country portfolio dynamics - taurazin/country portfolio dynamicsslides.pdf · 2008-05-11 ·...
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![Page 1: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/1.jpg)
Country Portfolio DynamicsDevereux and Sutherland
Presented by Judit Temesvary
April 2 2008
() Country Portfolio Dynamics April 2 2008 1 / 41
![Page 2: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/2.jpg)
Outline of Presentation
1 Introduction
2 General overview of methodology
1 Solution method for the steady state portfolio2 Solution method for time variation in equilibrium portfolio
3 Application
1 Steady state portfolio2 Time variation in equilibrium portfolio
4 Conclusion
() Country Portfolio Dynamics April 2 2008 2 / 41
![Page 3: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/3.jpg)
Outline of Presentation
1 Introduction2 General overview of methodology
1 Solution method for the steady state portfolio2 Solution method for time variation in equilibrium portfolio
3 Application
1 Steady state portfolio2 Time variation in equilibrium portfolio
4 Conclusion
() Country Portfolio Dynamics April 2 2008 2 / 41
![Page 4: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/4.jpg)
Outline of Presentation
1 Introduction2 General overview of methodology
1 Solution method for the steady state portfolio
2 Solution method for time variation in equilibrium portfolio
3 Application
1 Steady state portfolio2 Time variation in equilibrium portfolio
4 Conclusion
() Country Portfolio Dynamics April 2 2008 2 / 41
![Page 5: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/5.jpg)
Outline of Presentation
1 Introduction2 General overview of methodology
1 Solution method for the steady state portfolio2 Solution method for time variation in equilibrium portfolio
3 Application
1 Steady state portfolio2 Time variation in equilibrium portfolio
4 Conclusion
() Country Portfolio Dynamics April 2 2008 2 / 41
![Page 6: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/6.jpg)
Outline of Presentation
1 Introduction2 General overview of methodology
1 Solution method for the steady state portfolio2 Solution method for time variation in equilibrium portfolio
3 Application
1 Steady state portfolio2 Time variation in equilibrium portfolio
4 Conclusion
() Country Portfolio Dynamics April 2 2008 2 / 41
![Page 7: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/7.jpg)
Outline of Presentation
1 Introduction2 General overview of methodology
1 Solution method for the steady state portfolio2 Solution method for time variation in equilibrium portfolio
3 Application
1 Steady state portfolio
2 Time variation in equilibrium portfolio
4 Conclusion
() Country Portfolio Dynamics April 2 2008 2 / 41
![Page 8: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/8.jpg)
Outline of Presentation
1 Introduction2 General overview of methodology
1 Solution method for the steady state portfolio2 Solution method for time variation in equilibrium portfolio
3 Application
1 Steady state portfolio2 Time variation in equilibrium portfolio
4 Conclusion
() Country Portfolio Dynamics April 2 2008 2 / 41
![Page 9: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/9.jpg)
Outline of Presentation
1 Introduction2 General overview of methodology
1 Solution method for the steady state portfolio2 Solution method for time variation in equilibrium portfolio
3 Application
1 Steady state portfolio2 Time variation in equilibrium portfolio
4 Conclusion
() Country Portfolio Dynamics April 2 2008 2 / 41
![Page 10: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/10.jpg)
Introduction
Current paper builds on Devereux and Sutherland (2006): "Solvingfor Country Portfolios in Open Economy Macro Models"
Background paper shows how to derive equilibrium portfolios for openeconomy dynamic general equilibrium models
As an extension, this paper shows how to derive the dynamic behaviorof portfolios around equilibrium
Method is easy to implement and gives analytical solutions for the�rst-order behavior of portfolios around steady state
In most cases, method generates analytical results
In more complex cases, it can be used to generate numerical results
Useful in studying the response of portfolio allocations to businesscycles
() Country Portfolio Dynamics April 2 2008 3 / 41
![Page 11: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/11.jpg)
Introduction
Current paper builds on Devereux and Sutherland (2006): "Solvingfor Country Portfolios in Open Economy Macro Models"
Background paper shows how to derive equilibrium portfolios for openeconomy dynamic general equilibrium models
As an extension, this paper shows how to derive the dynamic behaviorof portfolios around equilibrium
Method is easy to implement and gives analytical solutions for the�rst-order behavior of portfolios around steady state
In most cases, method generates analytical results
In more complex cases, it can be used to generate numerical results
Useful in studying the response of portfolio allocations to businesscycles
() Country Portfolio Dynamics April 2 2008 3 / 41
![Page 12: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/12.jpg)
Introduction
Current paper builds on Devereux and Sutherland (2006): "Solvingfor Country Portfolios in Open Economy Macro Models"
Background paper shows how to derive equilibrium portfolios for openeconomy dynamic general equilibrium models
As an extension, this paper shows how to derive the dynamic behaviorof portfolios around equilibrium
Method is easy to implement and gives analytical solutions for the�rst-order behavior of portfolios around steady state
In most cases, method generates analytical results
In more complex cases, it can be used to generate numerical results
Useful in studying the response of portfolio allocations to businesscycles
() Country Portfolio Dynamics April 2 2008 3 / 41
![Page 13: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/13.jpg)
Introduction
Current paper builds on Devereux and Sutherland (2006): "Solvingfor Country Portfolios in Open Economy Macro Models"
Background paper shows how to derive equilibrium portfolios for openeconomy dynamic general equilibrium models
As an extension, this paper shows how to derive the dynamic behaviorof portfolios around equilibrium
Method is easy to implement and gives analytical solutions for the�rst-order behavior of portfolios around steady state
In most cases, method generates analytical results
In more complex cases, it can be used to generate numerical results
Useful in studying the response of portfolio allocations to businesscycles
() Country Portfolio Dynamics April 2 2008 3 / 41
![Page 14: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/14.jpg)
Introduction
Current paper builds on Devereux and Sutherland (2006): "Solvingfor Country Portfolios in Open Economy Macro Models"
Background paper shows how to derive equilibrium portfolios for openeconomy dynamic general equilibrium models
As an extension, this paper shows how to derive the dynamic behaviorof portfolios around equilibrium
Method is easy to implement and gives analytical solutions for the�rst-order behavior of portfolios around steady state
In most cases, method generates analytical results
In more complex cases, it can be used to generate numerical results
Useful in studying the response of portfolio allocations to businesscycles
() Country Portfolio Dynamics April 2 2008 3 / 41
![Page 15: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/15.jpg)
Introduction
Current paper builds on Devereux and Sutherland (2006): "Solvingfor Country Portfolios in Open Economy Macro Models"
Background paper shows how to derive equilibrium portfolios for openeconomy dynamic general equilibrium models
As an extension, this paper shows how to derive the dynamic behaviorof portfolios around equilibrium
Method is easy to implement and gives analytical solutions for the�rst-order behavior of portfolios around steady state
In most cases, method generates analytical results
In more complex cases, it can be used to generate numerical results
Useful in studying the response of portfolio allocations to businesscycles
() Country Portfolio Dynamics April 2 2008 3 / 41
![Page 16: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/16.jpg)
Introduction
Current paper builds on Devereux and Sutherland (2006): "Solvingfor Country Portfolios in Open Economy Macro Models"
Background paper shows how to derive equilibrium portfolios for openeconomy dynamic general equilibrium models
As an extension, this paper shows how to derive the dynamic behaviorof portfolios around equilibrium
Method is easy to implement and gives analytical solutions for the�rst-order behavior of portfolios around steady state
In most cases, method generates analytical results
In more complex cases, it can be used to generate numerical results
Useful in studying the response of portfolio allocations to businesscycles
() Country Portfolio Dynamics April 2 2008 3 / 41
![Page 17: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/17.jpg)
Introduction continued
Paper presents approximation method for computing
Equilibrium �nancial portfolios in stochastic open economy macromodelsTime variation in these portfolios around equilibrium
Provides analytical solutions for optimal gross portfolio positions inany types of assetsContribution: provides a model to analyze incomplete markets withmultiple assetsComplication: impossible to use �rst order approximation methods inincomplete market models for two reasons:
Optimal portfolio allocation is indeterminate in �rst orderapproximationOptimal portfolio allocation is indeterminate in non-stochastic steadystate
Solution to �rst problem: use second-order approximationsSolution to second problem: portfolio equilibrium endogenouslydetermined so as to satisfy second order approximations of FOCs
() Country Portfolio Dynamics April 2 2008 4 / 41
![Page 18: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/18.jpg)
Introduction continued
Paper presents approximation method for computingEquilibrium �nancial portfolios in stochastic open economy macromodels
Time variation in these portfolios around equilibrium
Provides analytical solutions for optimal gross portfolio positions inany types of assetsContribution: provides a model to analyze incomplete markets withmultiple assetsComplication: impossible to use �rst order approximation methods inincomplete market models for two reasons:
Optimal portfolio allocation is indeterminate in �rst orderapproximationOptimal portfolio allocation is indeterminate in non-stochastic steadystate
Solution to �rst problem: use second-order approximationsSolution to second problem: portfolio equilibrium endogenouslydetermined so as to satisfy second order approximations of FOCs
() Country Portfolio Dynamics April 2 2008 4 / 41
![Page 19: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/19.jpg)
Introduction continued
Paper presents approximation method for computingEquilibrium �nancial portfolios in stochastic open economy macromodelsTime variation in these portfolios around equilibrium
Provides analytical solutions for optimal gross portfolio positions inany types of assetsContribution: provides a model to analyze incomplete markets withmultiple assetsComplication: impossible to use �rst order approximation methods inincomplete market models for two reasons:
Optimal portfolio allocation is indeterminate in �rst orderapproximationOptimal portfolio allocation is indeterminate in non-stochastic steadystate
Solution to �rst problem: use second-order approximationsSolution to second problem: portfolio equilibrium endogenouslydetermined so as to satisfy second order approximations of FOCs
() Country Portfolio Dynamics April 2 2008 4 / 41
![Page 20: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/20.jpg)
Introduction continued
Paper presents approximation method for computingEquilibrium �nancial portfolios in stochastic open economy macromodelsTime variation in these portfolios around equilibrium
Provides analytical solutions for optimal gross portfolio positions inany types of assets
Contribution: provides a model to analyze incomplete markets withmultiple assetsComplication: impossible to use �rst order approximation methods inincomplete market models for two reasons:
Optimal portfolio allocation is indeterminate in �rst orderapproximationOptimal portfolio allocation is indeterminate in non-stochastic steadystate
Solution to �rst problem: use second-order approximationsSolution to second problem: portfolio equilibrium endogenouslydetermined so as to satisfy second order approximations of FOCs
() Country Portfolio Dynamics April 2 2008 4 / 41
![Page 21: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/21.jpg)
Introduction continued
Paper presents approximation method for computingEquilibrium �nancial portfolios in stochastic open economy macromodelsTime variation in these portfolios around equilibrium
Provides analytical solutions for optimal gross portfolio positions inany types of assetsContribution: provides a model to analyze incomplete markets withmultiple assets
Complication: impossible to use �rst order approximation methods inincomplete market models for two reasons:
Optimal portfolio allocation is indeterminate in �rst orderapproximationOptimal portfolio allocation is indeterminate in non-stochastic steadystate
Solution to �rst problem: use second-order approximationsSolution to second problem: portfolio equilibrium endogenouslydetermined so as to satisfy second order approximations of FOCs
() Country Portfolio Dynamics April 2 2008 4 / 41
![Page 22: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/22.jpg)
Introduction continued
Paper presents approximation method for computingEquilibrium �nancial portfolios in stochastic open economy macromodelsTime variation in these portfolios around equilibrium
Provides analytical solutions for optimal gross portfolio positions inany types of assetsContribution: provides a model to analyze incomplete markets withmultiple assetsComplication: impossible to use �rst order approximation methods inincomplete market models for two reasons:
Optimal portfolio allocation is indeterminate in �rst orderapproximationOptimal portfolio allocation is indeterminate in non-stochastic steadystate
Solution to �rst problem: use second-order approximationsSolution to second problem: portfolio equilibrium endogenouslydetermined so as to satisfy second order approximations of FOCs
() Country Portfolio Dynamics April 2 2008 4 / 41
![Page 23: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/23.jpg)
Introduction continued
Paper presents approximation method for computingEquilibrium �nancial portfolios in stochastic open economy macromodelsTime variation in these portfolios around equilibrium
Provides analytical solutions for optimal gross portfolio positions inany types of assetsContribution: provides a model to analyze incomplete markets withmultiple assetsComplication: impossible to use �rst order approximation methods inincomplete market models for two reasons:
Optimal portfolio allocation is indeterminate in �rst orderapproximation
Optimal portfolio allocation is indeterminate in non-stochastic steadystate
Solution to �rst problem: use second-order approximationsSolution to second problem: portfolio equilibrium endogenouslydetermined so as to satisfy second order approximations of FOCs
() Country Portfolio Dynamics April 2 2008 4 / 41
![Page 24: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/24.jpg)
Introduction continued
Paper presents approximation method for computingEquilibrium �nancial portfolios in stochastic open economy macromodelsTime variation in these portfolios around equilibrium
Provides analytical solutions for optimal gross portfolio positions inany types of assetsContribution: provides a model to analyze incomplete markets withmultiple assetsComplication: impossible to use �rst order approximation methods inincomplete market models for two reasons:
Optimal portfolio allocation is indeterminate in �rst orderapproximationOptimal portfolio allocation is indeterminate in non-stochastic steadystate
Solution to �rst problem: use second-order approximationsSolution to second problem: portfolio equilibrium endogenouslydetermined so as to satisfy second order approximations of FOCs
() Country Portfolio Dynamics April 2 2008 4 / 41
![Page 25: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/25.jpg)
Introduction continued
Paper presents approximation method for computingEquilibrium �nancial portfolios in stochastic open economy macromodelsTime variation in these portfolios around equilibrium
Provides analytical solutions for optimal gross portfolio positions inany types of assetsContribution: provides a model to analyze incomplete markets withmultiple assetsComplication: impossible to use �rst order approximation methods inincomplete market models for two reasons:
Optimal portfolio allocation is indeterminate in �rst orderapproximationOptimal portfolio allocation is indeterminate in non-stochastic steadystate
Solution to �rst problem: use second-order approximations
Solution to second problem: portfolio equilibrium endogenouslydetermined so as to satisfy second order approximations of FOCs
() Country Portfolio Dynamics April 2 2008 4 / 41
![Page 26: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/26.jpg)
Introduction continued
Paper presents approximation method for computingEquilibrium �nancial portfolios in stochastic open economy macromodelsTime variation in these portfolios around equilibrium
Provides analytical solutions for optimal gross portfolio positions inany types of assetsContribution: provides a model to analyze incomplete markets withmultiple assetsComplication: impossible to use �rst order approximation methods inincomplete market models for two reasons:
Optimal portfolio allocation is indeterminate in �rst orderapproximationOptimal portfolio allocation is indeterminate in non-stochastic steadystate
Solution to �rst problem: use second-order approximationsSolution to second problem: portfolio equilibrium endogenouslydetermined so as to satisfy second order approximations of FOCs
() Country Portfolio Dynamics April 2 2008 4 / 41
![Page 27: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/27.jpg)
General Overview of Methodology
() Country Portfolio Dynamics April 2 2008 5 / 41
![Page 28: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/28.jpg)
Solution Method for Equilibrium Portfolio
1 Separate variables into portfolio and non-portfolio variables
2 Take �rst order optimality conditions with respect to portfolio choice3 Take a second order Taylor series approximation of the FOCs aroundnon-stochastic SS - only depends on �rst-order non-portfolio variables
4 Write �rst-order approximation of non-portfolio variables as functionof endogeneous portfolio eqm.
5 Use (4) to write (3) as function of eqm. portfolio and exogenousinnovations only
6 Solve (5) for eqm. portfolio
() Country Portfolio Dynamics April 2 2008 6 / 41
![Page 29: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/29.jpg)
Solution Method for Equilibrium Portfolio
1 Separate variables into portfolio and non-portfolio variables2 Take �rst order optimality conditions with respect to portfolio choice
3 Take a second order Taylor series approximation of the FOCs aroundnon-stochastic SS - only depends on �rst-order non-portfolio variables
4 Write �rst-order approximation of non-portfolio variables as functionof endogeneous portfolio eqm.
5 Use (4) to write (3) as function of eqm. portfolio and exogenousinnovations only
6 Solve (5) for eqm. portfolio
() Country Portfolio Dynamics April 2 2008 6 / 41
![Page 30: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/30.jpg)
Solution Method for Equilibrium Portfolio
1 Separate variables into portfolio and non-portfolio variables2 Take �rst order optimality conditions with respect to portfolio choice3 Take a second order Taylor series approximation of the FOCs aroundnon-stochastic SS - only depends on �rst-order non-portfolio variables
4 Write �rst-order approximation of non-portfolio variables as functionof endogeneous portfolio eqm.
5 Use (4) to write (3) as function of eqm. portfolio and exogenousinnovations only
6 Solve (5) for eqm. portfolio
() Country Portfolio Dynamics April 2 2008 6 / 41
![Page 31: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/31.jpg)
Solution Method for Equilibrium Portfolio
1 Separate variables into portfolio and non-portfolio variables2 Take �rst order optimality conditions with respect to portfolio choice3 Take a second order Taylor series approximation of the FOCs aroundnon-stochastic SS - only depends on �rst-order non-portfolio variables
4 Write �rst-order approximation of non-portfolio variables as functionof endogeneous portfolio eqm.
5 Use (4) to write (3) as function of eqm. portfolio and exogenousinnovations only
6 Solve (5) for eqm. portfolio
() Country Portfolio Dynamics April 2 2008 6 / 41
![Page 32: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/32.jpg)
Solution Method for Equilibrium Portfolio
1 Separate variables into portfolio and non-portfolio variables2 Take �rst order optimality conditions with respect to portfolio choice3 Take a second order Taylor series approximation of the FOCs aroundnon-stochastic SS - only depends on �rst-order non-portfolio variables
4 Write �rst-order approximation of non-portfolio variables as functionof endogeneous portfolio eqm.
5 Use (4) to write (3) as function of eqm. portfolio and exogenousinnovations only
6 Solve (5) for eqm. portfolio
() Country Portfolio Dynamics April 2 2008 6 / 41
![Page 33: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/33.jpg)
Solution Method for Equilibrium Portfolio
1 Separate variables into portfolio and non-portfolio variables2 Take �rst order optimality conditions with respect to portfolio choice3 Take a second order Taylor series approximation of the FOCs aroundnon-stochastic SS - only depends on �rst-order non-portfolio variables
4 Write �rst-order approximation of non-portfolio variables as functionof endogeneous portfolio eqm.
5 Use (4) to write (3) as function of eqm. portfolio and exogenousinnovations only
6 Solve (5) for eqm. portfolio
() Country Portfolio Dynamics April 2 2008 6 / 41
![Page 34: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/34.jpg)
Solution Method for Time Variation in EquilibriumPortfolio
1 Builds on previous slide: do everything above, plus:
2 Take a third order Taylor series approximation of the FOCs aroundnon-stochastic SS - depends on �rst and second order non-portfoliovariables
3 Postulate that time variation in eqm. portfolio is a linear function ofstate variables - look for vector of coe¢ cients on state variables
4 Write second-order approximation of non-portfolio variables asfunction of endogeneous portfolio eqm.
5 Use (4) to write (2) as function of time variation in eqm. portfolioand exogenous innovations only
6 Solve (5) for vector of coe¢ cients for time variation in eqm. portfolio
() Country Portfolio Dynamics April 2 2008 7 / 41
![Page 35: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/35.jpg)
Solution Method for Time Variation in EquilibriumPortfolio
1 Builds on previous slide: do everything above, plus:2 Take a third order Taylor series approximation of the FOCs aroundnon-stochastic SS - depends on �rst and second order non-portfoliovariables
3 Postulate that time variation in eqm. portfolio is a linear function ofstate variables - look for vector of coe¢ cients on state variables
4 Write second-order approximation of non-portfolio variables asfunction of endogeneous portfolio eqm.
5 Use (4) to write (2) as function of time variation in eqm. portfolioand exogenous innovations only
6 Solve (5) for vector of coe¢ cients for time variation in eqm. portfolio
() Country Portfolio Dynamics April 2 2008 7 / 41
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Solution Method for Time Variation in EquilibriumPortfolio
1 Builds on previous slide: do everything above, plus:2 Take a third order Taylor series approximation of the FOCs aroundnon-stochastic SS - depends on �rst and second order non-portfoliovariables
3 Postulate that time variation in eqm. portfolio is a linear function ofstate variables - look for vector of coe¢ cients on state variables
4 Write second-order approximation of non-portfolio variables asfunction of endogeneous portfolio eqm.
5 Use (4) to write (2) as function of time variation in eqm. portfolioand exogenous innovations only
6 Solve (5) for vector of coe¢ cients for time variation in eqm. portfolio
() Country Portfolio Dynamics April 2 2008 7 / 41
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Solution Method for Time Variation in EquilibriumPortfolio
1 Builds on previous slide: do everything above, plus:2 Take a third order Taylor series approximation of the FOCs aroundnon-stochastic SS - depends on �rst and second order non-portfoliovariables
3 Postulate that time variation in eqm. portfolio is a linear function ofstate variables - look for vector of coe¢ cients on state variables
4 Write second-order approximation of non-portfolio variables asfunction of endogeneous portfolio eqm.
5 Use (4) to write (2) as function of time variation in eqm. portfolioand exogenous innovations only
6 Solve (5) for vector of coe¢ cients for time variation in eqm. portfolio
() Country Portfolio Dynamics April 2 2008 7 / 41
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Solution Method for Time Variation in EquilibriumPortfolio
1 Builds on previous slide: do everything above, plus:2 Take a third order Taylor series approximation of the FOCs aroundnon-stochastic SS - depends on �rst and second order non-portfoliovariables
3 Postulate that time variation in eqm. portfolio is a linear function ofstate variables - look for vector of coe¢ cients on state variables
4 Write second-order approximation of non-portfolio variables asfunction of endogeneous portfolio eqm.
5 Use (4) to write (2) as function of time variation in eqm. portfolioand exogenous innovations only
6 Solve (5) for vector of coe¢ cients for time variation in eqm. portfolio
() Country Portfolio Dynamics April 2 2008 7 / 41
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Solution Method for Time Variation in EquilibriumPortfolio
1 Builds on previous slide: do everything above, plus:2 Take a third order Taylor series approximation of the FOCs aroundnon-stochastic SS - depends on �rst and second order non-portfoliovariables
3 Postulate that time variation in eqm. portfolio is a linear function ofstate variables - look for vector of coe¢ cients on state variables
4 Write second-order approximation of non-portfolio variables asfunction of endogeneous portfolio eqm.
5 Use (4) to write (2) as function of time variation in eqm. portfolioand exogenous innovations only
6 Solve (5) for vector of coe¢ cients for time variation in eqm. portfolio
() Country Portfolio Dynamics April 2 2008 7 / 41
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Application
Two countries and two (internationally traded) assets
Home country produces good YH with price PHForeign country produces good YF with price P�FHome country agent preferences:
C is a composite of home and foreign goods
v (�) captures parts not relevant to the portfolio problemP : consumer price index for home agents
() Country Portfolio Dynamics April 2 2008 8 / 41
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Assets
Two assets and vector of two returns (from t-1 to t):
Asset payo¤s and prices measured in terms ot C
Budget constraint for home agents:
Then we have:
() Country Portfolio Dynamics April 2 2008 9 / 41
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Assets
Two assets and vector of two returns (from t-1 to t):
Asset payo¤s and prices measured in terms ot C
Budget constraint for home agents:
Then we have:
() Country Portfolio Dynamics April 2 2008 9 / 41
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Assets
Two assets and vector of two returns (from t-1 to t):
Asset payo¤s and prices measured in terms ot C
Budget constraint for home agents:
Then we have:
() Country Portfolio Dynamics April 2 2008 9 / 41
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Assets
Two assets and vector of two returns (from t-1 to t):
Asset payo¤s and prices measured in terms ot C
Budget constraint for home agents:
Then we have:
() Country Portfolio Dynamics April 2 2008 9 / 41
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Assets
Two assets and vector of two returns (from t-1 to t):
Asset payo¤s and prices measured in terms ot C
Budget constraint for home agents:
Then we have:
() Country Portfolio Dynamics April 2 2008 9 / 41
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Assets
Two assets and vector of two returns (from t-1 to t):
Asset payo¤s and prices measured in terms ot C
Budget constraint for home agents:
Then we have:
() Country Portfolio Dynamics April 2 2008 9 / 41
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Assets
Two assets and vector of two returns (from t-1 to t):
Asset payo¤s and prices measured in terms ot C
Budget constraint for home agents:
Then we have:
() Country Portfolio Dynamics April 2 2008 9 / 41
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Rewrite budget constraint in terms of excess returns on assets forhome agents:
For foreign agents:
Excess returns:
At end of each period, agents select portfolio holding to carry intonext period
() Country Portfolio Dynamics April 2 2008 10 / 41
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Rewrite budget constraint in terms of excess returns on assets forhome agents:
For foreign agents:
Excess returns:
At end of each period, agents select portfolio holding to carry intonext period
() Country Portfolio Dynamics April 2 2008 10 / 41
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Rewrite budget constraint in terms of excess returns on assets forhome agents:
For foreign agents:
Excess returns:
At end of each period, agents select portfolio holding to carry intonext period
() Country Portfolio Dynamics April 2 2008 10 / 41
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Rewrite budget constraint in terms of excess returns on assets forhome agents:
For foreign agents:
Excess returns:
At end of each period, agents select portfolio holding to carry intonext period
() Country Portfolio Dynamics April 2 2008 10 / 41
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Rewrite budget constraint in terms of excess returns on assets forhome agents:
For foreign agents:
Excess returns:
At end of each period, agents select portfolio holding to carry intonext period
() Country Portfolio Dynamics April 2 2008 10 / 41
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Rewrite budget constraint in terms of excess returns on assets forhome agents:
For foreign agents:
Excess returns:
At end of each period, agents select portfolio holding to carry intonext period
() Country Portfolio Dynamics April 2 2008 10 / 41
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Rewrite budget constraint in terms of excess returns on assets forhome agents:
For foreign agents:
Excess returns:
At end of each period, agents select portfolio holding to carry intonext period
() Country Portfolio Dynamics April 2 2008 10 / 41
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Portfolio First Order Conditions
For domestic agents:
For foreign agents:
From now, let: αt = α1,t and α2,t = Wt � αtIgnore non-portfolio equations for home and foreign agents
() Country Portfolio Dynamics April 2 2008 11 / 41
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Approximate around X (non-portfolio variables C , rx , Y , W ) and α(portfolio holdings)
X determined by symmetric non-stochastic steady state
r1 = r2 = 1/β
α determined endogenously - point such that second-orderapproximations of the FOCs are satis�ed around X and α
() Country Portfolio Dynamics April 2 2008 12 / 41
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Approximate around X (non-portfolio variables C , rx , Y , W ) and α(portfolio holdings)
X determined by symmetric non-stochastic steady state
r1 = r2 = 1/β
α determined endogenously - point such that second-orderapproximations of the FOCs are satis�ed around X and α
() Country Portfolio Dynamics April 2 2008 12 / 41
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Approximate around X (non-portfolio variables C , rx , Y , W ) and α(portfolio holdings)
X determined by symmetric non-stochastic steady state
r1 = r2 = 1/β
α determined endogenously - point such that second-orderapproximations of the FOCs are satis�ed around X and α
() Country Portfolio Dynamics April 2 2008 12 / 41
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Approximate around X (non-portfolio variables C , rx , Y , W ) and α(portfolio holdings)
X determined by symmetric non-stochastic steady state
r1 = r2 = 1/β
α determined endogenously - point such that second-orderapproximations of the FOCs are satis�ed around X and α
() Country Portfolio Dynamics April 2 2008 12 / 41
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Finding the Portfolio Approximation Point
Second-order approximation of the home-country FOC:
Et�rx ,t+1 + 1
2
�r21,t+1 � r22,t+1
�� ρCt+1 rx ,t+1
�= O
�ε3APPR
�Second-order approximation of the foreign-country FOC:
Et�rx ,t+1 + 1
2
�r21,t+1 � r22,t+1
�� ρC �t+1 rx ,t+1
�= O
�ε3APPR
�
() Country Portfolio Dynamics April 2 2008 13 / 41
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Equilibrium conditions
Combining the above, we get:
Equation for equilibrium portfolio holdings:
Et��Ct+1 � C �t+1
�rx ,t+1
�= 0+O
�ε3APPR
�(1)
Exuilibrium expected excess returns:E [rx ] = � 1
2E�r21,t+1 � r22,t+1
�+ρ 12Et
��Ct+1 � C �t+1
�rx ,t+1
�+O
�ε3APPR
� (2)Need to �nd α such that (1) holds
() Country Portfolio Dynamics April 2 2008 14 / 41
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Equilibrium conditions
Combining the above, we get:
Equation for equilibrium portfolio holdings:
Et��Ct+1 � C �t+1
�rx ,t+1
�= 0+O
�ε3APPR
�(1)
Exuilibrium expected excess returns:E [rx ] = � 1
2E�r21,t+1 � r22,t+1
�+ρ 12Et
��Ct+1 � C �t+1
�rx ,t+1
�+O
�ε3APPR
� (2)Need to �nd α such that (1) holds
() Country Portfolio Dynamics April 2 2008 14 / 41
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Equilibrium conditions
Combining the above, we get:
Equation for equilibrium portfolio holdings:
Et��Ct+1 � C �t+1
�rx ,t+1
�= 0+O
�ε3APPR
�(1)
Exuilibrium expected excess returns:E [rx ] = � 1
2E�r21,t+1 � r22,t+1
�+ρ 12Et
��Ct+1 � C �t+1
�rx ,t+1
�+O
�ε3APPR
� (2)Need to �nd α such that (1) holds
() Country Portfolio Dynamics April 2 2008 14 / 41
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Equilibrium conditions
Combining the above, we get:
Equation for equilibrium portfolio holdings:
Et��Ct+1 � C �t+1
�rx ,t+1
�= 0+O
�ε3APPR
�(1)
Exuilibrium expected excess returns:
E [rx ] = � 12E�r21,t+1 � r22,t+1
�+ρ 12Et
��Ct+1 � C �t+1
�rx ,t+1
�+O
�ε3APPR
� (2)Need to �nd α such that (1) holds
() Country Portfolio Dynamics April 2 2008 14 / 41
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Equilibrium conditions
Combining the above, we get:
Equation for equilibrium portfolio holdings:
Et��Ct+1 � C �t+1
�rx ,t+1
�= 0+O
�ε3APPR
�(1)
Exuilibrium expected excess returns:E [rx ] = � 1
2E�r21,t+1 � r22,t+1
�+ρ 12Et
��Ct+1 � C �t+1
�rx ,t+1
�+O
�ε3APPR
� (2)
Need to �nd α such that (1) holds
() Country Portfolio Dynamics April 2 2008 14 / 41
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Equilibrium conditions
Combining the above, we get:
Equation for equilibrium portfolio holdings:
Et��Ct+1 � C �t+1
�rx ,t+1
�= 0+O
�ε3APPR
�(1)
Exuilibrium expected excess returns:E [rx ] = � 1
2E�r21,t+1 � r22,t+1
�+ρ 12Et
��Ct+1 � C �t+1
�rx ,t+1
�+O
�ε3APPR
� (2)Need to �nd α such that (1) holds
() Country Portfolio Dynamics April 2 2008 14 / 41
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Useful Results
Devereux and Sutherland (2006) show that three results hold:
α enters the non-portfolio solutions only through the budget constraintOnly α enters the �rst-order approximation of the budget constraintsThe portfolio excess return αrx ,t+1 is a zero mean iid. random variable,and E (rx ) = 0.
() Country Portfolio Dynamics April 2 2008 15 / 41
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Useful Results
Devereux and Sutherland (2006) show that three results hold:
α enters the non-portfolio solutions only through the budget constraint
Only α enters the �rst-order approximation of the budget constraintsThe portfolio excess return αrx ,t+1 is a zero mean iid. random variable,and E (rx ) = 0.
() Country Portfolio Dynamics April 2 2008 15 / 41
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Useful Results
Devereux and Sutherland (2006) show that three results hold:
α enters the non-portfolio solutions only through the budget constraintOnly α enters the �rst-order approximation of the budget constraints
The portfolio excess return αrx ,t+1 is a zero mean iid. random variable,and E (rx ) = 0.
() Country Portfolio Dynamics April 2 2008 15 / 41
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Useful Results
Devereux and Sutherland (2006) show that three results hold:
α enters the non-portfolio solutions only through the budget constraintOnly α enters the �rst-order approximation of the budget constraintsThe portfolio excess return αrx ,t+1 is a zero mean iid. random variable,and E (rx ) = 0.
() Country Portfolio Dynamics April 2 2008 15 / 41
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Portfolio Solution
Let
Let ξt = αrx ,t+1, a zero mean iid. random variable
Using this in the home budget constraint approximation:
Wt =1βWt�1 + Yt � Ct + ξt +O
�ε2APPR
�
() Country Portfolio Dynamics April 2 2008 16 / 41
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Portfolio Solution
Let
Let ξt = αrx ,t+1, a zero mean iid. random variable
Using this in the home budget constraint approximation:
Wt =1βWt�1 + Yt � Ct + ξt +O
�ε2APPR
�
() Country Portfolio Dynamics April 2 2008 16 / 41
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Portfolio Solution
Let
Let ξt = αrx ,t+1, a zero mean iid. random variable
Using this in the home budget constraint approximation:
Wt =1βWt�1 + Yt � Ct + ξt +O
�ε2APPR
�
() Country Portfolio Dynamics April 2 2008 16 / 41
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Portfolio Solution
Let
Let ξt = αrx ,t+1, a zero mean iid. random variable
Using this in the home budget constraint approximation:
Wt =1βWt�1 + Yt � Ct + ξt +O
�ε2APPR
�
() Country Portfolio Dynamics April 2 2008 16 / 41
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Non-portfolio part of model
Summarize non-portfolio side of model as:
A1
�st+1
Et [ct+1]
�= A2
�stct
�+ A3xt + Bξt +O
�ε2APPR
�xt = Nxt�1 + εt
s: vector of predetermined variables
c: vector of jump variables
x: vector of exogenous forcing processes
ε: vector of iid. shocks
() Country Portfolio Dynamics April 2 2008 17 / 41
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Non-portfolio part of model
Summarize non-portfolio side of model as:
A1
�st+1
Et [ct+1]
�= A2
�stct
�+ A3xt + Bξt +O
�ε2APPR
�xt = Nxt�1 + εt
s: vector of predetermined variables
c: vector of jump variables
x: vector of exogenous forcing processes
ε: vector of iid. shocks
() Country Portfolio Dynamics April 2 2008 17 / 41
![Page 77: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/77.jpg)
Non-portfolio part of model
Summarize non-portfolio side of model as:
A1
�st+1
Et [ct+1]
�= A2
�stct
�+ A3xt + Bξt +O
�ε2APPR
�xt = Nxt�1 + εt
s: vector of predetermined variables
c: vector of jump variables
x: vector of exogenous forcing processes
ε: vector of iid. shocks
() Country Portfolio Dynamics April 2 2008 17 / 41
![Page 78: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/78.jpg)
Non-portfolio part of model
Summarize non-portfolio side of model as:
A1
�st+1
Et [ct+1]
�= A2
�stct
�+ A3xt + Bξt +O
�ε2APPR
�xt = Nxt�1 + εt
s: vector of predetermined variables
c: vector of jump variables
x: vector of exogenous forcing processes
ε: vector of iid. shocks
() Country Portfolio Dynamics April 2 2008 17 / 41
![Page 79: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/79.jpg)
Non-portfolio part of model
Summarize non-portfolio side of model as:
A1
�st+1
Et [ct+1]
�= A2
�stct
�+ A3xt + Bξt +O
�ε2APPR
�xt = Nxt�1 + εt
s: vector of predetermined variables
c: vector of jump variables
x: vector of exogenous forcing processes
ε: vector of iid. shocks
() Country Portfolio Dynamics April 2 2008 17 / 41
![Page 80: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/80.jpg)
Non-portfolio part of model
Summarize non-portfolio side of model as:
A1
�st+1
Et [ct+1]
�= A2
�stct
�+ A3xt + Bξt +O
�ε2APPR
�xt = Nxt�1 + εt
s: vector of predetermined variables
c: vector of jump variables
x: vector of exogenous forcing processes
ε: vector of iid. shocks
() Country Portfolio Dynamics April 2 2008 17 / 41
![Page 81: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/81.jpg)
The Solution
The state-space solution then becomes:
st+1 = F1xt + F2st + F3ξt +O�ε2APPR
�ct = P1xt + P2st + P3ξt +O
�ε2APPR
�We can use these equations to express the LHS terms of (1) in termsof ξ and exogenous terms
() Country Portfolio Dynamics April 2 2008 18 / 41
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The Solution
The state-space solution then becomes:st+1 = F1xt + F2st + F3ξt +O
�ε2APPR
�ct = P1xt + P2st + P3ξt +O
�ε2APPR
�
We can use these equations to express the LHS terms of (1) in termsof ξ and exogenous terms
() Country Portfolio Dynamics April 2 2008 18 / 41
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The Solution
The state-space solution then becomes:st+1 = F1xt + F2st + F3ξt +O
�ε2APPR
�ct = P1xt + P2st + P3ξt +O
�ε2APPR
�We can use these equations to express the LHS terms of (1) in termsof ξ and exogenous terms
() Country Portfolio Dynamics April 2 2008 18 / 41
![Page 84: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/84.jpg)
Exressing the LHS terms
From state-space solution, we can extract the two terms on the LHSof (1):
rx ,t+1 = [R1] ξt+1 + [R2]i [εt+1]i +O
�ε2APPR
��Ct+1 � C �t+1
�= [D1] ξt+1 + [D2]i [εt+1]
i + [D3]k [zt+1]k +O
�ε2APPR
�where the vector of state variables:
() Country Portfolio Dynamics April 2 2008 19 / 41
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Exressing the LHS terms
From state-space solution, we can extract the two terms on the LHSof (1):
rx ,t+1 = [R1] ξt+1 + [R2]i [εt+1]i +O
�ε2APPR
�
�Ct+1 � C �t+1
�= [D1] ξt+1 + [D2]i [εt+1]
i + [D3]k [zt+1]k +O
�ε2APPR
�where the vector of state variables:
() Country Portfolio Dynamics April 2 2008 19 / 41
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Exressing the LHS terms
From state-space solution, we can extract the two terms on the LHSof (1):
rx ,t+1 = [R1] ξt+1 + [R2]i [εt+1]i +O
�ε2APPR
��Ct+1 � C �t+1
�= [D1] ξt+1 + [D2]i [εt+1]
i + [D3]k [zt+1]k +O
�ε2APPR
�
where the vector of state variables:
() Country Portfolio Dynamics April 2 2008 19 / 41
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Exressing the LHS terms
From state-space solution, we can extract the two terms on the LHSof (1):
rx ,t+1 = [R1] ξt+1 + [R2]i [εt+1]i +O
�ε2APPR
��Ct+1 � C �t+1
�= [D1] ξt+1 + [D2]i [εt+1]
i + [D3]k [zt+1]k +O
�ε2APPR
�where the vector of state variables:
() Country Portfolio Dynamics April 2 2008 19 / 41
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Expressing the LHS terms
Using the fact that
we get the reduced form equations:rx ,t+1 =
�R2�i [εt+1]
i +O�ε2APPR
��Ct+1 � C �t+1
�=�D2�i [εt+1]
i + [D3]k [zt+1]k +O
�ε2APPR
�
() Country Portfolio Dynamics April 2 2008 20 / 41
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...where the matrices are:
Now we can evaluate the LHS of (1)!!!
() Country Portfolio Dynamics April 2 2008 21 / 41
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Solving for the portfolio approximation point
Combining the above terms, we can rewrite and simplify (1) as:
Solving for the corresponding equilibrium portfolio:
() Country Portfolio Dynamics April 2 2008 22 / 41
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Solving for the portfolio approximation point
Combining the above terms, we can rewrite and simplify (1) as:
Solving for the corresponding equilibrium portfolio:
() Country Portfolio Dynamics April 2 2008 22 / 41
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Time variation in equilibrium portfolios
The above solution is non time-varying: now want to analyzeportfolio behavior around equilibrium
State variables change over time: portfolio choice problem is di¤erentin every period
αt generally varies around α
We want to know how risk characteristics are a¤ected by evolution ofstate variables
Must know �rst-order e¤ect of state variables on second moments ofportfolio choice
We need a third-order approximation of portfolio problem
() Country Portfolio Dynamics April 2 2008 23 / 41
![Page 93: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/93.jpg)
Time variation in equilibrium portfolios
The above solution is non time-varying: now want to analyzeportfolio behavior around equilibrium
State variables change over time: portfolio choice problem is di¤erentin every period
αt generally varies around α
We want to know how risk characteristics are a¤ected by evolution ofstate variables
Must know �rst-order e¤ect of state variables on second moments ofportfolio choice
We need a third-order approximation of portfolio problem
() Country Portfolio Dynamics April 2 2008 23 / 41
![Page 94: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/94.jpg)
Time variation in equilibrium portfolios
The above solution is non time-varying: now want to analyzeportfolio behavior around equilibrium
State variables change over time: portfolio choice problem is di¤erentin every period
αt generally varies around α
We want to know how risk characteristics are a¤ected by evolution ofstate variables
Must know �rst-order e¤ect of state variables on second moments ofportfolio choice
We need a third-order approximation of portfolio problem
() Country Portfolio Dynamics April 2 2008 23 / 41
![Page 95: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/95.jpg)
Time variation in equilibrium portfolios
The above solution is non time-varying: now want to analyzeportfolio behavior around equilibrium
State variables change over time: portfolio choice problem is di¤erentin every period
αt generally varies around α
We want to know how risk characteristics are a¤ected by evolution ofstate variables
Must know �rst-order e¤ect of state variables on second moments ofportfolio choice
We need a third-order approximation of portfolio problem
() Country Portfolio Dynamics April 2 2008 23 / 41
![Page 96: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/96.jpg)
Time variation in equilibrium portfolios
The above solution is non time-varying: now want to analyzeportfolio behavior around equilibrium
State variables change over time: portfolio choice problem is di¤erentin every period
αt generally varies around α
We want to know how risk characteristics are a¤ected by evolution ofstate variables
Must know �rst-order e¤ect of state variables on second moments ofportfolio choice
We need a third-order approximation of portfolio problem
() Country Portfolio Dynamics April 2 2008 23 / 41
![Page 97: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/97.jpg)
Time variation in equilibrium portfolios
The above solution is non time-varying: now want to analyzeportfolio behavior around equilibrium
State variables change over time: portfolio choice problem is di¤erentin every period
αt generally varies around α
We want to know how risk characteristics are a¤ected by evolution ofstate variables
Must know �rst-order e¤ect of state variables on second moments ofportfolio choice
We need a third-order approximation of portfolio problem
() Country Portfolio Dynamics April 2 2008 23 / 41
![Page 98: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/98.jpg)
Third-order Approximation
Combining third-order approximations of home and foreign protfoliochoice FOCs yields:
Et
264 �ρ�Ct+1 � C �t+1
�rx ,t+1
+ ρ2
2
�C 2t+1 � C 2�t+1
�rx ,t+1
� ρ2
�Ct+1 � C �t+1
� �r21,t+1 � r22,t+1
�375 = O �ε4APPR � (3)
Et [rx ,t+1] = Et
2666664� 12
�r21,t+1 � r22,t+1
�� 16
�r31,t+1 � r32,t+1
�+ρ�Ct+1 + C �t+1
�rx ,t+1
� ρ2
2
�C 2t+1 + C
2�t+1
�rx ,t+1
+ ρ2
�Ct+1 + C �t+1
� �r21,t+1 � r22,t+1
�
3777775+O�ε4APPR
�(4)
These are the third-order equivalents of (1) and (2)
() Country Portfolio Dynamics April 2 2008 24 / 41
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Third-order Approximation
Combining third-order approximations of home and foreign protfoliochoice FOCs yields:
Et
264 �ρ�Ct+1 � C �t+1
�rx ,t+1
+ ρ2
2
�C 2t+1 � C 2�t+1
�rx ,t+1
� ρ2
�Ct+1 � C �t+1
� �r21,t+1 � r22,t+1
�375 = O �ε4APPR � (3)
Et [rx ,t+1] = Et
2666664� 12
�r21,t+1 � r22,t+1
�� 16
�r31,t+1 � r32,t+1
�+ρ�Ct+1 + C �t+1
�rx ,t+1
� ρ2
2
�C 2t+1 + C
2�t+1
�rx ,t+1
+ ρ2
�Ct+1 + C �t+1
� �r21,t+1 � r22,t+1
�
3777775+O�ε4APPR
�(4)
These are the third-order equivalents of (1) and (2)
() Country Portfolio Dynamics April 2 2008 24 / 41
![Page 100: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/100.jpg)
The Portfolio Solution
GOAL: �nd the time variation in portfolio decisions αt such that (3)holds
Apply previous procedure at a higher order
Find second-order approximation of budget constraint
Wt+1 =1βWt + Yt+1 � Ct+1 + αrx ,t+1 + 1
2 Y2t+1
� 12 C
2t+1 +
12 α�r21,t+1 � r22,t+1
�+ αt rx ,t+1 + 1
βWt r2,t +O�ε3APPR
�where
() Country Portfolio Dynamics April 2 2008 25 / 41
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The Portfolio Solution
GOAL: �nd the time variation in portfolio decisions αt such that (3)holds
Apply previous procedure at a higher order
Find second-order approximation of budget constraint
Wt+1 =1βWt + Yt+1 � Ct+1 + αrx ,t+1 + 1
2 Y2t+1
� 12 C
2t+1 +
12 α�r21,t+1 � r22,t+1
�+ αt rx ,t+1 + 1
βWt r2,t +O�ε3APPR
�where
() Country Portfolio Dynamics April 2 2008 25 / 41
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The Portfolio Solution
GOAL: �nd the time variation in portfolio decisions αt such that (3)holds
Apply previous procedure at a higher order
Find second-order approximation of budget constraint
Wt+1 =1βWt + Yt+1 � Ct+1 + αrx ,t+1 + 1
2 Y2t+1
� 12 C
2t+1 +
12 α�r21,t+1 � r22,t+1
�+ αt rx ,t+1 + 1
βWt r2,t +O�ε3APPR
�where
() Country Portfolio Dynamics April 2 2008 25 / 41
![Page 103: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/103.jpg)
The Portfolio Solution
GOAL: �nd the time variation in portfolio decisions αt such that (3)holds
Apply previous procedure at a higher order
Find second-order approximation of budget constraint
Wt+1 =1βWt + Yt+1 � Ct+1 + αrx ,t+1 + 1
2 Y2t+1
� 12 C
2t+1 +
12 α�r21,t+1 � r22,t+1
�+ αt rx ,t+1 + 1
βWt r2,t +O�ε3APPR
�
where
() Country Portfolio Dynamics April 2 2008 25 / 41
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The Portfolio Solution
GOAL: �nd the time variation in portfolio decisions αt such that (3)holds
Apply previous procedure at a higher order
Find second-order approximation of budget constraint
Wt+1 =1βWt + Yt+1 � Ct+1 + αrx ,t+1 + 1
2 Y2t+1
� 12 C
2t+1 +
12 α�r21,t+1 � r22,t+1
�+ αt rx ,t+1 + 1
βWt r2,t +O�ε3APPR
�where
() Country Portfolio Dynamics April 2 2008 25 / 41
![Page 105: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/105.jpg)
Solving for time variation in portfolio decisions
Postulate that αt is a linear function of the state variables of themodel:
Now we need to �nd the vector of coe¢ cients γ
Let ξt = αt rx ,t+1
() Country Portfolio Dynamics April 2 2008 26 / 41
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Solving for time variation in portfolio decisions
Postulate that αt is a linear function of the state variables of themodel:
Now we need to �nd the vector of coe¢ cients γ
Let ξt = αt rx ,t+1
() Country Portfolio Dynamics April 2 2008 26 / 41
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Solving for time variation in portfolio decisions
Postulate that αt is a linear function of the state variables of themodel:
Now we need to �nd the vector of coe¢ cients γ
Let ξt = αt rx ,t+1
() Country Portfolio Dynamics April 2 2008 26 / 41
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Matrix representation of second-order non-portfolio part
A1
�st+1
Et (ct+1)
�= A2
�stct
�+ A3xt + A4Λt + Bξt +O
�ε3APPR
�xt = Nxt�1 + εt
Λt = vech
2424 xtstct
35 � xt st ct�35
() Country Portfolio Dynamics April 2 2008 27 / 41
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Evaluating the LHS as before...
Now extract equations from state-space solution and use result thatexcess return on portfolio time-variation ξt = αt rx ,t+1:
�C � C �
�=�D0�+�D2�i [ε]
i +�D3�k [z ]
k
+�D4�i ,j [ε]
i [ε]j +
� �D5�k ,i
+�D1� �R2�i [γ]k
�[ε]i [z ]k
+�D6�i ,j [z ]
i [z ]j +O�ε3APPR
� (5)
rx = E [rx ]��R4�i ,j [Σ]
i ,j +�R2�i [ε]
i +�R4�i ,j [ε]
i [ε]j
+��R5�k ,i +
�R1�[R2]i [γ]k
�[ε]i [z ]k +O
�ε3APPR
� (6)
() Country Portfolio Dynamics April 2 2008 28 / 41
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Evaluating the LHS as before...
Now extract equations from state-space solution and use result thatexcess return on portfolio time-variation ξt = αt rx ,t+1:�
C � C ��=�D0�+�D2�i [ε]
i +�D3�k [z ]
k
+�D4�i ,j [ε]
i [ε]j +
� �D5�k ,i
+�D1� �R2�i [γ]k
�[ε]i [z ]k
+�D6�i ,j [z ]
i [z ]j +O�ε3APPR
� (5)
rx = E [rx ]��R4�i ,j [Σ]
i ,j +�R2�i [ε]
i +�R4�i ,j [ε]
i [ε]j
+��R5�k ,i +
�R1�[R2]i [γ]k
�[ε]i [z ]k +O
�ε3APPR
� (6)
() Country Portfolio Dynamics April 2 2008 28 / 41
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Evaluating the LHS as before...
Now extract equations from state-space solution and use result thatexcess return on portfolio time-variation ξt = αt rx ,t+1:�
C � C ��=�D0�+�D2�i [ε]
i +�D3�k [z ]
k
+�D4�i ,j [ε]
i [ε]j +
� �D5�k ,i
+�D1� �R2�i [γ]k
�[ε]i [z ]k
+�D6�i ,j [z ]
i [z ]j +O�ε3APPR
� (5)
rx = E [rx ]��R4�i ,j [Σ]
i ,j +�R2�i [ε]
i +�R4�i ,j [ε]
i [ε]j
+��R5�k ,i +
�R1�[R2]i [γ]k
�[ε]i [z ]k +O
�ε3APPR
� (6)
() Country Portfolio Dynamics April 2 2008 28 / 41
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Evaluating the LHS
From state-space representation, we can also extract these equations:
C =�CH2�i [ε]
i +�CH3�k [z ]
k +O�ε2APPR
�C � =
�CF2�i [ε]
i +�CF3�k [z ]
k +O�ε2APPR
�r1 =
�R12�i [ε]
i +�R13�k [z ]
k +O�ε2APPR
�r2 =
�R22�i [ε]
i +�R23�k [z ]
k +O�ε2APPR
� (7)
() Country Portfolio Dynamics April 2 2008 29 / 41
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Evaluating the LHS
From state-space representation, we can also extract these equations:
C =�CH2�i [ε]
i +�CH3�k [z ]
k +O�ε2APPR
�C � =
�CF2�i [ε]
i +�CF3�k [z ]
k +O�ε2APPR
�r1 =
�R12�i [ε]
i +�R13�k [z ]
k +O�ε2APPR
�r2 =
�R22�i [ε]
i +�R23�k [z ]
k +O�ε2APPR
� (7)
() Country Portfolio Dynamics April 2 2008 29 / 41
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Evaluating the LHS
Combining (5), (6) and (7) and simplifying, we can rewrite andsimplify (3) as:
�R2�i
��D5�k ,j +
�D1� �R2�j [γ]k
�[Σ]i ,j
+�D2�i
�R5�k ,j [Σ]
i ,j = O�ε3APPR
�Solving for the equilibrium coe¢ cient vector γ :
γk = �
��R2�i
�D5�k ,j [Σ]
i ,j +�D2�i
�R5�k ,j [Σ]
i ,j�
�D1� �R2�i
�R2�j [Σ]
i ,j +O (εAPPR ) (8)
This gives us the �rst-order e¤ect of state variables on portfolio timevariation
() Country Portfolio Dynamics April 2 2008 30 / 41
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Evaluating the LHS
Combining (5), (6) and (7) and simplifying, we can rewrite andsimplify (3) as:�R2�i
��D5�k ,j +
�D1� �R2�j [γ]k
�[Σ]i ,j
+�D2�i
�R5�k ,j [Σ]
i ,j = O�ε3APPR
�
Solving for the equilibrium coe¢ cient vector γ :
γk = �
��R2�i
�D5�k ,j [Σ]
i ,j +�D2�i
�R5�k ,j [Σ]
i ,j�
�D1� �R2�i
�R2�j [Σ]
i ,j +O (εAPPR ) (8)
This gives us the �rst-order e¤ect of state variables on portfolio timevariation
() Country Portfolio Dynamics April 2 2008 30 / 41
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Evaluating the LHS
Combining (5), (6) and (7) and simplifying, we can rewrite andsimplify (3) as:�R2�i
��D5�k ,j +
�D1� �R2�j [γ]k
�[Σ]i ,j
+�D2�i
�R5�k ,j [Σ]
i ,j = O�ε3APPR
�Solving for the equilibrium coe¢ cient vector γ :
γk = �
��R2�i
�D5�k ,j [Σ]
i ,j +�D2�i
�R5�k ,j [Σ]
i ,j�
�D1� �R2�i
�R2�j [Σ]
i ,j +O (εAPPR ) (8)
This gives us the �rst-order e¤ect of state variables on portfolio timevariation
() Country Portfolio Dynamics April 2 2008 30 / 41
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Evaluating the LHS
Combining (5), (6) and (7) and simplifying, we can rewrite andsimplify (3) as:�R2�i
��D5�k ,j +
�D1� �R2�j [γ]k
�[Σ]i ,j
+�D2�i
�R5�k ,j [Σ]
i ,j = O�ε3APPR
�Solving for the equilibrium coe¢ cient vector γ :
γk = �
��R2�i
�D5�k ,j [Σ]
i ,j +�D2�i
�R5�k ,j [Σ]
i ,j�
�D1� �R2�i
�R2�j [Σ]
i ,j +O (εAPPR ) (8)
This gives us the �rst-order e¤ect of state variables on portfolio timevariation
() Country Portfolio Dynamics April 2 2008 30 / 41
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Evaluating the LHS
Combining (5), (6) and (7) and simplifying, we can rewrite andsimplify (3) as:�R2�i
��D5�k ,j +
�D1� �R2�j [γ]k
�[Σ]i ,j
+�D2�i
�R5�k ,j [Σ]
i ,j = O�ε3APPR
�Solving for the equilibrium coe¢ cient vector γ :
γk = �
��R2�i
�D5�k ,j [Σ]
i ,j +�D2�i
�R5�k ,j [Σ]
i ,j�
�D1� �R2�i
�R2�j [Σ]
i ,j +O (εAPPR ) (8)
This gives us the �rst-order e¤ect of state variables on portfolio timevariation
() Country Portfolio Dynamics April 2 2008 30 / 41
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Summary of Solution Method
To implement, all we need to do is:
Solve the non-portfolio part of the model to yield a state-space solutionExtract the appropriate rows from this solution to form the D and RmatricesCalculate γ based on equation (8)
Next: consider simple and speci�c example for illustration
() Country Portfolio Dynamics April 2 2008 31 / 41
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Summary of Solution Method
To implement, all we need to do is:
Solve the non-portfolio part of the model to yield a state-space solution
Extract the appropriate rows from this solution to form the D and RmatricesCalculate γ based on equation (8)
Next: consider simple and speci�c example for illustration
() Country Portfolio Dynamics April 2 2008 31 / 41
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Summary of Solution Method
To implement, all we need to do is:
Solve the non-portfolio part of the model to yield a state-space solutionExtract the appropriate rows from this solution to form the D and Rmatrices
Calculate γ based on equation (8)
Next: consider simple and speci�c example for illustration
() Country Portfolio Dynamics April 2 2008 31 / 41
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Summary of Solution Method
To implement, all we need to do is:
Solve the non-portfolio part of the model to yield a state-space solutionExtract the appropriate rows from this solution to form the D and RmatricesCalculate γ based on equation (8)
Next: consider simple and speci�c example for illustration
() Country Portfolio Dynamics April 2 2008 31 / 41
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Summary of Solution Method
To implement, all we need to do is:
Solve the non-portfolio part of the model to yield a state-space solutionExtract the appropriate rows from this solution to form the D and RmatricesCalculate γ based on equation (8)
Next: consider simple and speci�c example for illustration
() Country Portfolio Dynamics April 2 2008 31 / 41
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Example
One-good, two-country endowment economy
Agents have CRRA preferences:
Endowments of single good and the money supply follow AR1processes with iid. and symmetric shocks:logYt = ζY logYt�1 + εY ,tlogY �t = ζY logY
�t�1 + εY �,t
logMt = ζM logMt�1 + εM ,tlogM�
t = ζM logM�t�1 + εM �,t
() Country Portfolio Dynamics April 2 2008 32 / 41
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Example
One-good, two-country endowment economy
Agents have CRRA preferences:
Endowments of single good and the money supply follow AR1processes with iid. and symmetric shocks:logYt = ζY logYt�1 + εY ,tlogY �t = ζY logY
�t�1 + εY �,t
logMt = ζM logMt�1 + εM ,tlogM�
t = ζM logM�t�1 + εM �,t
() Country Portfolio Dynamics April 2 2008 32 / 41
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Example
One-good, two-country endowment economy
Agents have CRRA preferences:
Endowments of single good and the money supply follow AR1processes with iid. and symmetric shocks:
logYt = ζY logYt�1 + εY ,tlogY �t = ζY logY
�t�1 + εY �,t
logMt = ζM logMt�1 + εM ,tlogM�
t = ζM logM�t�1 + εM �,t
() Country Portfolio Dynamics April 2 2008 32 / 41
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Example
One-good, two-country endowment economy
Agents have CRRA preferences:
Endowments of single good and the money supply follow AR1processes with iid. and symmetric shocks:logYt = ζY logYt�1 + εY ,tlogY �t = ζY logY
�t�1 + εY �,t
logMt = ζM logMt�1 + εM ,tlogM�
t = ζM logM�t�1 + εM �,t
() Country Portfolio Dynamics April 2 2008 32 / 41
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Time invariant Covariance matrix of Innovations
() Country Portfolio Dynamics April 2 2008 33 / 41
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Asset trade
Home and foreign nominal bonds are traded: αB ,t and αB �,t
Budget constraint:
We also have
() Country Portfolio Dynamics April 2 2008 34 / 41
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Asset trade
Home and foreign nominal bonds are traded: αB ,t and αB �,t
Budget constraint:
We also have
() Country Portfolio Dynamics April 2 2008 34 / 41
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Asset trade
Home and foreign nominal bonds are traded: αB ,t and αB �,t
Budget constraint:
We also have
() Country Portfolio Dynamics April 2 2008 34 / 41
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Equilibrium conditions
FOCs for consumption and bond holdings:
C�ρt = βEt
�C ρt+1rB �,t+1
�C ��ρt = βEt
�C �ρt+1rB �,t+1
�EthC�ρt+1rB ,t+1
i= Et
hC�ρt+1rB �,t+1
iEthC ��ρt+1 rB ,t+1
i= Et
hC ��ρt+1 rB �,t+1
iResource constraint:
() Country Portfolio Dynamics April 2 2008 35 / 41
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Equilibrium conditions
FOCs for consumption and bond holdings:
C�ρt = βEt
�C ρt+1rB �,t+1
�C ��ρt = βEt
�C �ρt+1rB �,t+1
�EthC�ρt+1rB ,t+1
i= Et
hC�ρt+1rB �,t+1
iEthC ��ρt+1 rB ,t+1
i= Et
hC ��ρt+1 rB �,t+1
i
Resource constraint:
() Country Portfolio Dynamics April 2 2008 35 / 41
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Equilibrium conditions
FOCs for consumption and bond holdings:
C�ρt = βEt
�C ρt+1rB �,t+1
�C ��ρt = βEt
�C �ρt+1rB �,t+1
�EthC�ρt+1rB ,t+1
i= Et
hC�ρt+1rB �,t+1
iEthC ��ρt+1 rB ,t+1
i= Et
hC ��ρt+1 rB �,t+1
iResource constraint:
() Country Portfolio Dynamics April 2 2008 35 / 41
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Equilibrium Portfolio
Equilibrium bond holdings:
Now solve for time variation around eqm. bond holdings
() Country Portfolio Dynamics April 2 2008 36 / 41
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Equilibrium Portfolio
Equilibrium bond holdings:
Now solve for time variation around eqm. bond holdings
() Country Portfolio Dynamics April 2 2008 36 / 41
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Time variation in bond holdings
Recall the general formulas from above:
γk = �
��R2�i
�D5�k ,j [Σ]
i ,j +�D2�i
�R5�k ,j [Σ]
i ,j�
�D1� �R2�i
�R2�j [Σ]
i ,j +O (εAPPR )
() Country Portfolio Dynamics April 2 2008 37 / 41
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Time variation in bond holdings
Recall the general formulas from above:
γk = �
��R2�i
�D5�k ,j [Σ]
i ,j +�D2�i
�R5�k ,j [Σ]
i ,j�
�D1� �R2�i
�R2�j [Σ]
i ,j +O (εAPPR )
() Country Portfolio Dynamics April 2 2008 37 / 41
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Time variation in bond holdings
Recall the general formulas from above:
γk = �
��R2�i
�D5�k ,j [Σ]
i ,j +�D2�i
�R5�k ,j [Σ]
i ,j�
�D1� �R2�i
�R2�j [Σ]
i ,j +O (εAPPR )
() Country Portfolio Dynamics April 2 2008 37 / 41
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Forming the appropriate matrices
() Country Portfolio Dynamics April 2 2008 38 / 41
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The matrix elements
∆1 = �1� β
1� βζYαB f(1� ζY ) ρ [1� ζY (1� β) β] + ζY (1� β)g
∆2 = �1� β
1� βζY
β (1� ζY )2 ζY (1� βρ)
(1� βζY )�1� βζ2Y
� + ∆1
∆3 = �1� β
1� βζY
1� β [1� (1� ζY ) βρ]
β
() Country Portfolio Dynamics April 2 2008 39 / 41
![Page 142: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/142.jpg)
Solutions for time variations in bond holdings
αB ,t = γ1Yt + γ2Y�t + γ3Mt + γ4M
�t + γ5Wt
αB �,t = �γ1Yt � γ2Y�t � γ3Mt � γ4M
�t + (1� γ5) Wt
where the vector of coe¢ cients:
γ1 = γ2 =12
1� (
1� ζY )�1� ρ+ (1� β) βρζ2Y
�1� βζY
!αB
ζ3 = γ4 = 0γ5 =
12
() Country Portfolio Dynamics April 2 2008 40 / 41
![Page 143: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/143.jpg)
Solutions for time variations in bond holdings
αB ,t = γ1Yt + γ2Y�t + γ3Mt + γ4M
�t + γ5Wt
αB �,t = �γ1Yt � γ2Y�t � γ3Mt � γ4M
�t + (1� γ5) Wt
where the vector of coe¢ cients:
γ1 = γ2 =12
1� (
1� ζY )�1� ρ+ (1� β) βρζ2Y
�1� βζY
!αB
ζ3 = γ4 = 0γ5 =
12
() Country Portfolio Dynamics April 2 2008 40 / 41
![Page 144: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/144.jpg)
Solutions for time variations in bond holdings
αB ,t = γ1Yt + γ2Y�t + γ3Mt + γ4M
�t + γ5Wt
αB �,t = �γ1Yt � γ2Y�t � γ3Mt � γ4M
�t + (1� γ5) Wt
where the vector of coe¢ cients:
γ1 = γ2 =12
1� (
1� ζY )�1� ρ+ (1� β) βρζ2Y
�1� βζY
!αB
ζ3 = γ4 = 0γ5 =
12
() Country Portfolio Dynamics April 2 2008 40 / 41
![Page 145: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/145.jpg)
Conclusion
Paper extends Devereux and Sutherland (2006) solution method forequilibrium portfolios to higher order approximations
Finds analytical expressions for dynamic behavior of portfolios in openeconomy GE models
Provides simple and clear insights into factors determining thedynamic evolution of portfolios
() Country Portfolio Dynamics April 2 2008 41 / 41
![Page 146: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/146.jpg)
Conclusion
Paper extends Devereux and Sutherland (2006) solution method forequilibrium portfolios to higher order approximations
Finds analytical expressions for dynamic behavior of portfolios in openeconomy GE models
Provides simple and clear insights into factors determining thedynamic evolution of portfolios
() Country Portfolio Dynamics April 2 2008 41 / 41
![Page 147: Country Portfolio Dynamics - TAUrazin/Country Portfolio DynamicsSLIDES.pdf · 2008-05-11 · Country Portfolio Dynamics Devereux and Sutherland Presented by Judit Temesvary April](https://reader034.vdocuments.us/reader034/viewer/2022050414/5f8abc47f3c45f63c86d4df6/html5/thumbnails/147.jpg)
Conclusion
Paper extends Devereux and Sutherland (2006) solution method forequilibrium portfolios to higher order approximations
Finds analytical expressions for dynamic behavior of portfolios in openeconomy GE models
Provides simple and clear insights into factors determining thedynamic evolution of portfolios
() Country Portfolio Dynamics April 2 2008 41 / 41