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Statistical Portfolio Estimation

Masanobu Taniguchi | Hiroshi Shiraishi | Junichi Hirukawa | Hiroko Kato Solvang | Takashi Yamashita
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A01=Hiroko Kato Solvang
A01=Hiroshi Shiraishi
A01=Junichi Hirukawa
A01=Masanobu Taniguchi
A01=Takashi Yamashita
advanced investment strategies
AR Residual
Arbitrage Pricing Theory
Arch Model
ARMA Model
asset return analysis
Author_Hiroko Kato Solvang
Author_Hiroshi Shiraishi
Author_Junichi Hirukawa
Author_Masanobu Taniguchi
Author_Takashi Yamashita
Category=KCH
Category=PBT
Category=PBW
CVaR
density
difference
DNA Sequence Data
EBV Virus
econometric inference
Efficient Frontier
eq_bestseller
eq_business-finance-law
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
Estimated Portfolio Weights
estimators
financial risk modeling
Generalize AIC
Generalized Autoregressive Conditional Heteroscedastic Model
Hiroko Kato Solvang
Hiroshi Shiraishi
Junichi Hirukawa
Local Martingale
martingale
matrix
Modern Portfolio Theory
multivariate statistics
Multivariate Time Series
non-Gaussian processes
optimal
Optimal Portfolio
Optimal Portfolio Weights
Portfolio Estimation
Portfolio Variance
Portfolio Weights
process
Rank Order Statistics
Ranked Gene Lists
sequence
spectral
Spectral Density Matrix
Spectral Envelope
Stationary GARCH
statistical methods for portfolio optimization
stochastic
Takashi Yamashita
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Product details

  • ISBN 9781032096490
  • Weight: 684g
  • Dimensions: 178 x 254mm
  • Publication Date: 30 Jun 2021
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Paperback
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Description

The composition of portfolios is one of the most fundamental and important methods in financial engineering, used to control the risk of investments. This book provides a comprehensive overview of statistical inference for portfolios and their various applications. A variety of asset processes are introduced, including non-Gaussian stationary processes, nonlinear processes, non-stationary processes, and the book provides a framework for statistical inference using local asymptotic normality (LAN). The approach is generalized for portfolio estimation, so that many important problems can be covered.

This book can primarily be used as a reference by researchers from statistics, mathematics, finance, econometrics, and genomics. It can also be used as a textbook by senior undergraduate and graduate students in these fields.
About Hiroko Kato Solvang | Hiroshi Shiraishi | Junichi Hirukawa | Masanobu Taniguchi | Takashi Yamashita

Masanobu Taniguchi is a research professor in the Department of Applied Mathematics at Waseda University, Japan.

Hiroshi Shiraishi is a lecturer in the Laboratory of Mathematics, Jikei University School of Medicine, Japan.

Junichi Hirukawa is an associate professor in the Faculty of Science at Niigata University, Japan.

Hiroko Solvang Kato is a researcher and project leader in the Department of Genetics, Institute for Cancer Research, Oslo University Hospital, Norway.

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