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Estimating Continuous-time Models On the Basis of Discrete Data Via An Exact Discrete Analog

Bibliographic reference McCrorie, J. Roderick. Estimating Continuous-time Models On the Basis of Discrete Data Via An Exact Discrete Analog. In: Econometric Theory, Vol. 25, no. 4, p. 1120-1137 (2009)
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  1. Ait-Sahalia Yacine, Nonparametric Pricing of Interest Rate Derivative Securities, 10.2307/2171860
  2. Aït-Sahalia Yacine, Estimating Continuous-Time Models with Discretely Sampled Data, Advances in Economics and Econometrics ISBN:9780511607547 p.261-327, 10.1017/cbo9780511607547.010
  3. Ait-Sahalia Yacine, Mykland Per A., The Effects of Random and Discrete Sampling when Estimating Continuous-Time Diffusions, 10.1111/1468-0262.t01-1-00416
  4. Aït-Sahalia Yacine, Mykland Per A., Zhang Lan, How Often to Sample a Continuous-Time Process in the Presence of Market Microstructure Noise, 10.1093/rfs/hhi016
  5. Babbs Simon H., Nowman K. Ben, Kalman Filtering of Generalized Vasicek Term Structure Models, 10.2307/2676248
  6. Bandi Federico M., Phillips Peter C. B., Fully Nonparametric Estimation of Scalar Diffusion Models, 10.1111/1468-0262.00395
  7. Belcher, Journal of the Royal Statistical Society, Series B, 56, 141 (1994)
  8. Bergstrom A. R., Nonrecursive Models as Discrete Approximations to Systems of Stochastic Differential Equations, 10.2307/1909861
  9. Bergstrom A. R., Gaussian Estimation of Structural Parameters in Higher Order Continuous Time Dynamic Models, 10.2307/1912251
  10. Bergstrom, Handbook of Econometrics, 2, 1145 (1984)
  11. Bergstrom A. R., The Estimation of Parameters in Nonstationary Higher Order Continuous-Time Dynamic Models, 10.1017/s0266466600011269
  12. Bergstrom A. R., The Estimation of Open Higher-Order Continuous Time Dynamic Models with Mixed Stock and Flow Data, 10.1017/s026646660001166x
  13. Bergstrom A. R., The History of Continuous-Time Econometric Models, 10.1017/s0266466600013359
  14. Bergstrom, Continuous Time Econometric Modelling (1990)
  15. Bergstrom A.R., Gaussian Estimation of Mixed-Order Continuous-Time Dynamic Models with Unobservable Stochastic Trends from Mixed Stock and Flow Data, 10.1017/s0266466600005971
  16. Bergstrom, Econometric Theory, 25, 903 (2009)
  17. Bergstrom A. R., Nowman K. B., Gaussian Estimation of a Two-factor Continuous Time Model of the Short-term Interest Rate, 10.1111/1468-0300.00003
  18. Bergstrom Albert Rex, Nowman Khalid Ben, A Continuous Time Econometric Model of the United Kingdom with Stochastic Trends, ISBN:9780511664687, 10.1017/cbo9780511664687
  19. Bergstrom A.R., Nowman K.B., Wymer C.R., Gaussian estimation of a second order continuous time macroeconometric model of the UK, 10.1016/0264-9993(92)90017-v
  20. Bergstrom, Statistical Inference in Continuous Time Economic Models, 267 (1976)
  21. Bernstein D.S., So W., Some explicit formulas for the matrix exponential, 10.1109/9.233156
  22. Bourgeois Gerald, On commuting exponentials in low dimensions, 10.1016/j.laa.2006.12.019
  23. Campbell John Y, Chacko George, Rodriguez Jorge, Viceira Luis M, Strategic asset allocation in a continuous-time VAR model, 10.1016/j.jedc.2003.09.005
  24. Chambers Marcus J., Discrete time representation of stationary and non-stationary continuous time systems, 10.1016/s0165-1889(98)00032-3
  26. Chambers Marcus J., Testing for unit roots with flow data and varying sampling frequency, 10.1016/s0304-4076(03)00152-0
  27. Chambers, Econometric Theory, 25, 1030 (2009)
  28. Chambers Marcus J., McCrorie J. Roderick, IDENTIFICATION AND ESTIMATION OF EXCHANGE RATE MODELS WITH UNOBSERVABLE FUNDAMENTALS*, 10.1111/j.1468-2354.2006.00389.x
  29. Chambers Marcus J., Roderick McCrorie J., Frequency domain estimation of temporally aggregated Gaussian cointegrated systems, 10.1016/j.jeconom.2006.03.005
  30. Chen Baoline, Zadrozny Peter A., Analytic derivatives of the matrix exponential for estimation of linear continuous-time models, 10.1016/s0165-1889(00)00012-9
  31. Chen Ren-Raw, Scott Louis, Pricing Interest Rate Options in a Two-Factor Cox–Ingersoll–Ross model of the Term Structure: Table 1, 10.1093/rfs/5.4.613
  32. Christiano Lawrence J., A method for estimating the timing interval in a linear econometric model, with an application to Taylor's model of staggered contracts, 10.1016/0165-1889(85)90012-0
  33. Christiano Lawrence J., Eichenbaum Martin, Temporal aggregation and structural inference in macroeconomics, 10.1016/0167-2231(87)90022-4
  34. Culver Walter J., On the Existence and Uniqueness of the Real Logarithm of a Matrix, 10.2307/2036109
  35. Duffie Darrell, Glynn Peter, Estimation of Continuous-Time Markov Processes Sampled at Random Time Intervals, 10.1111/j.1468-0262.2004.00553.x
  36. Engel Charles, Mark Nelson C., West Kenneth D., Rogoff Kenneth, Rossi Barbara, Exchange Rate Models Are Not as Bad as You Think [with Comments and Discussion], 10.1086/ma.22.25554969
  37. Ercolani, Econometric Theory, 25, 1112 (2009)
  38. Erickson R. V., Constant Coefficient Linear Differential Equations Driven by White Noise, 10.1214/aoms/1177693440
  39. Evans Martin D. D., Lyons Richard K., Order Flow and Exchange Rate Dynamics, 10.1086/324391
  40. Franchi Massimo, THE INTEGRATION ORDER OF VECTOR AUTOREGRESSIVE PROCESSES, 10.1017/s0266466607070259
  41. Geweke John, Temporal Aggregation in the Multiple Regression Model, 10.2307/1914238
  42. Hansen Lars Peter, Sargent Thomas J., The Dimensionality of the Aliasing Problem in Models with Rational Spectral Densities, 10.2307/1911996
  43. Hansen, Rational Expectations Econometrics, 219 (1991)
  44. Hansen Lars Peter, Scheinkman Jose Alexandre, Back to the Future: Generating Moment Implications for Continuous-Time Markov Processes, 10.2307/2171800
  45. Hansen Lars Peter, Alexandre Scheinkman José, Touzi Nizar, Spectral methods for identifying scalar diffusions, 10.1016/s0304-4076(97)00107-3
  46. Harvey A. C., Stock James H., The Estimation of Higher-Order Continuous Time Autoregressive Models, 10.1017/s0266466600011026
  47. Harvey A.C., Stock James H., Continuous time autoregressive models with common stochastic trends, 10.1016/0165-1889(88)90046-2
  48. Harvey A.C., Stock James H., Estimating integrated higher-order continuous time autoregressions with an application to money-income causality, 10.1016/0304-4076(89)90056-0
  49. Harvey, Models, Methods and Applications of Econometrics, 55 (1993)
  50. Heaton John, The Interaction Between Time-Nonseparable Preferences and Time Aggregation, 10.2307/2951555
  51. Hille Einar, On roots and logarithms of elements of a complex Banach algebra, 10.1007/bf01350286
  52. Jordà, Macroeconomic Dynamics, 7, 618 (2003)
  53. Kessler M., Rahbek A., Identification and Inference for Multivariate Cointegrated and Ergodic Gaussian Diffusions, 10.1023/b:sisp.0000026044.28647.56
  54. Kwakernaak, Linear Optimal Control Systems (1972)
  55. Lii Keh-Shin, Masry Elias, Model fitting for continuous-time stationary processes from discrete-time data, 10.1016/0047-259x(92)90057-m
  56. Lii Keh-Shin, Masry Elias, Spectral estimation of continuous-time stationary processes from random sampling, 10.1016/0304-4149(94)90099-x
  57. Lyons, The Microstructure Approach to Exchange Rates (2001)
  58. Marcet, Rational Expectations Econometrics, 237 (1991)
  59. McCrorie J. Roderick, DERIVING THE EXACT DISCRETE ANALOG OF A CONTINUOUS TIME SYSTEM, 10.1017/s0266466600166071
  60. Roderick McCrorie J., Interpolating exogenous variables in continuous time dynamic models, 10.1016/s0165-1889(99)00061-5
  61. McCrorie J. Roderick, 10.1023/a:1021283821215
  62. McCrorie J. Roderick, 10.1023/a:1025858121378
  63. McCrorie J. Roderick, Chambers Marcus J., Granger causality and the sampling of economic processes, 10.1016/j.jeconom.2005.02.002
  64. McGarry J.S., The exact discrete time representation of a system of fourth-order differential equations, 10.1016/s0898-1221(03)90026-5
  65. Morinaga, Journal of Science of the Hiroshima University, Series A, 18, 137 (1954)
  66. Nowman K. B., Gaussian Estimation of Single-Factor Continuous Time Models of The Term Structure of Interest Rates, 10.2307/2329453
  67. Nowman, Econometric Theory, 25, 1087 (2009)
  68. Phillips P. C. B., The Structural Estimation of a Stochastic Differential Equation System, 10.2307/1913853
  69. Phillips P.C.B., The problem of identification in finite parameter continuous time models, 10.1016/0304-4076(73)90021-3
  70. Phillips P. C. B., The Estimation of Some Continuous Time Models, 10.2307/1913790
  71. Phillips, Stability and Inflation, 257 (1978)
  72. Phillips Peter C. B., The Et Interview: Professor Albert Rex Bergstrom, 10.1017/s026646660001207x
  73. Phillips P. C. B., Error Correction and Long-Run Equilibrium in Continuous Time, 10.2307/2938169
  74. Phillips, New Zealand Economic Papers, 39, 129 (2005)
  75. Phillips Peter C. B., Yu Jun, Jackknifing Bond Option Prices, 10.1093/rfs/hhi018
  76. Phillips, Handbook of Financial Time Series (2009)
  77. Robinson, Statistical Inference in Continuous Time Economic Models, 215 (1976)
  78. Robinson Peter M., The construction and estimation of continuous time models and discrete approximations in econometrics, 10.1016/0304-4076(77)90014-8
  79. Robinson, Directions in Time Series, 263 (1980)
  80. Robinson Peter M., Continuous Time Econometric Modelling A.R. Bergstrom Oxford University Press, 1991, 10.1017/s0266466600013220
  81. Robinson, Models, Methods and Applications of Econometrics, 71 (1993)
  82. Robinson, Econometric Theory, 25, 985 (2009)
  83. Sargan, Journal of the Royal Statistical Society, Series B, 36, 74 (1974)
  84. Sims Christopher A., Discrete Approximations to Continuous Time Distributed Lags in Econometrics, 10.2307/1913265
  85. Stock] James H., Temporal aggregation and structural inference in macroeconomics a comment, 10.1016/0167-2231(87)90023-6
  86. Van Loan C., Computing integrals involving the matrix exponential, 10.1109/tac.1978.1101743
  87. Wymer C. R., Econometric Estimation of Stochastic Differential Equation Systems, 10.2307/1913185
  88. Yu Jun, Phillips Peter C. B., A Gaussian approach for continuous time models of the short-term interest rate, 10.1111/1368-423x.00063
  89. Zadrozny Peter, Gaussian Likelihood of Continuous-Time ARMAX Models When Data Are Stocks and Flows at Different Frequencies, 10.1017/s0266466600011890
  90. Zhang Lan, Mykland Per A, Aït-Sahalia Yacine, A Tale of Two Time Scales : Determining Integrated Volatility With Noisy High-Frequency Data, 10.1198/016214505000000169
  91. Zwanziger Daniel, Simple Theorem on Hermitian Matrices and an Application to the Polarization of Vector Particles, 10.1103/physrev.136.b558