l p : t effects of p u d apeople.stern.nyu.edu/svnieuwe/pdfs/phdpres2007/pres1_3.pdf · portfolio...
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![Page 1: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/1.jpg)
LEARNING ABOUT PREDICTABILITY: THE EFFECTS OFPARAMETER UNCERTAINTY ON DYNAMIC ASSET
ALLOCATION
Yihong Xia, Journal of Finance 2001
Roine Vestman, NYU, September 11 2007
![Page 2: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/2.jpg)
PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUTPREDICTABILITY
I There are evidence of return predictability and predictable variation in theequity premium in the finance literature (Campbell (1987), Campbell andShiller (1988,1989), among others)
I Consequently, people have investigated the effect of return predictabilityon portfolio choice (BSL: Brennan, Schwartz and Lagnado (1997), CV:Campbell and Viceira (1999), B: Barberis (2000)).
I This paper, Xia (2001), revises this effect by properly taking into accountthe fact that investors are not certain about the exact nature of returnpredictability, or even whether it exists.
I BSL (1997), CV (1999): Constant and known return predictabilityrelationship.
I B (2000): Unknown return predictability relationship
I This paper: Unknown return predictability relationship that the investortries to learn about over time (parameter uncertainty)
![Page 3: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/3.jpg)
PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUTPREDICTABILITY
I There are evidence of return predictability and predictable variation in theequity premium in the finance literature (Campbell (1987), Campbell andShiller (1988,1989), among others)
I Consequently, people have investigated the effect of return predictabilityon portfolio choice (BSL: Brennan, Schwartz and Lagnado (1997), CV:Campbell and Viceira (1999), B: Barberis (2000)).
I This paper, Xia (2001), revises this effect by properly taking into accountthe fact that investors are not certain about the exact nature of returnpredictability, or even whether it exists.
I BSL (1997), CV (1999): Constant and known return predictabilityrelationship.
I B (2000): Unknown return predictability relationship
I This paper: Unknown return predictability relationship that the investortries to learn about over time (parameter uncertainty)
![Page 4: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/4.jpg)
PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUTPREDICTABILITY
I There are evidence of return predictability and predictable variation in theequity premium in the finance literature (Campbell (1987), Campbell andShiller (1988,1989), among others)
I Consequently, people have investigated the effect of return predictabilityon portfolio choice (BSL: Brennan, Schwartz and Lagnado (1997), CV:Campbell and Viceira (1999), B: Barberis (2000)).
I This paper, Xia (2001), revises this effect by properly taking into accountthe fact that investors are not certain about the exact nature of returnpredictability, or even whether it exists.
I BSL (1997), CV (1999): Constant and known return predictabilityrelationship.
I B (2000): Unknown return predictability relationship
I This paper: Unknown return predictability relationship that the investortries to learn about over time (parameter uncertainty)
![Page 5: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/5.jpg)
PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUTPREDICTABILITY
I There are evidence of return predictability and predictable variation in theequity premium in the finance literature (Campbell (1987), Campbell andShiller (1988,1989), among others)
I Consequently, people have investigated the effect of return predictabilityon portfolio choice (BSL: Brennan, Schwartz and Lagnado (1997), CV:Campbell and Viceira (1999), B: Barberis (2000)).
I This paper, Xia (2001), revises this effect by properly taking into accountthe fact that investors are not certain about the exact nature of returnpredictability, or even whether it exists.
I BSL (1997), CV (1999): Constant and known return predictabilityrelationship.
I B (2000): Unknown return predictability relationship
I This paper: Unknown return predictability relationship that the investortries to learn about over time (parameter uncertainty)
![Page 6: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/6.jpg)
PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUTPREDICTABILITY
I There are evidence of return predictability and predictable variation in theequity premium in the finance literature (Campbell (1987), Campbell andShiller (1988,1989), among others)
I Consequently, people have investigated the effect of return predictabilityon portfolio choice (BSL: Brennan, Schwartz and Lagnado (1997), CV:Campbell and Viceira (1999), B: Barberis (2000)).
I This paper, Xia (2001), revises this effect by properly taking into accountthe fact that investors are not certain about the exact nature of returnpredictability, or even whether it exists.
I BSL (1997), CV (1999): Constant and known return predictabilityrelationship.
I B (2000): Unknown return predictability relationship
I This paper: Unknown return predictability relationship that the investortries to learn about over time (parameter uncertainty)
![Page 7: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/7.jpg)
PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUTPREDICTABILITY
I There are evidence of return predictability and predictable variation in theequity premium in the finance literature (Campbell (1987), Campbell andShiller (1988,1989), among others)
I Consequently, people have investigated the effect of return predictabilityon portfolio choice (BSL: Brennan, Schwartz and Lagnado (1997), CV:Campbell and Viceira (1999), B: Barberis (2000)).
I This paper, Xia (2001), revises this effect by properly taking into accountthe fact that investors are not certain about the exact nature of returnpredictability, or even whether it exists.
I BSL (1997), CV (1999): Constant and known return predictabilityrelationship.
I B (2000): Unknown return predictability relationship
I This paper: Unknown return predictability relationship that the investortries to learn about over time (parameter uncertainty)
![Page 8: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/8.jpg)
RESEARCH QUESTIONS
I Process for the excess return
µ(t) = α + β′S(t)where (α, β) are unknown to the investor
I What is the optimal allocation in the presence of parameter uncertaintyand learning?
I What is the role of the investment horizon in the presence of parameteruncertainty and learning?
I What is effect on market timing in the presence of parameter uncertaintyand learning?
![Page 9: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/9.jpg)
RESEARCH QUESTIONS
I Process for the excess return
µ(t) = α + β′S(t)where (α, β) are unknown to the investor
I What is the optimal allocation in the presence of parameter uncertaintyand learning?
I What is the role of the investment horizon in the presence of parameteruncertainty and learning?
I What is effect on market timing in the presence of parameter uncertaintyand learning?
![Page 10: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/10.jpg)
RESEARCH QUESTIONS
I Process for the excess return
µ(t) = α + β′S(t)where (α, β) are unknown to the investor
I What is the optimal allocation in the presence of parameter uncertaintyand learning?
I What is the role of the investment horizon in the presence of parameteruncertainty and learning?
I What is effect on market timing in the presence of parameter uncertaintyand learning?
![Page 11: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/11.jpg)
RESEARCH QUESTIONS
I Process for the excess return
µ(t) = α + β′S(t)where (α, β) are unknown to the investor
I What is the optimal allocation in the presence of parameter uncertaintyand learning?
I What is the role of the investment horizon in the presence of parameteruncertainty and learning?
I What is effect on market timing in the presence of parameter uncertaintyand learning?
![Page 12: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/12.jpg)
MODEL (1)
I Price of the risk-free asset
dB = rBdt
I Stock price with dividend reinvested ([dz ]k×1)dPP = µ(t)dt + σPdz
I DGP of expected return (dividend reinvested)
µ(t) = α + β′S(t)where (α, β) are unknown to the investor
I Generally, β may not be a constant
dβ = (α0(P,S , t) + α1(P,S , t)β)dt + η(P,S , t)dz
I The predictive variables S (dt/pt) follow
dS = (A0(P,S , t) + A1(P,S , t)β)dt + σS (P,S , t)dz
![Page 13: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/13.jpg)
MODEL (1)
I Price of the risk-free asset
dB = rBdt
I Stock price with dividend reinvested ([dz ]k×1)dPP = µ(t)dt + σPdz
I DGP of expected return (dividend reinvested)
µ(t) = α + β′S(t)where (α, β) are unknown to the investor
I Generally, β may not be a constant
dβ = (α0(P,S , t) + α1(P,S , t)β)dt + η(P,S , t)dz
I The predictive variables S (dt/pt) follow
dS = (A0(P,S , t) + A1(P,S , t)β)dt + σS (P,S , t)dz
![Page 14: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/14.jpg)
MODEL (1)
I Price of the risk-free asset
dB = rBdt
I Stock price with dividend reinvested ([dz ]k×1)dPP = µ(t)dt + σPdz
I DGP of expected return (dividend reinvested)
µ(t) = α + β′S(t)where (α, β) are unknown to the investor
I Generally, β may not be a constant
dβ = (α0(P,S , t) + α1(P,S , t)β)dt + η(P,S , t)dz
I The predictive variables S (dt/pt) follow
dS = (A0(P,S , t) + A1(P,S , t)β)dt + σS (P,S , t)dz
![Page 15: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/15.jpg)
MODEL (1)
I Price of the risk-free asset
dB = rBdt
I Stock price with dividend reinvested ([dz ]k×1)dPP = µ(t)dt + σPdz
I DGP of expected return (dividend reinvested)
µ(t) = α + β′S(t)where (α, β) are unknown to the investor
I Generally, β may not be a constant
dβ = (α0(P,S , t) + α1(P,S , t)β)dt + η(P,S , t)dz
I The predictive variables S (dt/pt) follow
dS = (A0(P,S , t) + A1(P,S , t)β)dt + σS (P,S , t)dz
![Page 16: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/16.jpg)
MODEL (1)
I Price of the risk-free asset
dB = rBdt
I Stock price with dividend reinvested ([dz ]k×1)dPP = µ(t)dt + σPdz
I DGP of expected return (dividend reinvested)
µ(t) = α + β′S(t)where (α, β) are unknown to the investor
I Generally, β may not be a constant
dβ = (α0(P,S , t) + α1(P,S , t)β)dt + η(P,S , t)dz
I The predictive variables S (dt/pt) follow
dS = (A0(P,S , t) + A1(P,S , t)β)dt + σS (P,S , t)dz
![Page 17: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/17.jpg)
MODEL (1)
I Price of the risk-free asset
dB = rBdt
I Stock price with dividend reinvested ([dz ]k×1)dPP = µ(t)dt + σPdz (Measurement 1)
I DGP of expected return (dividend reinvested)
µ(t) = α + β′S(t)where (α, β) are unknown to the investor
I Generally, β may not be a constant
dβ = (α0(P,S , t) + α1(P,S , t)β)dt + η(P,S , t)dz
I The predictive variables S (d/pt) follow
dS = (A0(P,S , t) + A1(P,S , t)β)dt + σS (P,S , t)dz (Measurement 2)
![Page 18: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/18.jpg)
MODEL (2)
I The investor’s problem
max{x(t),c(t)}
E{∫ T
0 U(c(t), t)dt + B(W (T ),T )|F I0
}s.t. dW = (rW + xW (µ + β(S − S)− r)− c)dt + xW σPdz
U(c(t), t) = e−ρt[c1−γt /(1− γ)
]
I Separation of the investor problem
1. Inference problem for β
I Priors β ∼ N(b0, ν0)I I (t) = (P(t),S(t))I E
[β|F I
t
]∼ N(bt , νt )
2. Optimization conditional on (bt , νt ) (two additional state variables)
![Page 19: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/19.jpg)
MODEL (2)
I The investor’s problem
max{x(t),c(t)}
E{∫ T
0 U(c(t), t)dt + B(W (T ),T )|F I0
}s.t. dW = (rW + xW (µ + β(S − S)− r)− c)dt + xW σPdz
U(c(t), t) = e−ρt[c1−γt /(1− γ)
]I Separation of the investor problem
1. Inference problem for β
I Priors β ∼ N(b0, ν0)I I (t) = (P(t),S(t))I E
[β|F I
t
]∼ N(bt , νt )
2. Optimization conditional on (bt , νt ) (two additional state variables)
![Page 20: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/20.jpg)
MODEL (3)
I More specifically, assume s is univariate and follows an O-U process
ds = κ(s − s)dt + σsdzs
I This gives the price processdPP = (µ + β(s − s))dt + σPdzP
I Let the true process for β follow an O-U process
dβ = λ(β− β)dt + σβdzβ
I Conditional on the investor’s filtrationdPP = (µ + β(s − s))dt + σPdzP
dW = (rW + xW (µ + b (s − s)− r)− c)dt + xW σPdzP (BC)
I We will have a KF state space representation for (b, ν), with long-runvariance of the posterior equal to ν
![Page 21: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/21.jpg)
MODEL (3)
I More specifically, assume s is univariate and follows an O-U process
ds = κ(s − s)dt + σsdzs
I This gives the price processdPP = (µ + β(s − s))dt + σPdzP
I Let the true process for β follow an O-U process
dβ = λ(β− β)dt + σβdzβ
I Conditional on the investor’s filtrationdPP = (µ + β(s − s))dt + σPdzP
dW = (rW + xW (µ + b (s − s)− r)− c)dt + xW σPdzP (BC)
I We will have a KF state space representation for (b, ν), with long-runvariance of the posterior equal to ν
![Page 22: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/22.jpg)
MODEL (3)
I More specifically, assume s is univariate and follows an O-U process
ds = κ(s − s)dt + σsdzs
I This gives the price processdPP = (µ + β(s − s))dt + σPdzP
I Let the true process for β follow an O-U process
dβ = λ(β− β)dt + σβdzβ
I Conditional on the investor’s filtrationdPP = (µ + β(s − s))dt + σPdzP
dW = (rW + xW (µ + b (s − s)− r)− c)dt + xW σPdzP (BC)
I We will have a KF state space representation for (b, ν), with long-runvariance of the posterior equal to ν
![Page 23: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/23.jpg)
MODEL (3)
I More specifically, assume s is univariate and follows an O-U process
ds = κ(s − s)dt + σsdzs
I This gives the price processdPP = (µ + β(s − s))dt + σPdzP
I Let the true process for β follow an O-U process
dβ = λ(β− β)dt + σβdzβ
I Conditional on the investor’s filtrationdPP = (µ + β(s − s))dt + σPdzP
dW = (rW + xW (µ + b (s − s)− r)− c)dt + xW σPdzP (BC)
I We will have a KF state space representation for (b, ν), with long-runvariance of the posterior equal to ν
![Page 24: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/24.jpg)
MODEL (3)
I More specifically, assume s is univariate and follows an O-U process
ds = κ(s − s)dt + σsdzs
I This gives the price processdPP = (µ + β(s − s))dt + σPdzP
I Let the true process for β follow an O-U process
dβ = λ(β− β)dt + σβdzβ
I Conditional on the investor’s filtrationdPP = (µ + β(s − s))dt + σPdzP
dW = (rW + xW (µ + b (s − s)− r)− c)dt + xW σPdzP (BC)
I We will have a KF state space representation for (b, ν), with long-runvariance of the posterior equal to ν
![Page 25: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/25.jpg)
MODEL (4)SOME INTUITION
I The investor’s valuefunction
J(W , b, ν, s, t) = max{(c(τ):t≤τ≤T}
E
{∫ Tt e−ρt c1−γ
1−γ dτ + e−ρT W 1−γT
1−γ |F It
}s.t. (BC) and KF state space repr.
I The investor is trying to learn about a regression coefficient between stockreturn and s − s
I When s ≈ s the investor does not learn much about β
I If β is stochastic then the steady state value for ν, ν, has the followingproperties
I ν > 0
I ν depends on the path that s takes
I If β is a constant (λ = 0, σβ = 0) then
I The learning path still depends on s
I The investor eventually learns about the true value of β, that is ν = 0
![Page 26: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/26.jpg)
MODEL (4)SOME INTUITION
I The investor’s valuefunction
J(W , b, ν, s, t) = max{(c(τ):t≤τ≤T}
E
{∫ Tt e−ρt c1−γ
1−γ dτ + e−ρT W 1−γT
1−γ |F It
}s.t. (BC) and KF state space repr.
I The investor is trying to learn about a regression coefficient between stockreturn and s − s
I When s ≈ s the investor does not learn much about β
I If β is stochastic then the steady state value for ν, ν, has the followingproperties
I ν > 0
I ν depends on the path that s takes
I If β is a constant (λ = 0, σβ = 0) then
I The learning path still depends on s
I The investor eventually learns about the true value of β, that is ν = 0
![Page 27: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/27.jpg)
MODEL (4)SOME INTUITION
I The investor’s valuefunction
J(W , b, ν, s, t) = max{(c(τ):t≤τ≤T}
E
{∫ Tt e−ρt c1−γ
1−γ dτ + e−ρT W 1−γT
1−γ |F It
}s.t. (BC) and KF state space repr.
I The investor is trying to learn about a regression coefficient between stockreturn and s − s
I When s ≈ s the investor does not learn much about β
I If β is stochastic then the steady state value for ν, ν, has the followingproperties
I ν > 0
I ν depends on the path that s takes
I If β is a constant (λ = 0, σβ = 0) then
I The learning path still depends on s
I The investor eventually learns about the true value of β, that is ν = 0
![Page 28: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/28.jpg)
MODEL (4)SOME INTUITION
I The investor’s valuefunction
J(W , b, ν, s, t) = max{(c(τ):t≤τ≤T}
E
{∫ Tt e−ρt c1−γ
1−γ dτ + e−ρT W 1−γT
1−γ |F It
}s.t. (BC) and KF state space repr.
I The investor is trying to learn about a regression coefficient between stockreturn and s − s
I When s ≈ s the investor does not learn much about β
I If β is stochastic then the steady state value for ν, ν, has the followingproperties
I ν > 0
I ν depends on the path that s takes
I If β is a constant (λ = 0, σβ = 0) then
I The learning path still depends on s
I The investor eventually learns about the true value of β, that is ν = 0
![Page 29: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/29.jpg)
MODEL (4)SOME INTUITION
I The investor’s valuefunction
J(W , b, ν, s, t) = max{(c(τ):t≤τ≤T}
E
{∫ Tt e−ρt c1−γ
1−γ dτ + e−ρT W 1−γT
1−γ |F It
}s.t. (BC) and KF state space repr.
I The investor is trying to learn about a regression coefficient between stockreturn and s − s
I When s ≈ s the investor does not learn much about β
I If β is stochastic then the steady state value for ν, ν, has the followingproperties
I ν > 0
I ν depends on the path that s takes
I If β is a constant (λ = 0, σβ = 0) then
I The learning path still depends on s
I The investor eventually learns about the true value of β, that is ν = 0
![Page 30: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/30.jpg)
OPTIMAL PORTFOLIO ALLOCATION
I Under isoelastic utility
J(W , b, ν, s, t) = e−ρt W 1−γ
1−γ φ(b, ν, s, t)
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
+φb
γσ2Pφ
ν(s − s)︸ ︷︷ ︸parameter uncertainty
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
+φb
γσ2Pφ
ν(s − s)︸ ︷︷ ︸parameter uncertainty
+φb
γσ2Pφ
σPσbρβP︸ ︷︷ ︸β stochastic
where
ρsPdt = E (dzPdzs )
ρβPdt = E(dzPdzβ
)
![Page 31: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/31.jpg)
OPTIMAL PORTFOLIO ALLOCATION
I Under isoelastic utility
J(W , b, ν, s, t) = e−ρt W 1−γ
1−γ φ(b, ν, s, t)
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
+φb
γσ2Pφ
ν(s − s)︸ ︷︷ ︸parameter uncertainty
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
+φb
γσ2Pφ
ν(s − s)︸ ︷︷ ︸parameter uncertainty
+φb
γσ2Pφ
σPσbρβP︸ ︷︷ ︸β stochastic
where
ρsPdt = E (dzPdzs )
ρβPdt = E(dzPdzβ
)
![Page 32: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/32.jpg)
OPTIMAL PORTFOLIO ALLOCATION
I Under isoelastic utility
J(W , b, ν, s, t) = e−ρt W 1−γ
1−γ φ(b, ν, s, t)
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
+φb
γσ2Pφ
ν(s − s)︸ ︷︷ ︸parameter uncertainty
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
+φb
γσ2Pφ
ν(s − s)︸ ︷︷ ︸parameter uncertainty
+φb
γσ2Pφ
σPσbρβP︸ ︷︷ ︸β stochastic
where
ρsPdt = E (dzPdzs )
ρβPdt = E(dzPdzβ
)
![Page 33: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/33.jpg)
OPTIMAL PORTFOLIO ALLOCATION
I Under isoelastic utility
J(W , b, ν, s, t) = e−ρt W 1−γ
1−γ φ(b, ν, s, t)
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
+φb
γσ2Pφ
ν(s − s)︸ ︷︷ ︸parameter uncertainty
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
+φb
γσ2Pφ
ν(s − s)︸ ︷︷ ︸parameter uncertainty
+φb
γσ2Pφ
σPσbρβP︸ ︷︷ ︸β stochastic
where
ρsPdt = E (dzPdzs )
ρβPdt = E(dzPdzβ
)
![Page 34: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/34.jpg)
OPTIMAL PORTFOLIO ALLOCATION
I Under isoelastic utility
J(W , b, ν, s, t) = e−ρt W 1−γ
1−γ φ(b, ν, s, t)
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
+φb
γσ2Pφ
ν(s − s)︸ ︷︷ ︸parameter uncertainty
I The myopic term plus three hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
+φb
γσ2Pφ
ν(s − s)︸ ︷︷ ︸parameter uncertainty
+φb
γσ2Pφ
σPσbρβP︸ ︷︷ ︸β stochastic
where
ρsPdt = E (dzPdzs )
ρβPdt = E(dzPdzβ
)
![Page 35: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/35.jpg)
OPTIMAL PORTFOLIO ALLOCATIONFOR MOST OF THE PAPER
I Under isoelastic utility
J(W , b, ν, s, t) = e−ρt W 1−γ
1−γ φ(b, ν, s, t)
I The myopic term plus two hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
+φb
γσ2Pφ
ν(s − s)︸ ︷︷ ︸parameter uncertainty
I Direct effect of learning: parameter uncertainty
I Indirect effect of learning: φ depends upon a different set of state variablesat the presence of parameter uncertainty
I ∂ ln φ(b,s,ν,t)∂s
![Page 36: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/36.jpg)
OPTIMAL PORTFOLIO ALLOCATIONFOR MOST OF THE PAPER
I Under isoelastic utility
J(W , b, ν, s, t) = e−ρt W 1−γ
1−γ φ(b, ν, s, t)
I The myopic term plus two hedging terms
x∗ =µ + b(s − s)− r
γσ2P︸ ︷︷ ︸
myopic term
+φs
γσ2Pφ
σPσsρsP︸ ︷︷ ︸predictability
+φb
γσ2Pφ
ν(s − s)︸ ︷︷ ︸parameter uncertainty
I Direct effect of learning: parameter uncertainty
I Indirect effect of learning: φ depends upon a different set of state variablesat the presence of parameter uncertainty
I ∂ ln φ(b,s,ν,t)∂s
![Page 37: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/37.jpg)
CALIBRATION
![Page 38: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/38.jpg)
HORIZON EFFECT AS A FUNCTION OF STATE
![Page 39: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/39.jpg)
HEDGING RELATED TO LEARNINGINTUITION
I Hedging component for parameter uncertainty:φb
γσ2P φ
ν(s − s)
I Positive if s < s
I Negative if s > s
I Strong horizon effect: zero at one month, 25 percent at 20 years(s = d
p = 2%)
I Suppose b0 > 0 and the investor observes s > s, then an expectedly highstock return means good news. The estimate b is revised upwards which isgood news. Positive correlation between good news and current stockreturn. As a hedge, the investor wants to sell something positivelycorrelated with news. Negative hedge demand.
I Converse for s < s
![Page 40: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/40.jpg)
HEDGING RELATED TO LEARNINGINTUITION
I Hedging component for parameter uncertainty:φb
γσ2P φ
ν(s − s)
I Positive if s < s
I Negative if s > s
I Strong horizon effect: zero at one month, 25 percent at 20 years(s = d
p = 2%)
I Suppose b0 > 0 and the investor observes s > s, then an expectedly highstock return means good news. The estimate b is revised upwards which isgood news. Positive correlation between good news and current stockreturn. As a hedge, the investor wants to sell something positivelycorrelated with news. Negative hedge demand.
I Converse for s < s
![Page 41: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/41.jpg)
HEDGING RELATED TO LEARNINGINTUITION
I Hedging component for parameter uncertainty:φb
γσ2P φ
ν(s − s)
I Positive if s < s
I Negative if s > s
I Strong horizon effect: zero at one month, 25 percent at 20 years(s = d
p = 2%)
I Suppose b0 > 0 and the investor observes s > s, then an expectedly highstock return means good news. The estimate b is revised upwards which isgood news. Positive correlation between good news and current stockreturn. As a hedge, the investor wants to sell something positivelycorrelated with news. Negative hedge demand.
I Converse for s < s
![Page 42: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/42.jpg)
COMPARISON OF THREE INVESTMENT STRATEGIES
I KS: Myopic [Kandel and Stambaugh (1996)]
I BSL: Dynamic, but ignoring parameter uncertainty (ν0 = 0) [Brennan,Schwartz, Lagnado (1997)]
I O: Optimal strategy [this paper]
I Prior b0 = 0 ⇒ iid, unless the strategy is O
![Page 43: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/43.jpg)
WITH A REALISTIC PRIOR THE ALLOCATION DEPENDS LESS ON S
![Page 44: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/44.jpg)
LESS AGGRESSIVE MARKET TIMING (1)ALLOCATION CONDITIONAL ON D/P
![Page 45: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/45.jpg)
LESS AGGRESSIVE MARKET TIMING (2)ALLOCATION OVER TIME
![Page 46: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/46.jpg)
WELFARE COMPARISON
![Page 47: L P : T EFFECTS OF P U D Apeople.stern.nyu.edu/svnieuwe/pdfs/PhDPres2007/pres1_3.pdf · PORTFOLIO CHOICE IN THE PRESENCE OF DYNAMIC LEARNING ABOUT PREDICTABILITY I There are evidence](https://reader036.vdocument.in/reader036/viewer/2022080721/5f7b3d767281d625d06deeb5/html5/thumbnails/47.jpg)
CONCLUDING REMARKS
I The intertemporal hedging component associated with parameteruncertainty is of the same magnitude as the one associated withpredictability
I The intertemporal hedging component associated with parameteruncertainty is particularly relevant at long horizons
I The optimal market timing is far less aggressive in the presence ofparameter uncertainty