[1] M.A. Aquino-López, M. Blaauw, J.A. Christen, and N.K. Sanderson. Bayesian analysis of 210pb dating. Journal of Agricultural, Biological, and Environmental Statistics, pages 1--17, 2018. cited By 0; Article in Press. [ bib | DOI | http ]
[2] M. Blaauw, J.A. Christen, K.D. Bennett, and P.J. Reimer. Double the dates and go for bayes — impacts of model choice, dating density and quality on chronologies. Quaternary Science Reviews, 188:58--66, 2018. cited By 0. [ bib | DOI | http ]
[3] R.A. Norton, J.A. Christen, and C. Fox. Sampling hyperparameters in hierarchical models: Improving on gibbs for high-dimensional latent fields and large datasets. Communications in Statistics: Simulation and Computation, pages 1--17, 2017. cited By 0; Article in Press. [ bib | DOI | http ]
[4] A. Palafox, M. Capistrán, and J.A. Christen. Point cloud-based scatterer approximation and affine invariant sampling in the inverse scattering problem. Mathematical Methods in the Applied Sciences, 40(9):3393--3403, 2017. cited By 0. [ bib | DOI | http ]
[5] M.L. Daza, M.A. Capistrán, J.A. Christen, and L. Guadarrama. Solution of the inverse scattering problem from inhomogeneous media using affine invariant sampling. Mathematical Methods in the Applied Sciences, 40(9):3311--3319, 2017. cited By 0. [ bib | DOI | http ]
[6] J.A. Christen, C. Fox, and M. Santana-Cibrian. Optimal direction gibbs sampler for truncated multivariate normal distributions. Communications in Statistics: Simulation and Computation, 46(4):2587--2600, 2017. cited By 0. [ bib | DOI | http ]
[7] S. Rodríguez-Narciso and J.A. Christen. Optimal sequential bayesian analysis for degradation tests. Lifetime Data Analysis, 22(3):405--428, 2016. cited By 1. [ bib | DOI | http ]
[8] J.A. Christen, B. Sansó, M. Santana-Cibrian, and J.X. Velasco-Hernández. Bayesian deconvolution of oil well test data using gaussian processes. Journal of Applied Statistics, 43(4):721--737, 2016. cited By 0. [ bib | DOI | http ]
[9] M.A. Capistran, J.A. Christen, and S. Donnet. Bayesian analysis of odes: Solver optimal accuracy and bayes factors. SIAM-ASA Journal on Uncertainty Quantification, 4(1):829--849, 2016. cited By 1. [ bib | DOI | http ]
[10] Y.E. García, J.A. Christen, and M.A. Capistrán. A bayesian outbreak detection method for influenza-like illness. BioMed Research International, 2015, 2015. cited By 0. [ bib | DOI | http ]
[11] A. Palafox, M.A. Capistrán, and J.A. Christen. Effective parameter dimension via bayesian model selection in the inverse acoustic scattering problem. Mathematical Problems in Engineering, 2014, 2014. cited By 3. [ bib | DOI | http ]
[12] D.J. Charman, D.W. Beilman, M. Blaauw, R.K. Booth, S. Brewer, F.M. Chambers, J.A. Christen, A. Gallego-Sala, S.P. Harrison, P.D.M. Hughes, S.T. Jackson, A. Korhola, D. Mauquoy, F.J.G. Mitchell, I.C. Prentice, M. Van Der Linden, F. De Vleeschouwer, Z.C. Yu, J. Alm, I.E. Bauer, Y.M.C. Corish, M. Garneau, V. Hohl, Y. Huang, E. Karofeld, G. Le Roux, J. Loisel, R. Moschen, J.E. Nichols, T.M. Nieminen, G.M. MacDonald, N.R. Phadtare, N. Rausch, U. Sillasoo, G.T. Swindles, E.-S. Tuittila, L. Ukonmaanaho, M. Väliranta, S. Van Bellen, B. Van Geel, D.H. Vitt, and Y. Zhao. Climate-related changes in peatland carbon accumulation during the last millennium. Biogeosciences, 10(2):929--944, 2013. cited By 111. [ bib | DOI | http ]
[13] M.A. Capistrán, J.A. Christen, and J.X. Velasco-Hernández. Towards uncertainty quantification and inference in the stochastic sir epidemic model. Mathematical Biosciences, 240(2):250--259, 2012. cited By 1. [ bib | DOI | http ]
[14] S. Goring, J.W. Williams, J.L. Blois, S.T. Jackson, C.J. Paciorek, R.K. Booth, J.R. Marlon, M. Blaauw, and J.A. Christen. Deposition times in the northeastern united states during the holocene: Establishing valid priors for bayesian age models. Quaternary Science Reviews, 48:54--60, 2012. cited By 30. [ bib | DOI | http ]
[15] H.T. Arita, A. Christen, P. Rodríguez, and J. Soberón. The presence-absence matrix reloaded: The use and interpretation of range-diversity plots. Global Ecology and Biogeography, 21(2):282--292, 2012. cited By 16. [ bib | DOI | http ]
[16] J.A. Christen and B. Sansó. Advances in the sequential design of computer experiments based on active learning. Communications in Statistics - Theory and Methods, 40(24):4467--4483, 2011. cited By 7. [ bib | DOI | http ]
[17] M. Blaauw and J.A. Christeny. Flexible paleoclimate age-depth models using an autoregressive gamma process. Bayesian Analysis, 6(3):457--474, 2011. cited By 677. [ bib | DOI | http ]
[18] J. Andrs Christen, F. Ruggeri, and E. Villa. Utility based maintenance analysis using a random sign censoring model. Reliability Engineering and System Safety, 96(3):425--431, 2011. cited By 9. [ bib | DOI | http ]
[19] J.A. Christen and C. Foxy. A general purpose sampling algorithm for continuous distributions (the t-walk). Bayesian Analysis, 5(2):263--282, 2010. cited By 33. [ bib | DOI | http ]
[20] M. Blaauw, K.D. Bennett, and J.A. Christen. Random walk simulations of fossil proxy data. Holocene, 20(4):645--649, 2010. cited By 25. [ bib | DOI | http ]
[21] M. Blaauw, B. Wohlfarth, J. Andrés Christen, L. Ampel, D. Veres, K.A. Hughen, F. Preusser, and A. Svensson. Were last glacial climate events simultaneous between greenland and france? a quantitative comparison using non-tuned chronologies. Journal of Quaternary Science, 25(3):387--394, 2010. cited By 49. [ bib | DOI | http ]
[22] L.A. Orawo and J.A. Christen. Bayesian sequential analysis for multiple-arm clinical trials. Statistics and Computing, 19(1):99--109, 2009. cited By 3. [ bib | DOI | http ]
[23] H.T. Arita, J.A. Christen, P. Rodríguez, and J. Soberón. Species diversity and distribution in presence-absence matrices: Mathematical relationships and biological implications. American Naturalist, 172(4):519--532, 2008. cited By 38. [ bib | DOI | http ]
[24] M. Blaauw, J.A. Christen, D. Mauquoy, J. Van Der Plicht, and K.D. Bennett. Testing the timing of radiocarbon-dated events between proxy archives. Holocene, 17(2):283--288, 2007. cited By 50. [ bib | DOI | http ]
[25] M. Blaauw, R. Bakker, J. Andrés Christen, V.A. Hall, and J. van der Plicht. A bayesian framework for age modeling of radiocarbon-dated peat deposits: Case studies from the netherlands. Radiocarbon, 49(2):357--367, 2007. cited By 37. [ bib | DOI | http ]
[26] J. Andrés Christen. Stop using 'subjective' to refer to bayesian analyses (comment on articles by berger and by goldstein). Bayesian Analysis, 1(3):421--422, 2006. cited By 1. [ bib | DOI | http ]
[27] J.K. Wathen and J.A. Christen. Implementation of backward induction for sequentially adaptive clinical trials. Journal of Computational and Graphical Statistics, 15(2):398--413, 2006. cited By 5. [ bib | DOI | http ]
[28] H. Gutiérrez-Pulido, V. Aguirre-Torres, and J.A. Christen. A bayesian approach for the determination of warranty length. Journal of Quality Technology, 38(2):180--189, 2006. cited By 8. [ bib | http ]
[29] J. Andrés Christen and C. Fox. Markov chain monte carlo using an approximation. Journal of Computational and Graphical Statistics, 14(4):795--810, 2005. cited By 89. [ bib | DOI | http ]
[30] M. Blaauw and J.A. Christen. Radiocarbon peat chronologies and environmental change. Journal of the Royal Statistical Society. Series C: Applied Statistics, 54(4):805--816, 2005. cited By 131. [ bib | DOI | http ]
[31] M. Blaauw, J.A. Christen, T.P. Cuilderson, P.J. Reimer, and T.A. Brown. The problems of radiocarbon dating [2] (multiple letters). Science, 308(5728):1551--1553, 2005. cited By 8. [ bib | DOI | http ]
[32] H. Gutiérrez-Pulido, V. Aguirre-Torres, and J.A. Christen. A practical method for obtaining prior distributions in reliability. IEEE Transactions on Reliability, 54(2):262--269, 2005. cited By 18. [ bib | DOI | http ]
[33] J.A. Argáez, J.C. Andrés, M. Nakamura, and J. Soberón. Prediction of potential areas of species distributions based on presence-only data. Environmental and Ecological Statistics, 12(1):27--44, 2005. cited By 11. [ bib | DOI | http ]
[34] A. Medrano-Soto, J.A. Christen, and J. Collado-Vides. Bclass: A bayesian approach based on mixture models for clustering and classification of heterogeneous biological data. Journal of Statistical Software, 13:1--18, 2005. cited By 1. [ bib | http ]
[35] A. Medrano-Soto, G. Moreno-Hagelsieb, P. Vinuesa, J.A. Christen, and J. Collado-Vides. Successful lateral transfer requires codon usage compatibility between foreign genes and recipient genomes. Molecular Biology and Evolution, 21(10):1884--1894, 2004. cited By 46. [ bib | DOI | http ]
[36] J.A. Christen, P. Müller, K. Wathen, and J. Wolf. Bayesian randomized clinical trials: A decision-theoretic sequential design. Canadian Journal of Statistics, 32(4):387--402, 2004. cited By 9. [ bib | DOI | http ]
[37] Y.V. Kuzmin, I.Y. Slusarenko, I. Hajdas, G. Bonani, and J.A. Christen. The comparison of14c wiggle-matching results for the 'floating' tree-ring chronology of the ulandryk-4 burial ground (altai mountains, siberia). Radiocarbon, 46(2):943--948, 2004. cited By 5. [ bib | DOI | http ]
[38] J.A. Christen and M. Nakamura. Sequential stopping rules for species accumulation. Journal of Agricultural, Biological, and Environmental Statistics, 8(2):184--195, 2003. cited By 16. [ bib | DOI | http ]
[39] I.Y. Slusarenko, J.A. Christen, L.A. Orlova, Y.V. Kuzmin, and G.S. Burr. 14c wiggle matching of the 'floating' tree-ring chronology from the altai mountains, southern siberia: The ulandryk-4 case study. Radiocarbon, 43(2 PART I):425--431, 2001. cited By 10. [ bib | http ]
[40] J.Andrés Christen, G. Ruiz, and J.-L. Torres. Respiratory sinus arrhythmia from two coupled pacemakers. BioSystems, 61(1):27--32, 2001. cited By 1. [ bib | DOI | http ]
[41] J. Andrés Christen and M. Nakamura. On the analysis of accumulation curves. Biometrics, 56(3):748--754, 2000. cited By 14. [ bib | http ]
[42] J.A. Christen and C.E. Buck. Sample selection in radiocarbon dating. Journal of the Royal Statistical Society. Series C: Applied Statistics, 47(4):543--557, 1998. cited By 12. [ bib | http ]
[43] C.E. Buck and J. Andrés Christen. A novel approach to selecting samples for radiocarbon dating. Journal of Archaeological Science, 25(4):303--310, 1998. cited By 10. [ bib | DOI | http ]
[44] J.A. Christen, J.-L. Torres, and J. Barrera. A statistical feature of genetic sequences. Biometrical Journal, 40(7):855--863, 1998. cited By 12. [ bib | DOI | http ]
[45] J.A. Christen and C.D. Litton. A bayesian approach to wiggle-matching. Journal of Archaeological Science, 22(6):719--725, 1995. cited By 33. [ bib | DOI | http ]
[46] J.A. Christen, R.S. Clymo, and C.D. Litton. A bayesian approach to the use of14c dates in the estimation of the age of peat. Radiocarbon, 37(2):431--441, 1995. cited By 30. [ bib | DOI | http ]
[47] C.E. BUCK, J.A. CHRISTEN, J.B. KENWORTHY, and C.D. LITTON. Estimating the duration of archaeological activity using 14c determinations. Oxford Journal of Archaeology, 13(2):229--240, 1994. cited By 31. [ bib | DOI | http ]
[48] J. Andrés Christen. Summarizing a set of radiocarbon determinations: A robust approach. Applied Statistics, 43:489--503, 1994. [ bib | .pdf ]

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