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      Pricing Insurance Risk is a topic of great concern to actuaries, especially property-casualty actuaries, our primary audience. But it is also relevant to those working in other fields, including risk management and Enterprise Risk Management, capital modeling, catastrophe modeling, financial regulation, and solvency assessment. Insurance risk is managed through pooling, unlike financial risk that is managed through hedging. The title could have been Pricing Non-Hedgeable Risk.

      The book came about through a confluence of supporting factors. We had worked independently for many years on the problem of defining the value of risk management and risk transfer (especially in the context of property catastrophe risk) and “escaping the efficient frontier.” Don Mango brought us together to work with him and Jesse Nickerson to present a multipart tutorial on spectral risk measures at the Casualty Actuarial Society Spring 2018 meeting. The tutorial was so successful that we felt it deserved a wider audience and set about developing a monograph: “Spectral Risk Measures for the Working Actuary.” As we proceeded to refine our thinking and presentation, we realized there was so much more to be explained. Three and a half years and 1200 git commits later, we had this book.

      The literature is rich with good answers to many fundamental questions about insurance risk that are consistent with finance theory and relatively easy to apply. Much is known, in the sense of being out there in the literature, but too much is not widely known by people who would benefit from that knowledge. Actuarial education and practice in this area lags the state of the art. We have encountered actuaries struggling with ill-defined terminology and concepts with multiple names. We have seen confusion wrought by inappropriate application of finance theories (remember the underwriting beta?). Our newly minted US Fellows are often ignorant of the latest developments because they are not on the exam syllabus and there has not been an easy way to incorporate them.

      This book presents these good answers in one systematic and comprehensive source for the first time, making them much more accessible to actuaries and other practitioners. With this book we intend to raise the bar in actuarial education, enable clear communications, and improve the efficiency of actuaries everywhere by delivering a fresh map of the conceptual territory. We wish we could take credit for the theory we present, but most of it is around twenty years old. We are simply reporting the work of others.

      In putting together this book we tried to stay reasonably rigorous without getting lost in a theorem-proof wilderness. We feel strongly that knowing how to use a technique is not helpful if you are unsure that it is valid to use in the first place! We include technical remarks and provide pointers into the literature (about 300 bibliographic references) for those who want a more thorough understanding of “why.” For the practitioner, we included nearly 100 examples and 150 exercises. The Learning Objectives at the end of each chapter summarize what we hope the reader will take away from it. Bold words and phrases introduce terminology that is used throughout the book.

      We aimed this book primarily at property-casualty actuaries, at minimum two years of experience as a student actuary with basic knowledge of insurance coverage and structuring, and having passed the beginning mathematics exams. We expect readers with different backgrounds will still be able to get something from the book. A lot of the insurance and finance terminology is only an internet search away. Mathematics background should include calculus and basic probability—sample spaces, discrete vs. continuous random variables, normal and lognormal distributions, integration by parts, etc. Of course, for an in-depth understanding, more background, especially in probability theory, is better.

      The manuscript was prepared using free software. It was written in Markdown and converted to TeX using Pandoc. TikZ was used for the figures and diagrams, and all the graphs and plots were made using Python, Pandas, and Matplotlib. We used R for the statistical analysis and to double check Python (they always agreed). Spreadsheets were used for the discrete examples. We both remember when computers booted from (genuinely) floppy disks. The existence of so much free software, of such a high quality, is an unexpected joy.

      We owe a debt of gratitude to many people. In academia, keeping us accurate, we thank Dani Bauer, Stuart Klugman, Andreas Tsanakas, Ruodu Wang, Shaun Wang, and George Zanjani. In business, keeping us real, we thank Avi Adler, John Aquino, Neil Bodoff, Julia Chu, Andrew Cox (1978–2021), Dan Dick, Paul Eaton, Bryon Ehrhart, Kent Ellingson, Stephen Fiete, Bob Fox, Jonathan Hayes, Greg Heerde, Wouter Heynderickx, Rodney Kreps, Morton Lane, Mike McClane, Tessa Moulton, Parr Schoolman, Paul Schultz, Jason Trock, Gary Venter, Steve White, and Rebecca Wilkinson.

       In order to make insurance a trade at all, the common premium must be sufficient to compensate the common losses, to pay the expense of management, and to afford such a profit as might have been drawn from an equal capital employed in any common trade.

      Adam Smith, The Wealth of Nations (Book 1, Ch X, Part I, 5th Edition, 1789)

      1.1 Our Subject and Why It Matters

      Pricing insurance risk is the last mile of underwriting. It determines which risks are accepted onto the balance sheet and makes an insurer’s risk appetite operational. It is critical to successful insurance company management.

      As the last mile, pricing depends on all that has come before. Actuaries and underwriters have analyzed and classified the risk, trended and developed losses, and on-leveled premiums to pick a best-estimate prospective loss cost. Accountants have allocated fixed and variable expenses. Simulation models place the new risk within the context of the company’s existing portfolio. The mechanics of all this work is the subject of much of the actuarial education syllabus: experience and exposure rating, predictive analytics, and advanced statistical methods. That is not the subject of this book! All of that prior effort determines the expected loss, and we take it as a given. Pricing adds the risk margin—to afford capital a reasonable return. The risk margin is our subject.

      Since risk margins are often small, how is it they deserve a whole book? Because risk considerations have an outsized market impact. True, personal property may only earn a single-digit margin. But that business often relies on reinsurance priced with margins of 50% or more. When the reinsurance markets fail or become stressed—as

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