 Stochastic models of price dynamics; 9 Scaling and its breakdown; 10 ARCH and GARCH processes; 11 Financial markets and turbulence; 12 Correlation and anticorrelation between stocks; 13 Taxonomy of a stock portfolio; 14 Options in idealized markets; 15 Options in real markets; Appendix A: Notation guideAppendix B: MartingalesReferences; IndexThis book concerns the use of concepts from statistical physics in the description of financial systems. The authors illustrate the scaling concepts used in probability theory, critical phenomena, and fully developed turbulent fluids. These concepts are then applied to financial time series. The authors also present a stochastic model that displays several of the statistical properties observed in empirical data. Statistical physics concepts such as stochastic dynamics, short- and long-range correlations, self-similarity and scaling permit an understanding of the global behaviour of economic systems without first having to work out a detailed microscopic description of the system. Physicists will find the application of statistical physics concepts to economic systems interesting. Economists and workers in the financial world will find useful the presentation of empirical analysis methods and well-formulated theoretical tools that might help describe systems composed of a huge number of interacting subsystems.FinanceStatistical methodsFinanceMathematical modelsStatistical physicsFinanceStatistical methods.FinanceMathematical models.Statistical physics.332/.01/5195Mantegna Rosario N(Rosario Nunzio),1960-66970Stanley H. Eugene(Harry Eugene),1941-94081MiAaPQMiAaPQMiAaPQBOOK9910813929303321An introduction to econophysics4203676UNINA