Bibliography¶
Bellman, R. (1957). Dynamic Programming. Princeton University Press, Princeton, NJ.
Bellman, R. and Dreyfus, S. E. (1962). Applied Dynamic Programming. Princeton University Press, Princeton, NJ.
Eisenhauer, P. (2019). The Approximate Solution of Finite-Horizon Discrete Choice Dynamic Programming Models: Revisiting Keane & Wolpin (1994). Journal of Applied Econometrics, 34 (1), 149-154.
Eisenhauer, P. (2018). Robust human capital investment under risk and ambiguity. Revise and resubmit at the Journal of Econometrics.
Fisher, R. A. (1922). On the Mathematical Foundations of Theoretical Statistics. Philosophical Transactions of the Royal Society of London A: Mathematical, Physical and Engineering Sciences, 222(594-604): 309-368.
Skrainka, B. S. and Judd, K. L. (2011). High Performance Quadrature Rules: How Numerical Integration Affects a Popular Model of Product Differentiation. SSRN Working Paper.
Keane, M. P. and Wolpin, K. I. (1994). The Solution and Estimation of Discrete Choice Dynamic Programming Models by Simulation and Interpolation: Monte Carlo Evidence. The Review of Economics and Statistics, 76(4): 648-672.
Keane, M. P. and Wolpin, K. I. (1994b). The Solution and Estimation of Discrete Choice Dynamic Programming Models by Simulation and Interpolation: Monte Carlo Evidence. Federal Reserve Bank of Minneapolis, No. 181.
Keane, M. P. and Wolpin, K. I. (1996). The Career Decisions of Young Men. Journal of Political Economy, 105(3): 473-522.
Manski, C. and Lerman S. (1977). The Estimation of Choice Probabilities from Choice Based Samples. Econometrica, 45(8): 1977-1988.
Marsaglia, G. (1968). Random Numbers fall Mainly in the Planes. Proceedings of the National Academy of Sciences, 61(1): 25-28.
Matsumoto, M. and Nishimura, T. (1998). Mersenne Twister: A 623-dimensionally Equidistributed Uniform Pseudo-random Number Generator. ACM Transactions on Modeling and Computer Simulation, 8(1): 3-30.
McFadden, D. (1989). A Method of Simulated Moments for Estimation of Discrete Response Models Without Numerical Integration. Econometrica, 57(5):995–1026.
Nocedal, J. and Wright, S. J. (2006). Numerical Optimization. Springer, New York, NY.
Powell, M. J. D. (1964). An Efficient Method for Finding the Minimum of a Function of Several Variables without Calculating Derivatives. The Computer Journal, 7(2): 155-162.
Powell, M. J. D. (2006). The NEWUOA Software for Unconstrained Optimization Without Derivatives. In Pillo, Gianni, R. M., editor, Large-Scale Nonlinear Optimization, number 83 in Nonconvex Optimization and Its Applications, pages 255–297. Springer, New York, NY.