Venetia : appresso il Turrini, 1654

87, \1! p. ; 12º

BNSALA FARN.43. A                   16

Italiano

Testo ricomposto, edizione diversa da BVEE031045, cfr. p. 27 r. 21 "secon-"

Marca (Torre) sul front

Segn.: A-C¹²D⁸

P. 23 segnata 32.

Chichester, England ; ; Hoboken, NJ, : Wiley, 2008

1-282-34997-X

9786612349973

0-470-77103-8

1 online resource (430 p.)

The Wiley Finance Series ; ; v.2

332.015195

332.6

Risk management

Hedging (Finance)

Electronic books.

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Market Risk Analysis Volume II; Contents; List of Figures; List of Tables; List of Examples; Foreword; Preface to Volume II; II.1 Factor Models; II.2 Principal Component Analysis; II.3 Classical Models of Volatility and Correlation; II.4 Introduction to GARCH Models; II.5 Time Series Models and Cointegration; II.6 Introduction to Copulas; II.7 Advanced Econometric Models; II.8 Forecasting and Model Evaluation; References; Index; Plates

Written by leading market risk academic, Professor Carol Alexander, Practical Financial Econometrics forms part two of the Market Risk Analysis four volume set. It introduces the econometric techniques that are commonly applied to finance with a critical and selective exposition, emphasising the areas of econometrics, such as GARCH, cointegration and copulas that are required for resolving problems in market risk analysis. The book covers material for a one-semester graduate course in applied financial econometrics in a very pedagogical fashion as each time a concept is introduced an empirical

Cham : , : Springer International Publishing : , : Imprint : Springer, , 2015

3-319-10289-3

1 online resource (166 p.)

Adaptation, Learning, and Optimization, , 1867-4534 ; ; 17

629.892

Robotics

Automation

Computational complexity

Artificial intelligence

Biomedical engineering

Robotics and Automation

Complexity

Artificial Intelligence

Biomedical Engineering and Bioengineering

Inglese

Description based upon print version of record.

Includes bibliographical references.

Introduction -- Background and Related Work -- Concept -- Implementation -- Experiments and Results -- Conclusion and Outlook.

This book describes how the principle of self-sufficiency can be applied to a reconfigurable modular robotic organism. It shows the design considerations for a novel REPLICATOR robotic platform, both hardware and software, featuring the behavioral characteristics of social insect colonies. Following a comprehensive overview of some of the bio-inspired techniques already available, and of the state-of-the-art in re-configurable modular robotic systems, the book presents a novel power management system with fault-tolerant energy sharing, as well as its implementation in the REPLICATOR robotic modules. In addition, the book discusses, for the first time, the concept of “artificial energy homeostasis” in the context of a modular robotic organism, and shows

its verification on a custom-designed simulation framework in different dynamic power distribution and fault tolerance scenarios. This book offers an ideal reference guide for both hardware engineers and software developers involved in the design and implementation of autonomous robotic systems.