Hansen is best known for his work on the generalized method of moments, he is also a distinguished macroeconomist, focusing on the linkages between the financial sector and the macroeconomy. His current collaborative research develops and applies methods for pricing the exposure to macroeconomic shocks over alternative investment horizons and investigates the implications of the pricing of long-term uncertainty.
After graduating from Utah State University (B.S. Mathematics, Political Science, 1974) and the University of Minnesota (Ph.D. Economics, 1978), he served as assistant and associate professor at Carnegie Mellon University before moving to the University of Chicago in 1981. He is currently the David Rockefeller Distinguished Service Professor in Economics, Statistics and the College at the University of Chicago. He is married to Grace Tsiang (Chinese: 蒋人瑞; pinyin: Jiǎng Rénruì), who is the daughter of the famous economist Sho-Chieh Tsiang. Together, Hansen and Tsiang have one son named Peter.[6] He has two brothers, Ted Howard Hansen, an immunologist at Washington University in St. Louis and Roger Hansen, an engineer in water resource management. His father, Roger Gaurth Hansen, served as provost of Utah State University and was a professor of biochemistry.
Contributions
Hansen is best known as the developer of the econometric technique generalized method of moments (GMM) and has written and co-authored papers applying GMM to analyze economic models in numerous fields including labor economics, international finance, finance and macroeconomics. This method has been widely adopted in economics and other fields and applications where fully specifying and solving a model of a complex economic environment is unwieldy or otherwise impractical. Hansen showed how to exploit moment conditions (e.g. relations where conditional expectations are known to be zero at true parameter values) to construct reasonable, reliable estimators (i.e. having desirable statistical properties such as consistency, asymptotic normality, and efficiency within the class of all asymptotic normal estimators) with less stringent maintained model assumptions than needed for maximum likelihood estimation. However, these estimators are mathematically equivalent to those based on "orthogonality conditions" (Sargan, 1958, 1959) or "unbiased estimating equations" (Huber, 1967; Wang et al., 1997). Moreover, maximum likelihood estimation methods provide guidance for devising more efficient instrumental variables estimators that take into account special features such as restrictions on the variance-covariance matrices of the errors (Bhargava and Sargan, 1983).
With several coauthors such as Kenneth J. Singleton, Scott F. Richard, and Robert Hodrick, Hansen applied GMM to study models of asset valuation. Together with Ravi Jagannathan he showed that the ratio of any stochastic discount factor's standard deviation to its mean is at least as great as any asset's Sharpe ratio; this result is known as the Hansen–Jagannathan bound. The fact that this often fails in practice due to the Sharpe ratio of risky assets exceeding the ratio of the volatility of the stochastic discount factor to its expectation is known as the equity premium puzzle. Later work focused on the long-run risk-return tradeoff with José Scheinkman and the examination of the term structure of pricing risk shocks in dynamic macroeconomic models through the use of "dynamic valuation decomposition."
Thomas J. Sargent and Hansen coauthored Robustness, which explores implications of robust control theory for macroeconomic modeling when the decision maker is skeptical of any single statistical model's ability to capture how decisions are linked to outcomes.
Hansen has focused on the difference between risk and uncertainty (also known as Knightian uncertainty) and on the measurement of so-called systemic risk," its role in the 2008 financial crisis,[7] and how it should be contained during the post-Great Recession recovery.[8] He frequently speaks publicly on the need to address uncertainty in the policy-making process.
His contributions and current research interests are outlined in a December 2015 interviewArchived July 25, 2019, at the Wayback Machine appearing in The Region, a publication of the Federal Reserve Bank of Minneapolis.
Associations
Hansen is the inaugural director of the Becker Friedman Institute
and the current director of BFI's Macro Finance Research Program (MFR). He was founding director of the Milton Friedman Institute, the predecessor of the Becker Friedman Institute. In 2018, Hansen wrote a retrospective essay reflecting on the Beginnings of the Becker Friedman Institute for Research in Economics, With M.I.T. economist Andrew Lo, Hansen leads the Macro Financial Modeling Group, a network of macroeconomists working to develop improved models of the linkages between the financial and real sectors of the economy in the wake of the 2008 financial crisis. He also is co-principal investigator on a research initiative studying the costs of uncertainty about economic policy.
He is the co-winner of the Frisch Medal with Kenneth Singleton in 1984 for his paper, "Generalized Instrumental Variables Estimation of Nonlinear Rational Expectations Models".[11] For his work in studying the properties of financial markets and macroeconomics, he was the 2006 Erwin Plein Nemmers Prize in Economics recipient.[12] He was recognized for his use of statistical methods in economics by receiving the CME Group-MSRI Prize In Innovative Quantitative Applications in 2008.[13] In 2011, he was awarded the BBVA Foundation Frontiers of Knowledge Award in Economics, Finance, and Management "for making fundamental contributions to our understanding of how economic actors cope with risky and changing environments."[14] He holds honorary doctorates from Utah State University and honorary professorships from HEC Paris and Universidad del Pacífico awarded in 2015. On May 22, 2016, Hansen received an honorary degree from Colby College in Waterville, Maine.[15]
Nobel Memorial Prize
On October 14, 2013, Hansen, with Eugene Fama and Robert Shiller, was awarded the Nobel Memorial Prize in Economic Sciences.[16] The award cited their "empirical analysis of asset prices." His Nobel lecture, "Uncertainty Inside and Outside Economic Models," was delivered on December 8, 2013.[17]
Miscellaneous
Lars Peter Hansen's favorite pie is pumpkin pie.[18]
Selected writings
Hansen, L.P. and J. Borovička, "Term Structure of Uncertainty in the Macroeconomy," in "Handbook of Macroeconomics," Vol. 2, Part 2., eds. J.B. Taylor, H. Uhlig., December 2016.
Hansen, L.P., J. Borovička and J. Scheinkman "Misspecified Recovery," Journal of Finance, March 2016.
Hansen, L.P. and Sargent, T.J. Uncertainty Within Economic Models.[19] World Scientific Publishing 2014.
Hansen, L.P. "Uncertainty Inside and Outside Economic Models[20]" (Nobel Lecture)
Hansen, L.P. and Sargent, T.J. Recursive Models of Dynamic Linear Economies[21]. Princeton University Press 2013.
Hansen, L.P. and Sargent, T.J. Robustness[22] Princeton University Press 2007.
Hansen, L.P. "Challenges in Identifying and Measuring Systemic Risk," in Brunnermeier, M.K. and Krishnamurthy, A.: Risk Topography: Systemic Risk and Macro Modeling,[23] September 2012.
Hansen, L.P. "Generalized Methods of Moments: A Time Series Perspective," in International Encyclopedia of the Social and Behavior Sciences, 2000.
Hansen, L.P., (1982), "Large Sample Properties of Generalized Methods of Moments Estimators" in Econometrica, Vol. 50, page 1029-1054, where he proposed the GMM-procedure.
^Risk Topography: Systemic Risk and Macro Modeling. Chicago: University of Chicago Press. November 2012.
Further reading
Bhargava, A., and Sargan, J.D. (1983). Estimating dynamic random effects from panel data covering short time periods. Econometrica, 51, 6, 1635-1659.
Huber, P. (1967). The behavior of maximum likelihood estimates under nonstandard conditions. Proceedings of the Fifth Berkeley Symposium on Mathematical Statistics and Probability 1, 221-233.
Sargan, J.D. (1958). The estimation of economic relationships using instrumental variables. Econometrica, 26, 393-415.
Sargan, J.D. (1959). The estimation of relationships with autocorrelated residuals by the use on instrumental variables. Journal of the Royal Statistical Society B, 21, 91-105.
Wang, C.Y., Wang, S., and Carroll, R. (1997). Estimation in choice-based sampling with measurement error and bootstrap analysis. Journal of Econometrics, 77, 65-86.