MASSIVE SAVINGS JUST FOR YOU!
VIEW DEALS

Optimal Statistical Inference in Financial Engineering



This book is about optimal statistical inference in financial engineering and it discusses how to properly estimate models. It also discusses testing hypotheses and discriminant analysis. The book also discusses stochastic processes, many famous time series models, and their asymptotically optimal inference. The book also discusses option pricing theory, the statistical estimation for portfolio co... more details
Key Features:
  • Provides a comprehensive overview of the key concepts in statistical inference in finance
  • Presents a range of topics, from model estimation to VaR
  • Provides extensive examples and exercises to illustrate key concepts


R4 437.00 from Loot.co.za

price history Price history

   BP = Best Price   HP = Highest Price

Current Price: R4 437.00

loading...

tagged products icon   Similarly Tagged Products

Features
Author Masanobu Taniguchi,Junichi Hirukawa,Kenichiro Tamaki
Format Hardcover
ISBN 9781584885917
Publisher Chapman And Hall/crc
Manufacturer Chapman And Hall/crc
Description
This book is about optimal statistical inference in financial engineering and it discusses how to properly estimate models. It also discusses testing hypotheses and discriminant analysis. The book also discusses stochastic processes, many famous time series models, and their asymptotically optimal inference. The book also discusses option pricing theory, the statistical estimation for portfolio coefficients, and value-at-risk (VaR) problems via residual empirical return processes. The book ends with examples of models for interest rates and discount bonds.

Until now, few systematic studies of optimal statistical inference for stochastic processes had existed in the financial engineering literature, even though this idea is fundamental to the field. Balancing statistical theory with data analysis, Optimal Statistical Inference in Financial Engineering examines how stochastic models can effectively describe actual financial data and illustrates how to properly estimate the proposed models. After explaining the elements of probability and statistical inference for independent observations, the book discusses the testing hypothesis and discriminant analysis for independent observations. It then explores stochastic processes, many famous time series models, their asymptotically optimal inference, and the problem of prediction, followed by a chapter on statistical financial engineering that addresses option pricing theory, the statistical estimation for portfolio coefficients, and value-at-risk (VaR) problems via residual empirical return processes. The final chapters present some models for interest rates and discount bonds, discuss their no-arbitrage pricing theory, investigate problems of credit rating, and illustrate the clustering of stock returns in both the New York and Tokyo Stock Exchanges. Basing results on a modern, unified optimal inference approach for various time series models, this reference underlines the importance of stochastic models in the area of financial engineering.
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.