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Articles in international journals

  1. Lindgren, G.: Some properties of a normal processes near a local maximum. Ann. Math. Statist. 41 (1970), 1870-1883.
  2. Sulg, I., Lindgren, G. & Stigsby, B.: Computer programs for statistical evaluation of data derived by manual analysis of EEG. Computer Programs in Biomedicine, 1 (1970) 77-89.
  3. Lindgren, G.: Extreme values of stationary normal processes. Z. Wahrscheinlichkeitstheorie verw. Geb. 17 (1971), 39-47.
  4. Lindgren, G.: Wave-length and amplitude in Gaussian noise. Adv. Appl. Probab. 4 (1972), 81-108.
  5. Lindgren, G.: Wave-length and amplitude for a stationary Gaussian process after a high maximum. Z. Wahrscheinlichkeitstheorie verw. Geb. 23 (1972), 293-326.
  6. Lindgren, G.: Local maxima of Gaussian fields. Ark. Matematik 10 (1972), 195-218.
  7. Lindgren, G.: Discrete wave-analysis of continuous stochastic processes. Stoch. Processes Appl. 1 (1973), 83-105.
  8. Lindgren, G.: A note on the asymptotic independence of high level crossings for dependent Gaussian processes. Ann. Probab. 2 (1974), 535-539.
  9. Lindgren, G.: Spectral moment estimation by means of level crossings. Biometrika 61 (1974), 401-418.
  10. Lindgren, G.: Prediction from a random time point. Ann.Probab. 3 (1975), 412-423.
  11. Lindgren, G., de Maré, J. & Rootzén, H.: Weak convergence of high level crossings and maxima for one or more Gaussian processes. Ann. Probab. 3 (1975), 961-978.
  12. Björnham, Å., Lindgren, G.: Frequency estimation from crossings of an observed mean level. Biometrika 63 (1976), 507-512.
  13. Lindgren, G.: Functional limits of empirical distributions in crossing theory. Stoch. Processes Appl. 5 (1977), 143-149.
  14. Leadbetter, M.R., Lindgren, G. & Rootzén, H.: Conditions for the convergence in distribution of maxima of stationary normal processes. Stoch. Processes Appl. 8 (1978), 131-139.
  15. Lindgren, G.: Markov regime models for mixed distributions and switching regressions. Scand. J. Statistics. 5 (1978), 81-91.
  16. Lindgren, G.: Wave-length and amplitude for a stationary Gaussian process after a high maximum. Matematika 10 (1978), 204-248; translation into Russian of [4].
  17. Lindgren, G.: Prediction of level crossings for normal processes containing deterministic components. Adv. Appl. Probab. 11 (1979), 93-117.
  18. Lindgren, G.: Model processes in nonlinear prediction with application to detection and alarm. Ann. Probab. 8 (1980), 775-792.
  19. Lindgren, G.: Point processes of exits by bivariate Gaussian processes and extremal theory for the -process and its concomitants. J. Multivariate Analysis 10 (1980), 181-206.
  20. Lindgren, G.: Extreme values and crossings for the chi2-process and other functions of multidimensional Gaussian processes, with reliability applications. Adv. Appl. Probab. 12 (1980), 746-774.
  21. Cuzick, J., Lindgren, G.: Frequency estimation from crossings of an unknown level. Biometrika 67 (1980), 65-72.
  22. Lindgren, G.: Discussion of D.R. Cox: Statistical analysis of time series; some recent developments. Scand. J. Statistics 8 (1981), 110-111.
  23. Lindgren, G.: Jumps and bumps on random roads. J. Sound and Vibration 78 (1981), 393-395.
  24. Lindgren, G., Rychlik, I.: Wave characteristic distributions for Gaussian waves - wave-length, amplitude and steepness. Ocean Engng. 9 (1982), 411-432.
  25. Lindgren, G.: On the shape and duration of FM-clicks. IEEE Trans. Inform. Theory IT-29 (1983), 536-543.
  26. Lindgren, G.: Use and structure of Slepian models in crossing theory. In Probability and mathematical statistics, Essays in honour of Carl-Gustav Esseen, Ed: A. Gut, L. Holst. Uppsala 1983, 95-117.
  27. Lindgren, G.: Use and structure of Slepian models for prediction and detection in crossing and extreme value theory. In Statistical Extremes and Applications, Ed: J. Tiago de Oliveira. Reidel, Dordrecht, NATO ASI Series 1984, 261-284.
  28. Lindgren, G.: A note on the extremal properties of the Morison equation. Ocean Engng. 11 (1984), 543-548.
  29. Lindgren, G.: Shape and duration of clicks in modulated FM transmission. IEEE Trans. Inform. Theory IT-30 (1984), 728-735.
  30. Lindgren, G.: Extremal ranks and transformation of variables for extremes of functions of multivariate Gaussian processestoch. Processes Appl. 17 (1984), 285-312.
  31. Lindgren, G.: Optimal prediction of level crossings in Gaussian processes and sequencesnn. Probab. 13 (1985), 804-824.
  32. Lindgren, G.: Stochastic models for material variation for prediction of fatigue life distributions. In Contributions to probability and statistics in honour of Gunnar Blom, Ed: J. Lanke, G. Lindgren. Lund 1985, 223-234.
  33. Lindgren, G.: The use of Slepian models in crossing and extreme value theory. In Probabilistic methods in mechanics of solids and structures, IUTAM Weibull Symposium Stockholm 1984, Ed: S. Eggwertz, N.J. Lind. Springer-Verlag, Berlin, 1985, 53-58.
  34. Widenheim, J., Lindgren, G., Granath, L., Birkhed, D.: Model for the study of preeruptive effect of NaF tablets on caries in permanent teeth. Community Dent. Oral. Epidemiol. 13 (1985), 86-92.
  35. Widenheim, J., Birkhed, D., Granath, L., Lindgren, G.: Preeruptive effect of NaF tablets on caries in children from 12 to 17 years of age. Community Dent. Oral. Epidemiol. 14 (1986), 1-4.
  36. Lindgren, G., Rychlik, I.: Rain flow cycle distributions for fatigue life prediction under Gaussian load processes. Fatigue Fract. Engng. Mater. Struct. 10 (1987), 251-260.
  37. Lindgren, G., Rootzén, H.: Extreme values: theory and technical applications (with discussion). Scand. J. Statistics 13 (1987), 241-279.
  38. Heijl, A., Lindgren, G. & Olsson, J.: A package for the statistical analysis of visual fields. In Doc. Ophthalmol. Proc. Ser. 49 (1987), 153-168.
  39. Heijl, A., Lindgren, G. & Olsson, J.: Reliability parameters in computerized perimetry. In Doc. Ophthalmol. Proc. Ser. 49 (1987), 593-600.
  40. Heijl, A., Lindgren, G. & Olsson, J.: Normal variability of static perimetric threshold values across the central visual field. Arch. Ophthalmol. 105 (1987), 1544-1549.
  41. Ditlevsen, O., Lindgren, G.: Empty envelope excursions in stationary Gaussian processes. J. Sound and Vibration 122 (1988), 571-587.
  42. Heijl, A., Lindgren, G. & Olsson, J.: To the editor: Perimetric threshold variability and age. Arch. Ophthalmol. 106 (1988), 450-451.
  43. Heijl, A., Lindgren, G. & Olsson, J.: To the editor: Computer assisted recognition of glaucomatous field loss. Arch. Ophthalmol. 106 (1988), 721-722.
  44. Baldetorp, B., Dalberg, M., Holst, U. & Lindgren, G.: Statistical evaluation of cell kinetic data from DNA flow cytometry (FCM) by the EM-algorithm. Cytometry 10 (1989), 695-705.
  45. Heijl, A., Lindgren, A., & Lindgren, G.: Test-retest variability in galucomatous visual fields. Am. J. Ophthalmol. 108 (1989), 130-135.
  46. Heijl, A., Lindgren, G. & Olsson, J.: The effect of perimetric experience in normal subjects. Arch. Ophthalmol. 107 (1989), 81-86.
  47. Heijl, A., Lindgren, G., Olsson, J. & Åsman, P.: Visual field interpretation with empirical probability maps. Arch. Ophthalmol. 107 (1989), 204-208.
  48. Lindgren, G.: Slepian models for chi2-processes with dependent components with application to envelope upcrossings. J. Appl. Probab. 26 (1989), 36-49.
  49. Beckman, S.I., Holst, J. & Lindgren, G.: Alarm characteristics for a flood warning system with deterministic components. J. Time Series Analysis 11 (1990), 1-18.
  50. Holst, U. & Lindgren, G.: Recursive estimation in mixture models with Markov regime. IEEE Trans. Inform. Theory, 37 (1991), 1683-1690.
  51. Lindgren, G. & Rychlik, I.: Slepian models and regression approximations in crossing and extreme value theory. Intern. Stat. Review, 59 (1991), 195-225.
  52. Heijl, A., Lindgren, G., & Olsson, J.: On weighted visual field indices. Grafe's Arch. Clin. Exp. Ophthalmology, 230 (1992), 397-398.
  53. Rychlik, I. & Lindgren, G.: CROSSREG a technique for first passage and wave density analysis. Probability in Engng. Inform. Sciences, 7 (1993), 125-148.
  54. Lindgren, G. & Eriksson, W.: Clicks in zero-crossing-detecting FM receivers - theory and experiments. Probability in the Engineering and Informational Sciences, 8 (1994), 265-285.
  55. Lindgren, G.: Discussion of S.G.Coles & J.A.Tawn: Statistical methods for multivariate extremes: an application to structural design. Appl. Statist. 43 (1994) 1-31.
  56. Holst, U., Lindgren, G., Holst, J. & Thuvesholmen, M.: Recursive estimation in switching autoregressions with a Markov regime. J. Time Series Analysis, 15 (1994), 489-506.
  57. Rychlik, I., Lindgren, G. & Lin, Y.K.: Markov based correlations of damage cycles in Gaussian and non-Gaussian loads. Probabilistic Engineering Mechanics, 10 (1995) 103-115.
  58. Jacobsson, C., Jönsson, L., Lindgren, G. & Nyberg-Werther, M.: Jet identification based on probability calculations using Bayes theorem. Physics Review D, 52 (1995) 162-174.
  59. Lindgren, G. & Rychlik, I.: How reliable are contour curves? Confidence sets for level countours. Bernoulli, 1 (1995), 301-319.
  60. Holst, U., & Lindgren, G.: Recursive estimation of parameters in Markov modulated Poisson processes. IEEE Transaction on Communications, 43 (1995), 2812-2820.
  61. Svensson, A., Holst, J., Lindquist, R. & Lindgren, G.: Optimal prediction of catastrophes in autoregressive moving-average processes. J. Time Series Analysis, 17 (1996), 511-531.
  62. Bengtsson, B., Lindgren, A., Heijl, A., Lindgren, G., Åsman, P. & Patella, M.: Perimetric probability maps to separate change caused by glaucoma from that caused by cataract. Acta Ophthamologica Scandinavica, 75 (1997) 184-188.
  63. Lindgren, G., Rychlik, I. & Prevosto, M.: The relation between wave length and wave period distributions in random Gaussian waves. J. Offshore and Polar Engineering, 8 (1998) 258-264.
  64. Lindgren, G., Rychlik, I. & Prevosto, M.: Stochastic Doppler shift and encountered wave period distributions in Gaussian Waves. Ocean Engineering, 26 (1999) 507-518.
  65. Lindgren, G.: Wave analysis by Slepian models. Probabilistic Engineering Mechanics, 15 (2000) 49-57.
  66. Lindgren, G. & Rydén, J.: Transfer-function approximations of the rainflow filter. Mechanical Systems and Signal Processing, 16 (2002) 979-989.
  67. Lindgren, G. & Broberg, K.B.: Cycle range distributions for Gaussian processes - exact and approximative results. Extremes, 7 (2004) 69 - 89.
  68. Lindgren, G.: Slepian models for the stochastic shape of individual Lagrange sea waves. Advances in Applied Probability, 38 (2006) 430 - 450.
  69. Aberg, S. and Lindgren, G.: Height distributions of stochastic Lagrange ocean waves. Probabilistic Engineering Maechanics, 23 (2008) 359-3630.
  70. Guttorp, P. and Lindgren, G.: Karl Pearson and the Scandinavian School of Statistics. International Statistical review, 77 (2009) 64-71.
  71. Lindgren, G. and Åberg, S.: First order stochastic Lagrange models for front-back asymmetric ocean waves. J. Offshore Mech. Arct. Eng. 131 (2009) 031602-1 - 031602-8.
  72. Lindgren, G.: Exact asymmetric slope distributions in stochastic Gauss-Lagrange ocean waves. Applied Ocean Research, 31 (2009) 65-73.
  73. Grage, H., Holst, J., Lindgren, G. and Saklak, M.: Level crossing prediction with neural networks. Methodol. Comput. Appl. Probab., (2009) DOI: 10/1007/s11009-009-9153-3.
  74. Lindgren, G.: Slope distributions in front-back asymmetric stochastic Lagrange time waves. Adv. Appl. Prob, 42 (2010) 489-508.
  75. Lindgren, G., Bolin, D. and Lindgren, F.: Non-traditional stochastic models for ocean waves - Lagrange models and nested SPDE models. Eur. Phys. J. Special Topics, 185 (2010) 209-224; DOI: 10.1140/epjst/e2010-01250-y.
  76. V. Ruban, ..., G. Lindgren, et al.: Rogue waves - towards a unifying concept? Discussion and debates. European Physics Journal - Special Topics, 185 (2010) 5-15.
  77. Lindgren, G. and Lindgren, F.: Stochastic asymmetry properties of 3D Gauss-Lagrange ocean waves with directional spreading. Stochastic Models, 23:3 (2011) 490-520; DOI: 10.1080/15326349.2011.593410
  78. G. Lindgren: A detailed statistical representation of the local structure of optical vortices in random wavefields. J. Opt., 14 (2012) 035704.
  79. G. Lindgren: Asymmetric waves in wave energy systems analysed by the stochastic Gauss-Lagrange wave model. Proceedings of the Estonian Academy of Sciences, 64.3 (2015) 291-296.
  80. G. Lindgren: Horseshoe-like patterns in first-order 3D random Gauss-Lagrange waves with directional spreading. Waves in Random and Complex Media, 25 (2015) 729-745.
  81. P. Guttorp & G. Lindgren: Why distinguish between Statistics and Mathematical statistics - The case of Swedish academia. International Statistical Review, 87 (2019) 110-126.
  82. G. Lindgren: Gaussian integrals and Rice series in crossing distributions - to compute the distribution of maxima and other features of Gaussian processes. Statistical Science, 34 (2019) 100-128.

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