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RISK PREMIUM PROJECT

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... evidence against the CAPM and beta has left many practioners helpless ... Example: Catastrophe Risk, Layer Betas 0.18 to 8.29. Stay Tuned for More Developments ... – PowerPoint PPT presentation

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Title: RISK PREMIUM PROJECT


1
RISK PREMIUM PROJECT
  • Richard A. Derrig
  • Senior Vice President
  • Automobile Insurers Bureau of MA.

Baylor University March 14, 2001
2
INSPIRATION
  • Q1
  • "When the rubber hits the road, corporate finance
    theory of the last twenty-five years is not
    particularly relevant.
  • Ren? M. Stulz

3
CAS RISK PREMIUM PROJECT
  • Committee on Theory of Risk
  • Discount Rate for Liabilities
  • Literature Review
  • Actuarial Process and Parameter Risk
  • Financial Systematic Risk
  • Academic Dave Cummins, Rich Phillips
  • Industry Bob Butsic, Rich Derrig

4
(No Transcript)
5
THEORETICAL CONCLUSION 1
  • The opinions of financial economists and
    actuaries regarding the role of systematic vs.
    non-systematic risks in determining the
    equilibrium insurance prices are converging. Both
    see a role for non-systematic risk in pricing.

6
THEORETICAL CONCLUSION 2
  • A systematic risk adjustment for the duration of
    the cash flows associated with a line of
    insurance should be included in the discount rate
    used to determine the fair value of the insurance
    premium.
  • The adjustment to the discount rate will be a
    function of the maturity structure of the
    liabilities.

7
THEORETICAL CONCLUSION 3
  • The average returns of financial assets cannot be
    adequately explained by the CAPM beta.
    Researchers have shown extensions of the CAPM
    which include additional factors significantly
    enhance the explanatory power of the models. In
    addition, although research using more
    sophisticated empirical tests has been published
    extending the CAPM, similar research focusing on
    insurance company returns does not currently
    exist.

8
THEORETICAL CONCLUSION 4
  • A theoretically consistent way to allocate the
    costs of holding equity capital to individual
    lines of insurance has been identified. Thus,
    the costs associated with holding capital can now
    be charged to individual lines of insurance.

9
THEORETICAL CONCLUSION 5
  • The risk of insurer default to the policyholder
    should be recognized in pricing the risk
    transfer.

10
THEORETICAL CONCLUSION 1
  • Q3
  • "I argue that the mainstream approach to capital
    budgeting focuses excessively on the special case
    where diversifiable risks do not affect the
    contribution of a project to the value of the
    firm. This approach ignores the impact of a new
    project on a firm's total risk and therefore
    often leads to an inappropriate assessment of the
    value of the project. I present arguments for
    why total risk is often costly and discuss how
    taking total risk into account in capital
    budgeting is necessary to make capital budgeting
    and capital structure decisions consistent."
  • Ren? M. Stulz

11
THEORECTICAL CONCLUSION 1
  • Q2
  • "Intermediaries take risks by investing their
    capital in illiquid and information-intensive
    financial activities. It is these imperfections
    in financial markets that allow intermediaries to
    make profits. But the imperfections are not
    merely a source of profit - they also create
    costs. That is, intermediaries must finance
    themselves by issuing claims that are at least
    partially illiquid and information-intensive.
    This suggests that exogenous shocks to
    intermediaries' financial capital should have
    implications for the pricing and availability of
    the instruments in which they invest.
  • Kenneth A. Froot

12
THEORETICAL CONCLUSION 2
  • Q4
  • "Our work bridges a gap between two common modes
    of analysis in empirical finance cross-sectional
    analysis of multifactor models, and fundamental
    analysis using the present-value relation. The
    former analysis breaks risk down into
    sensitivities to various factors, while the
    latter distinguishes between cash flow risk and
    discount rate risk. Here we combine these two
    models, using both contemporaneous
    cross-sectional information and time-series
    information to describe the dynamic behavior of
    asset returns".
  • John Y. Campbell Jianping Mei
  • Where do Betas Come from? Asset Price
  • Dynamics and the Sources of systematic Risk.

13
THEORETICAL CONCLUSION 3
  • Q5
  • "We then show that traditional estimates of beta
    are uncorrelated with future stock returns over
    the 1931 through 1994 time period. On the other
    hand, adjusted beta estimates are positively
    correlated with future security returns.
    Moreover, we show that adjusted estimates of beta
    partially explain the size effect in common stock
    returns."
  • Roger Ibbotson, Paul Kaplan James Peterson
  • Estimates of Small Stock Betas Are Much Too Low

14
SMALL STOCK EFFECT/SUM BETA
  • Small Stock Effect Smaller Decile (MKT CAP)
    Returns Exceed CAPM Expected
  • Theory Non-Systematic Risk Based on Information
    Flow and Liquidity
  • Practice Deciles 5 to 10, 1926-1998 0.87 (5)
    to 3.75 (10) Excess of CAPM
  • Example MA Companies 1.3
  • Ibbotson, Kaplan Peterson (1997)
    Cross-Autocorrelations in Returns Sum Beta
    adds One Lag Sum ? ? ?-1
  • Sum Beta Explains Some of Small Stock Effect

15
THEORETICAL CONCLUSION 3
  • Q6
  • "The usefulness of the CAPM and beta for the
    purpose of estimating the required rate of return
    on equity has been called into question, most
    notably, by Fama and French (1992, 1993, and
    1997). The evidence against the CAPM and beta
    has left many practioners helpless since no
    theoretically justified alternative model is
    easily implemented. Largely because of this,
    researchers have turned their attention to issues
    involving implementation of the CAPM."
  • Paul Kaplan James Peterson
  • Full Information Industry Betas

16
FULL INFORMATION BETA
  • Problem Public Firms not all Pure Play
  • Solution Industry Equity Beta via
  • Sales Weighted Full
  • Market Regression
  • P C Equity Beta 12/31/98 of 0.92
  • Sum Beta Effect Not Calculated

17
THEORETICAL CONCLUSION 4
  • Q7
  • "Option pricing methods can be used to estimate
    surplus requirements for insurance companies and
    to allocate surplus line by line. Given the
    line-by-line composition of the insurance
    company's business, that allocation is unique and
    not arbitrary. To calculate the cost of writing
    policies in different lines of insurance surplus
    requirements should be allocated so that the
    marginal default value is the same in all lines."
  • Stewart Myers James Read
  • Surplus Allocation for Insurance Companies

18
SURPLUS ALLOCATION
  • Surplus by Company stands behind all lines
  • Surplus by Line needed to allocate taxes and
    other by line Costs.
  • Myers-Read (1999) Theory Allows Unique Additive
    Allocation of Capital by Fairness to Guaranty
    Fund Criteria and Options Pricing Methods
  • Properties Higher Line Covariance with Liab
    (Asset) Portfolio Implies Higher (Lower) Surplus
  • Key Equation Default Option F (Liabilities,
    Assets, A/L)

19
THEORETICAL CONLUSION 4
  • Q8
  • "Since capital allocation depends on the market
    values of losses by layer, not just the expected
    loses, the underlying risk load process
    influences the economic basis for capital
    allocation to layer. Both the allocated capital
    and risk loads depend on the particular loss size
    distribution. They both also share the value
    additivity property, where the sum of capital and
    risk loads over a subdivision of policies or
    layers, equals the total value."
  • " The expected return on capital by layer can be
    determined from the market or fair premium, which
    depends on the capital allocation and risk load
    by layer. Because the amount of capital and the
    risk load arise from different economic
    processes, the expected ROE will not be a
    constant across all layers. In fact, the lowest
    layer will produce an expected ROE equal to the
    riskless rate."
  • Robert P. Butsic
  • Capital Allocation for Property-Liability
    Insurers
  • A Catastrophe Reinsurance Application

20
LOSS DISTRIBUTION BETAS
  • CAPM Loss Beta (Fairley, 1979) has
  • ? F(A,L,T,S, More (?)), No Default
  • Problem All Liability Dollars Have Same Risk
  • Butsic (1999) Unique Surplus Allocation if
    Price Homogeneity (Same Marginal Default Option).
  • Surplus Allocation Across Coverage Layers (Loss
    Distribution)
  • Layer Beta and Surplus Increasing by Limit
  • Risk Loads by Layer
  • Example Catastrophe Risk, Layer Betas 0.18 to
    8.29
  • Stay Tuned for More Developments

21
THEORETICAL CONCLUSION 5
  • Q9
  • "This paper uses a contingent claims framework
    to develop a financial pricing model of insurance
    that overcomes one of the main shortcomings of
    previous models - the inability to price
    insurance by line in a multiple line insurer
    subject to default risk. The model predicts
    prices will vary across firms depending upon firm
    default risk, but within a given insurer prices
    should not vary after controlling for
    line-specific liability growth rates."
  • "Empirical tests using data on publicly
    traded property-liability insurers support the
    hypotheses prices vary across firms depending
    upon overall-firm default risk and the
    concentration of business among subsidiaries but
    within a given firm, prices do not vary by line
    after adjusting for line-specific liability
    growth rates.
  • Richard D. Phillips, J. David Cummins Franklin
    Allen
  • Financial Pricing of Insurance in the
    Multiple-Line Insurance Company

22
REFERENCES
  • Butsic, Robert P, (1999), Capital Allocation for
    Property-Liability Insurers A Catastrophe
    Reinsurance Application, Casualty Actuarial
    Society Forum, Spring.
  • Ibbotson, Roger G, Paul D. Kaplan and James D.
    Peterson, (1997), Estimates of Small Stock Betas
    are Much Too Low, Journal of Portfolio
    Management, Summer.
  • Kaplan, Paul D. and James D. Peterson, (1998),
    Full-Information Industry Betas, Financial
    Management, Summer.
  • Myers, Stewart C. and James A. Read, Jr., (1999),
    Surplus Allocations for Insurance Companies, AIB
    Working Paper, July.
  • Phillips,Richard D., J. David Cummins Franklin
    Allen (1998), Financial Pricing of Insurance in
    the Multiple-Line Insurance Company, Journal of
    Risk and Insurance, 654579-636
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