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9780126393712

A Behavioral Approach To Asset Pricing

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  • ISBN13:

    9780126393712

  • ISBN10:

    0126393710

  • Format: Hardcover
  • Copyright: 2005-01-21
  • Publisher: Elsevier Science & Technology
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Summary

A Behavioral Approach to Asset Pricing Theory examines the reigning assumptions of asset pricing theory and reconstructs them to incorporate findings from behavioral finance. It constructs a solid, intact structure that challenges classic assumptions and at the same time provides a strong theory and efficient empirical tools. Building on the models developed by both traditional asset pricing theorists and behavioral asset pricing theorists, this book takes the discussion to the next step. The author provides a general behaviorally based intertemporal treatment of asset pricing theory that extends to the discussion of derivatives, fixed income securities, mean-variance efficient portfolios, and the market portfolio. The book develops a series of examples to illustrate the theoretical results. The CD-ROM contains most of the examples, worked out as Excel spreadsheets, so that a diligent reader can follow them through. Instructors might also want to use the examples to assign class exercises, asking students to modify the numbers and see what happens.

Author Biography

Hersh Shefrin is the Mario Belotti Professor of Finance, Santa Clara University, California.

Table of Contents

Preface xvii
1 Introduction 1(12)
1.1 Why Read This Book?
2(4)
1.1.1 Value to Proponents of Traditional Asset Pricing
2(3)
1.1.2 Value to Proponents of Behavioral Asset Pricing
5(1)
1.2 Organization: How the Ideas in This Book Tie Together
6(6)
1.2.1 Heuristics and Representativeness: Experimental Evidence
7(1)
1.2.2 Heuristics and Representativeness: Investor Expectations
7(1)
1.2.3 Developing Behavioral Asset Pricing Models
7(1)
1.2.4 Heterogeneity in Risk Tolerance and Time Discounting
8(1)
1.2.5 Sentiment and Behavioral SDF
9(1)
1.2.6 Applications of Behavioral SDF
9(2)
1.2.7 Prospect Theory
11(1)
1.2.8 Closure
12(1)
1.3 Summary
12(1)
I Heuristics and Representativeness: Experimental Evidence 13(46)
2 Representativeness and Bayes Rule: Psychological Perspective
15(10)
2.1 Explaining Representativeness
16(1)
2.2 Implications for Bayes Rule
16(1)
2.3 Experiment
16(3)
2.3.1 Three Groups
17(1)
2.3.2 Bayesian Hypothesis
18(1)
2.3.3 Results
18(1)
2.4 Representativeness and Prediction
19(4)
2.4.1 Two Extreme Cases
20(1)
2.4.2 Representativeness and Regression to the Mean
21(1)
2.4.3 Results for the Prediction Study
21(1)
2.4.4 Strength of Relationship Between Signal and Prediction
21(1)
2.4.5 How Regressive?
22(1)
2.5 Summary
23(2)
3 Representativeness and Bayes Rule: Economics Perspective
25(8)
3.1 The Grether Experiment
25(3)
3.1.1 Design
25(1)
3.1.2 Experimental Task: Bayesian Approach
26(2)
3.2 Representativeness
28(1)
3.3 Results
28(4)
3.3.1 Underweighting Base Rate Information
31(1)
3.4 Summary
32(1)
4 A Simple Asset Pricing Model Featuring Representativeness
33(10)
4.1 First Stage, Modified Experimental Structure
34(1)
4.2 Expected Utility Model
34(3)
4.2.1 Bayesian Solution
36(1)
4.3 Equilibrium Prices
37(1)
4.4 Representativeness
38(1)
4.5 Second Stage: Signal-Based Market Structure
39(2)
4.6 Summary
41(2)
5 Heterogeneous Judgments in Experiments
43(18)
5.1 Grether Experiment
43(1)
5.2 Heterogeneity in Predictions of GPA
44(2)
5.3 The De Bondt Experiment
46(9)
5.3.1 Forecasts of the S&P Index: Original Study
46(6)
5.3.2 Replication of De Bondt Study
52(2)
5.3.3 Overconfidence
54(1)
5.4 Why Some Bet on Trends and Others Commit Gambler's Fallacy
55(2)
5.5 Summary
57(2)
II Heuristics and Representativeness: Investor Expectations 59(38)
6 Representativeness and Heterogeneous Beliefs Among Individual Investors, Financial Executives, and Academics
61(14)
6.1 Individual Investors
61(8)
6.1.1 Bullish Sentiment and Heterogeneity
62(1)
6.1.2 The UBS-Gallup Survey
63(1)
6.1.3 Heterogeneous Beliefs
63(1)
6.1.4 Trend Following
64(2)
6.1.5 The Impact of Demographic Variables
66(1)
6.1.6 Own Experience: Availability Bias
67(1)
6.1.7 Do Individual Investors Bet on Trends? Perceptions and Reactions to Mispricing
68(1)
6.2 The Expectations of Academic Economists
69(4)
6.2.1 Heterogeneous Beliefs
70(2)
6.2.2 Welch's 1999 and 2001 Surveys
72(1)
6.3 Financial Executives
73(1)
6.3.1 Volatility and Overconfidence
74(1)
6.4 Summary
74(1)
7 Representativeness and Heterogeneity in the Judgments of Professional Investors
75(24)
7.1 Contrasting Predictions: How Valid?
75(1)
7.2 Update to Livingston Survey
76(4)
7.2.1 Heterogeneity
77(3)
7.3 Individual Forecasting Records
80(8)
7.3.1 Frank Cappiello
82(4)
7.3.2 Ralph Acampora
86(2)
7.4 Gambler's Fallacy
88(5)
7.4.1 Forecast Accuracy
89(1)
7.4.2 Excessive Pessimism
90(1)
7.4.3 Predictions of Volatility
91(2)
7.5 Why Heterogeneity Is Time Varying
93(1)
7.5.1 Heterogeneity and Newsletter Writers
94(1)
7.6 Summary
94(3)
III Developing Behavioral Asset Pricing Models 97(62)
8 A Simple Asset Pricing Model with Heterogeneous Beliefs
99(12)
8.1 A Simple Model with Two Investors
99(3)
8.1.1 Probabilities
100(1)
8.1.2 Utility Functions
100(1)
8.1.3 State Prices
100(1)
8.1.4 Budget Constraint
101(1)
8.1.5 Expected Utility Maximization
101(1)
8.2 Equilibrium Prices
102(2)
8.2.1 Formal Argument
103(1)
8.2.2 Representative Investor
104(1)
8.3 Fixed Optimism and Pessimism
104(3)
8.3.1 Impact of Heterogeneity
107(1)
8.4 Incorporating Representativeness
107(2)
8.5 Summary
109(2)
9 Heterogeneous Beliefs and Inefficient Markets
111(12)
9.1 Defining Market Efficiency
111(4)
9.1.1 Riskless Arbitrage
113(1)
9.1.2 Risky Arbitrage
113(1)
9.1.3 Fundamental Value
114(1)
9.1.4 When Π Is Nonexistent
114(1)
9.2 Market Efficiency and Logarithmic Utility
115(1)
9.2.1 Example of Market Inefficiency
115(1)
9.3 Equilibrium Prices as Aggregators
116(1)
9.4 Market Efficiency: Necessary and Sufficient Condition
117(2)
9.5 Interpreting the Efficiency Condition
119(3)
9.5.1 When the Market Is Naturally Efficient
119(1)
9.5.2 Knife-Edge Efficiency
120(1)
9.5.3 When the Market Is Naturally Inefficient
120(2)
9.6 Summary
122(1)
10 A Simple Market Model of Prices and Trading Volume
123(18)
10.1 The Model
123(3)
10.1.1 Expected Utility Maximization
123(3)
10.2 Analysis of Returns
126(1)
10.2.1 Market Portfolio
126(1)
10.2.2 Risk-Free Security
127(1)
10.3 Analysis of Trading Volume
127(4)
10.3.1 Theory
129(2)
10.4 Example
131(8)
10.4.1 Stochastic Processes
131(2)
10.4.2 Available Securities
133(1)
10.4.3 Initial Portfolios
134(1)
10.4.4 Equilibrium Portfolio Strategies
134(3)
10.4.5 Markov Structure, Continuation, and Asymmetric Volatility
137(2)
10.5 Arbitrage
139(1)
10.5.1 State Prices
139(1)
10.6 Summary
140(1)
11 Efficiency and Entropy: Long-Run Dynamics
141(18)
11.1 Introductory Example
142(5)
11.1.1 The Market
143(1)
11.1.2 Budget Share Equations
144(1)
11.1.3 Portfolio Relationships
144(1)
11.1.4 Wealth Share Equations
145(2)
11.2 Entropy
147(1)
11.3 Numerical Illustration
148(1)
11.4 Markov Beliefs
149(1)
11.5 Heterogeneous Time Preference, Entropy, and Efficiency
150(4)
11.5.1 Modeling Heterogeneous Rates of Time Preference
151(1)
11.5.2 Market Portfolio
152(1)
11.5.3 Digression: Hyperbolic Discounting
153(1)
11.5.4 Long-Run Dynamics When Time Preference Is Heterogeneous
154(1)
11.6 Entropy and Market Efficiency
154(3)
11.7 Summary
157(2)
IV Heterogeneity in Risk Tolerance and Time Discounting 159(42)
12 CRRA and CARA Utility Functions
161(14)
12.1 Arrow-Pratt Measure
161(1)
12.2 Proportional Risk
162(1)
12.3 Constant Relative Risk Aversion
162(2)
12.3.1 Graphical Illustration
163(1)
12.3.2 Risk Premia
163(1)
12.4 Logarithmic Utility
164(1)
12.4.1 Risk Premium in a Discrete Gamble
164(1)
12.5 CRRA Demand Function
165(1)
12.6 Representative Investor
166(1)
12.7 Example
167(3)
12.7.1 Aggregation and Exponentiation
169(1)
12.8 CARA Utility
170(4)
12.8.1 CARA Demand Function
171(1)
12.8.2 Aggregate Demand and Equilibrium
172(2)
12.9 Summary
174(1)
13 Heterogeneous Risk Tolerance and Time Preference
175(10)
13.1 Survey Evidence
175(4)
13.1.1 Questions to Elicit Relative Risk Aversion
175(2)
13.1.2 Two Waves
177(1)
13.1.3 Status Quo Bias
178(1)
13.1.4 Risky Choice
179(1)
13.2 Extended Survey
179(3)
13.3 Time Preference
182(1)
13.4 Summary
183(2)
14 Representative Investors in a Heterogeneous CRRA Model
185(16)
14.1 Relationship to Representative Investor Literature
186(3)
14.1.1 Additional Literature
188(1)
14.2 Modeling Preliminaries
189(1)
14.3 Efficient Prices
190(1)
14.4 Representative Investor Characterization Theorem
191(4)
14.4.1 Discussion
194(1)
14.4.2 Nonuniqueness
195(1)
14.5 Comparison Example
195(3)
14.6 Pitfall: The Representative Investor Theorem Is False
198(2)
14.6.1 Argument Claiming that Theorem 14.1 Is False
198(1)
14.6.2 Identifying the Flaw
199(1)
14.7 Summary
200(1)
V Sentiment and Behavioral SDF 201(38)
15 Sentiment
203(18)
15.1 Intuition: Kahneman's Perspective
203(3)
15.1.1 Relationship to Theorem 14.1
204(2)
15.1.2 Defining Market Efficiency
206(1)
15.2 Sentiment
206(1)
15.2.1 Formal Definition
207(1)
15.3 Example Featuring Heterogeneous Risk Tolerance
207(2)
15.4 Example Featuring Log-Utility
209(9)
15.4.1 Representativeness: Errors in First Moments
209(3)
15.4.2 Overconfidence: Errors in Second Moments
212(3)
15.4.3 Link to Empirical Evidence
215(1)
15.4.4 Evidence of Clustering
216(2)
15.5 Sentiment as a Stochastic Process
218(1)
15.6 Summary
219(2)
16 Behavioral SDF and the Sentiment Premium
221(18)
16.1 The SDF
222(1)
16.2 Sentiment and the SDF
223(3)
16.2.1 Example
224(2)
16.3 Pitfalls
226(4)
16.3.1 Pitfall: The Behavioral Framework Admits a Traditional SDF
226(1)
16.3.2 Pitfall: Heterogeneity Need Not Imply Sentiment
227(1)
16.3.3 Pitfall: Heterogeneity in Risk Tolerance Is Sufficient to Explain Asset Pricing
228(2)
16.4 Sentiment and Expected Returns
230(4)
16.4.1 Interpretation and Discussion
232(1)
16.4.2 Example Illustrating Theorem 16.2
233(1)
16.5 Entropy and Long-Run Efficiency
234(2)
16.5.1 Formal Argument
235(1)
16.6 Learning: Bayesian and Non-Bayesian
236(1)
16.7 Summary
237(2)
VI Applications of Behavioral SDF 239(124)
17 Behavioral Betas and Mean-Variance Portfolios
241(14)
17.1 Mean-Variance Efficiency and Market Efficiency
241(1)
17.2 Characterizing Mean-variance Efficient Portfolios
242(2)
17.3 The Shape of Mean-Variance Returns
244(3)
17.4 The Market Portfolio
247(2)
17.5 Behavioral Beta: Decomposition Result
249(4)
17.5.1 Informal Discussion: Intuition
249(1)
17.5.2 Formal Argument
250(2)
17.5.3 Example
252(1)
17.6 Summary
253(2)
18 Cross-section of Return Expectations
255(24)
18.1 Literature Review
256(5)
18.1.1 Winner-Loser Effect
256(1)
18.1.2 Book-to-Market Equity and the Winner-Loser Effect
257(1)
18.1.3 January and Momentum
258(1)
18.1.4 General Momentum Studies
259(1)
18.1.5 Glamour and Value
260(1)
18.2 Factor Models and Risk
261(1)
18.3 Differentiating Fundamental Risk and Investor Error
262(5)
18.3.1 Psychology of Risk and Return
263(1)
18.3.2 Evidence About Judgments of Risk and Return
264(1)
18.3.3 Psychology Underlying a Negative Relationship Between Risk and Return
265(2)
18.4 Implications for the Broad Debate
267(1)
18.5 Analysts' Return Expectations
268(1)
18.6 How Consciously Aware Are Investors When Forming Judgments?
269(1)
18.7 How Reliable Is the Evidence on Expected Returns?
270(2)
18.8 Alternative Theories
272(5)
18.8.1 The Dynamics of Expectations: Supporting Data
275(2)
18.9 Summary
277(2)
19 Testing for a Sentiment Premium
279(10)
19.1 Diether-Malloy-Scherbina: Returns Are Negatively Related to Dispersion
280(2)
19.2 Ghysels-Juergens: Dispersion Factor
282(4)
19.2.1 Basic Approach
282(1)
19.2.2 Factor Structure
282(1)
19.2.3 General Properties of the Data
283(1)
19.2.4 Expected Returns
284(1)
19.2.5 Findings
284(1)
19.2.6 Volatility
285(1)
19.2.7 Direction of Mispricing
285(1)
19.2.8 Opposite Signs for Short and Long Horizons
286(1)
19.3 Estimating a Structural SDF-Based Model
286(2)
19.3.1 Proxy for hz,0
287(1)
19.3.2 Findings
287(1)
19.4 Summary
288(1)
20 A Behavioral Approach to the Term Structure of Interest Rates
289(12)
20.1 The Term Structure of Interest Rates
289(1)
20.2 Pitfall: The Bond Pricing Equation in Theorem 20.1 Is False
290(2)
20.2.1 Identifying the Flaw in the Analysis
292(1)
20.3 Volatility
292(4)
20.3.1 Heterogeneous Risk Tolerance
295(1)
20.4 Expectations Hypothesis
296(3)
20.4.1 Example
298(1)
20.5 Summary
299(2)
21 Behavioral Black-Scholes
301(20)
21.1 Call and Put Options
301(1)
21.2 Risk-Neutral Densities and Option Pricing
302(3)
21.2.1 Option Pricing Equation 1
302(2)
21.2.2 Option Pricing Equations 2 and 3
304(1)
21.3 Option Pricing Examples
305(6)
21.3.1 Discrete Time Example
305(4)
21.3.2 Continuous Time Example
309(2)
21.4 Smile Patterns
311(5)
21.4.1 Downward Sloping Smile Patterns in the IVF Function
314(2)
21.5 Heterogeneous Risk Tolerance
316(1)
21.6 Pitfall: Equation (21.12) Is False
317(1)
21.6.1 Locating the Flaw
318(1)
21.7 Pitfall: Beliefs Do Not Matter in Black-Scholes
318(1)
21.7.1 Locating the Flaw
319(1)
21.8 Summary
319(2)
22 Irrational Exuberance and Option Smiles
321(18)
22.1 Irrational Exuberance: Brief History
322(4)
22.1.1 Sentiment
324(2)
22.2 Risk-Neutral Densities and Index Option Prices
326(4)
22.2.1 Butterfly Position Technique
328(2)
22.3 Continuation, Reversal, and Option Prices
330(5)
22.4 Price Pressure: Was Arbitrage Fully Carried Out?
335(2)
22.5 Heterogeneous Beliefs
337(1)
22.6 Summary
337(2)
23 Empirical Evidence in Support of Behavioral SDF
339(24)
23.1 Bollen-Whaley: Price Pressure Drives Smiles
340(4)
23.1.1 Data
340(1)
23.1.2 Trading Patterns
341(1)
23.1.3 Buying Pressure and Smile Effects
342(1)
23.1.4 Price Pressure or Learning?
343(1)
23.1.5 Arbitrage Profits
343(1)
23.2 Han: Smile Effects, Sentiment, and Gambler's Fallacy
344(2)
23.2.1 Price Pressure
345(1)
23.2.2 Impact of a Market Drop: Gambler's Fallacy
345(1)
23.2.3 Impact of Sentiment
345(1)
23.2.4 Time-Varying Uncertainty
346(1)
23.3 David-Veronesi: Gambler's Fallacy and Negative Skewness
346(2)
23.4 Jackwerth: Estimating Market Risk Aversion
348(2)
23.4.1 Behavioral Risk Neutral Density
348(2)
23.5 Rosenberg-Engle: Signature of Sentiment in the SDF
350(2)
23.5.1 Two Approaches to Estimating the EPK
350(1)
23.5.2 Estimating Market Risk Aversion
351(1)
23.5.3 Empirical Results: Estimates of SDF
351(1)
23.5.4 Estimates of Risk Aversion
351(1)
23.6 Comparing the Behavioral SDF and Empirical SDF
352(7)
23.6.1 Empirical Evidence for Clustering: Mode in the Left Tail Reflecting Pessimism
353(2)
23.6.2 Investors and Predictions of Continuation
355(2)
23.6.3 Mode in the Left Tail and Crashophobia
357(1)
23.6.4 Time Variation in the SDF
358(1)
23.7 Heterogeneous Perspectives
359(3)
23.8 Summary
362(1)
VII Prospect Theory 363(84)
24 Prospect Theory: Introduction
365(18)
24.1 Experimental Evidence
366(8)
24.1.1 Common Ratio Effect
366(1)
24.1.2 Subcertainty and Expected Utility
367(1)
24.1.3 Allais Paradox and the Independence Axiom
368(2)
24.1.4 Isolation and Common Consequence Effect
370(1)
24.1.5 Isolation and the Independence Axiom
371(1)
24.1.6 Loss Aversion
372(1)
24.1.7 Ambiguity
372(2)
24.2 Theory
374(5)
24.2.1 The Weighting Function
374(2)
24.2.2 Value Function
376(1)
24.2.3 Interaction Between Value Function and Weighting Function
377(1)
24.2.4 Framing
378(1)
24.3 Subtle Aspects Associated with Risk Aversion
379(2)
24.3.1 Caveats
380(1)
24.4 Generalized Utility Theories
381(1)
24.5 Summary
382(1)
25 Behavioral Portfolios
383(18)
25.1 Theory
384(1)
25.1.1 Prospect Theory: Uncertainty Weights
384(1)
25.1.2 Utility Function
384(1)
25.1.3 Prospect Theory Functional
385(1)
25.2 Prospect Theory: Indifference Map
385(1)
25.3 Portfolio Choice: Single Mental Account
386(3)
25.3.1 Exposure to Loss: Single Mental Account
387(1)
25.3.2 Portfolio Payoff Return: Single Mental Account
388(1)
25.4 Multiple Mental Accounts: Example
389(3)
25.4.1 General Comments About Multiple Mental Accounts
391(1)
25.4.2 Prospect Theory and Mean-Variance Efficiency
392(1)
25.5 SP/A Theory
392(6)
25.5.1 SP/A Efficient Frontier
394(1)
25.5.2 Example
394(2)
25.5.3 Formal Analysis
396(2)
25.5.4 Additional Comments
398(1)
25.6 Real World Portfolios and Securities
398(2)
25.7 Summary
400(1)
26 Prospect Theory Equilibrium
401(18)
26.1 The Model
402(1)
26.2 Simple Example
403(4)
26.2.1 Neoclassical Case
403(1)
26.2.2 Prospect Theory Investors
403(4)
26.3 On the Boundary
407(1)
26.4 Equilibrium Pricing
408(2)
26.4.1 Equiprobable Loss States
410(1)
26.5 Portfolio Insurance
410(3)
26.5.1 Qualification: Probability Weighting
411(1)
26.5.2 Testable Prediction
412(1)
26.6 Risk and Return: Portfolio Insurance in a Mean-Variance Example
413(4)
26.7 Summary
417(2)
27 Pricing and Prospect Theory: Empirical Studies
419(10)
27.1 Combining Behavioral Preferences and Beliefs
419(1)
27.2 Disposition Effect: The Empirical Evidence
420(2)
27.3 Investor Beliefs
422(4)
27.3.1 Odean's Findings
422(1)
27.3.2 A Size Effect
423(1)
27.3.3 A Volume Effect
424(2)
27.4 Momentum and the Disposition Effect
426(2)
27.4.1 Theoretical Hypotheses
426(1)
27.4.2 Empirical Evidence
427(1)
27.5 Summary
428(1)
28 Reflections on the Equity Premium Puzzle
429(18)
28.1 Basis for Puzzles in Traditional Framework
429(4)
28.1.1 Brief Review
430(1)
28.1.2 Attaching Numbers to Equations
431(2)
28.2 Erroneous Beliefs
433(4)
28.2.1 Livingston Data
433(3)
28.2.2 The Market and the Economy: Upwardly Biased Covariance Estimate
436(1)
28.3 Alternative Rationality-Based Models
437(3)
28.3.1 Habit Formation
437(1)
28.3.2 Habit Formation SDF
438(1)
28.3.3 Habit Formation SDF Versus the Empirical SDF
439(1)
28.4 Behavioral Preferences and the Equity Premium
440(4)
28.4.1 Myopic Loss Aversion
440(2)
28.4.2 Transaction Utility
442(2)
28.5 Risks, Small and Large
444(1)
28.6 Summary
445(2)
VIII Closure 447(10)
29 Conclusion
449(8)
29.1 Recapitulating the Main Points
449(3)
29.2 Testable Predictions
452(1)
29.3 Future Directions
453(4)
References 457(16)
Index 473

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