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Modelling Mortality with Actuarial Applications

$69.99 (P)

Part of International Series on Actuarial Science

  • Date Published: May 2018
  • availability: In stock
  • format: Hardback
  • isbn: 9781107045415

$ 69.99 (P)
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About the Authors
  • Actuaries have access to a wealth of individual data in pension and insurance portfolios, but rarely use its full potential. This book will pave the way, from methods using aggregate counts to modern developments in survival analysis. Based on the fundamental concept of the hazard rate, Part I shows how and why to build statistical models, based on data at the level of the individual persons in a pension scheme or life insurance portfolio. Extensive use is made of the R statistics package. Smooth models, including regression and spline models in one and two dimensions, are covered in depth in Part II. Finally, Part III uses multiple-state models to extend survival models beyond the simple life/death setting, and includes a brief introduction to the modern counting process approach. Practising actuaries will find this book indispensable, and students will find it helpful when preparing for their professional examinations.

    • The first book to present survival analysis as a useful tool for actuaries
    • Extensive use of R throughout allows actuaries to quickly apply the techniques to their own data
    • The book will teach actuaries how to realise the full potential of their available data
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    Reviews & endorsements

    'This book is an excellent companion to Actuarial Mathematics for Life Contingent Risks (Dickson, Hardy and Waters) because it provides concrete applications of the theory of survival. The authors cover a lot of ground in a friendly, accessible style with real examples. Actuaries - both students and practitioners - can learn a great deal from this book.' Ian Duncan, University of California, Santa Barbara

    'I taught the analysis of survival data to demographers and actuarial students for many years, and my task would have been made a great deal easier had a book like this been available. It covers the essential elements in a way that is both intellectually satisfying (starting with the fundamental concepts and building on these) and focused on the analysis of empirical data. The methods described are modern, state-of-the art approaches. Moreover, because the book provides readers with a sound understanding of the theory underlying these methods, they will be well equipped to take on board future developments, even in a fast-moving field. I can recommend this book for advanced undergraduate and Masters-level students studying actuarial science, demographic methods and related areas of statistics.' Andrew Hinde, University of Southampton

    'A wonderfully comprehensive piece of work from leading experts in the field. Essential reading for anyone with an interest in longevity modelling.' Richard Willets, ReAssure Ltd.

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    Product details

    • Date Published: May 2018
    • format: Hardback
    • isbn: 9781107045415
    • length: 384 pages
    • dimensions: 235 x 158 x 20 mm
    • weight: 0.74kg
    • contains: 95 b/w illus. 42 tables
    • availability: In stock
  • Table of Contents

    Preface
    Part I. Analysing Portfolio Mortality:
    1. Introduction
    2. Data preparation
    3. The basic mathematical model
    4. Statistical inference with mortality data
    5. Fitting a parametric survival model
    6. Model comparison and tests of fit
    7. Modelling features of the portfolio
    8. Non-parametric methods
    9. Regulation
    Part II. Regression and Projection Models:
    10. Methods of graduation I – regression models
    11. Methods of graduation II – smooth models
    12. Methods of graduation III – 2-dimensional models
    13. Methods of graduation IV – forecasting
    Part III. Multiple-State Models:
    14. Markov multiple-state models
    15. Inference in the Markov model
    16. Competing risks models
    17. Counting-process models
    Appendix A. R commands
    Appendix B. Basic likelihood theory
    Appendix C. Conversion to published tables
    Appendix D. Numerical integration
    Appendix E. Mean and variance-covariance of a vector
    Appendix F. Differentiation with respect to a vector
    Appendix G. Kronecker product of two matrices
    Appendix H. R functions and programs
    References
    Author index
    Index.

  • Resources for

    Modelling Mortality with Actuarial Applications

    Angus S. Macdonald, Stephen J. Richards, Iain D. Currie

    General Resources

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  • Authors

    Angus S. Macdonald, Heriot-Watt University, Edinburgh
    Angus S. Macdonald is Professor of Actuarial Mathematics at Heriot-Watt University, Edinburgh. He is an actuary with much experience of modeling mortality and other life histories, particularly in connection with genetics, and as a member of Continuous Mortality Investigation committees.

    Stephen J. Richards, Longevitas Ltd, Edinburgh
    Stephen J. Richards is an actuary and principal of Longevitas Ltd., Edinburgh, a software and consultancy firm that uses many of the models described in this book with life insurance and pension scheme clients worldwide.

    Iain D. Currie, Heriot-Watt University, Edinburgh
    Iain D. Currie is an Honorary Research Fellow at Heriot-Watt University, Edinburgh. As a statistician, he was chiefly responsible for the development of the spline models described in this book, and their application to actuarial problems.

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