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April 12, 2013 - June 15, 2026

Available Issues

April 12, 2013 - June 15, 2026

Ranking Model Averaging: Ranking Based on Model Averaging

Published Online:14 Aug 2024https://doi.org/10.1287/ijoc.2023.0257

References

  • Akaike H (1973) Information theory and an extension of the maximum likelihood principle. Second Internat. Sympos. Inform. Theory (Akademiai Kiado, Budapest), 267–281.Google Scholar
  • Ando T, Li K-C (2014) A model-averaging approach for high-dimensional regression. J. Amer. Statist. Assoc. 109(505):254–265.CrossrefGoogle Scholar
  • Ando T, Li K-C (2017) A weight-relaxed model averaging approach for high-dimensional generalized linear models. Ann. Statist. 111(516):1775–1790.Google Scholar
  • Balcan MF, Bansal N, Beygelzimer A, Coppersmith D, Langford J, Sorkin GB (2008) Robust reductions from ranking to classification. Machine Learn. 72(1–2):139–153.CrossrefGoogle Scholar
  • Bartlett PL, Jordan MI, McAuliffe JD (2006) An error bound for l1-norm support vector machine coefficients in ultra-high dimension. J. Amer. Statist. Assoc. 101(473):138–156.CrossrefGoogle Scholar
  • Bates JM, Granger CWJ (1969) The combination of forecasts. Oper. Res. Quart. 20(4):451–468.CrossrefGoogle Scholar
  • Bickel PJ, Ritov Y, Alexandre BT (2009) Submodel selection and evaluation in regression. Ann. Statist. 37(5):1705–1732.Google Scholar
  • Blanchard G, Lugosi G, Vayatis N (2003) On the rate of convergence of regularized boosting classifiers. J. Machine Learn. Res. 4:861–894.Google Scholar
  • Brefeld U, Scheffer T (2005) AUC maximizing support vector learning. Proc. ICML 2005 Workshop ROC Anal. Machine Learn (Bonn, Germany).Google Scholar
  • Breiman L, Spector P (1992) Submodel selection and evaluation in regression. The X-random case. Internat. Statist. Rev. 60(3):291–319.CrossrefGoogle Scholar
  • Buckland ST, Burnham KP, Augustin NH (1997) Model averaging and its use in economics. Biometrics 53(2):603–618.CrossrefGoogle Scholar
  • Bühlmann P, Van De Geer S (2011) Statistics for High-Dimensional Data: Methods, Theory and Applications (Springer, Berlin).CrossrefGoogle Scholar
  • Claeskens G, Hjort NL (2003) The focused information criterion. J. Amer. Statist. Assoc. 98(464):900–916.CrossrefGoogle Scholar
  • Clémençon S, Achab M (2017) Ranking data with continuous labels through oriented recursive partitions. Proc. 31st Internat. Conf. Neural Inform. Processing Systems (Curran Associates Inc., Red Hook, NY), 4603–4611.Google Scholar
  • Clémençon S, Vayatis N (2010) Overlaying classifiers: A practical approach to optimal scoring. Constructive Approximation 32(3):619–648.CrossrefGoogle Scholar
  • Clémençon S, Lugosi G, Vayatis N (2008) Ranking and empirical minimization of U-statistics. Ann. Statist. 36(2):844–874.CrossrefGoogle Scholar
  • Dickerson A, Popli GK (2016) Persistent poverty and children’s cognitive development: Evidence from the UK millennium cohort study. J. Roy. Statist. Soc. Ser. A Statist. Soc. 179(2):535–558.CrossrefGoogle Scholar
  • Fang KT, Li R, Sudjianto A (2005) Design and Modeling for Computer Experiments (CRC Press, Boca Raton, FL).CrossrefGoogle Scholar
  • Fang EX, Yang N, Liu H (2017) Testing and confidence intervals for high dimensional proportional hazards models. J. Roy. Statist. Soc. B Statist. Methodology 79(5):1415–1437.CrossrefGoogle Scholar
  • Feng Y, Liu QF (2020) Nested model averaging on solution path for high-dimensional linear regression. Stat 9(1):e317.CrossrefGoogle Scholar
  • Feng Z, He B, Xie T, Zhang X, Zong X (2024) RMA: Ranking based on model averaging. https://doi.org/10.1287/ijoc.2023.0257.cd, https://github.com/INFORMSJoC/2023.0257.Google Scholar
  • Hansen BE (2007) Least squares model averaging. Econometrica 75(4):1175–1189.CrossrefGoogle Scholar
  • Hansen BE (2014) Model averaging, asymptotic risk, and regressor groups. Quant. Econom. 5(3):495–530.CrossrefGoogle Scholar
  • Hastie T, Tibshirani R, Friedman JH (2009) The Elements of Statistical Learning: Data Mining, Inference, and Prediction (Springer, New York).CrossrefGoogle Scholar
  • He BH, Ma SG, Zhang XY, Zhu LX (2023) Rank-based greedy model averaging for high-dimensional survival data. J. Amer. Statist. Assoc. 118(544):1–13.CrossrefGoogle Scholar
  • Herbrich R, Graepel T, Obermayer K (1999) Regression models for ordinal data: A machine learning approach. Citeseer, Technische Universität, Berlin, 1–36.Google Scholar
  • Hjort NL, Claeskens G (2003) Frequentist model average estimators. J. Amer. Statist. Assoc. 98(464):879–899.CrossrefGoogle Scholar
  • Hong HG, Chen X, Kang J, Li Y (2020) Lq-norm learning for ultrahigh-dimensional survival data: An integrative framework. Statist. Sinica 30(3):1213–1233.Google Scholar
  • Javanmard A, Montanari A (2014) Confidence intervals and hypothesis testing for high-dimensional regression. J. Machine Learn. Res. 15(3):2869–2909.Google Scholar
  • Lan T, Yang W, Wang Y, Mori G (2012) Image retrieval with structured object queries using latent ranking SVM. Fitzgibbon A, Lazebnik S, Perona P, Sato Y, Schmid C, eds. Computer Vision—ECCV 2012, Lecture Notes in Computer Science, vol. 7577 (Springer, Berlin), 129–142.CrossrefGoogle Scholar
  • Lugosi G, Vayatis N (2004) On the Bayes-risk consistency of regularized boosting methods. Ann. Statist. 32(1):30–55.CrossrefGoogle Scholar
  • Mallows CL (1973) Some comments on Cp. Technometrics 15(4):661–675.Google Scholar
  • Newbold P, Granger CWJ (1974) Experience with forecasting univariate time series and the combination of forecasts. J. Roy. Statist. Soc. Ser. A Statist. Soc. 137(2):131–146.CrossrefGoogle Scholar
  • Pei C, Zhang Y, Zhang Y, Sun F, Lin X, Sun H, Wu J, Jiang P, Ge J, Ou W (2019) Personalized re-ranking for recommendation. Proc. 13th ACM Conf. Recommender Systems (Association for Computing Machinery, New York), 3–11.Google Scholar
  • Peng B, Wang L, Wu Y (2016) An error bound for l1-norm support vector machine coefficients in ultra-high dimension. J. Machine Learn. Res. 17(5):1–26.Google Scholar
  • Phillips RF (1987) Composite forecasting: An integrated approach and optimality reconsidered. J. Bus. Econom. Statist. 5(3):389–395.CrossrefGoogle Scholar
  • Rudin C (2009) The p-norm push: A simple convex ranking algorithm that concentrates at the top of the list. J. Machine Learn. Res. 10:2233–2271.Google Scholar
  • Schwarz G (1978) Estimating the dimension of a model. Ann. Statist. 6(2):461–464.CrossrefGoogle Scholar
  • Sculley D (2010) Combined regression and ranking. Proc. 16th ACM SIGKDD Internat. Conf. Knowledge Discovery Data Mining (Association for Computing Machinery, New York), 979–988.Google Scholar
  • Tsai T, Yang K, Ho TY, Jin Y (2020) Robust adversarial objects against deep learning models. Proc. AAAI Conf. Artificial Intelligence (AAAI Press, Palo Alto, CA), 954–962.Google Scholar
  • Wan ATK, Zhang XY, Zou GH (2010) Least squares model averaging by Mallows criterion. J. Econometrics 156(2):277–283.CrossrefGoogle Scholar
  • Wang H, Zou GH, Wan ATK (2012) Model averaging for varying-coefficient partially linear measurement error models. Electronic J. Statist. 6:1017–1039.CrossrefGoogle Scholar
  • Wu Q, Li H, Wang Z, Meng F, Luo B, Li W, Ngan KN (2017) Blind image quality assessment based on rank-order regularized regression. IEEE Trans. Multimedia 19(11):2490–2504.CrossrefGoogle Scholar
  • Zhang T (2004) Statistical behavior and consistency of classification methods based on convex risk minimization. Ann. Statist. 32(1):56–85.CrossrefGoogle Scholar
  • Zhang XY, Liang H (2011) Focused information criterion and model averaging for generalized additive partial linear models. Ann. Statist. 39(1):174–200.CrossrefGoogle Scholar
  • Zhang XY, Liu C-A (2023) Model averaging prediction by K-fold cross-validation. J. Econometrics 235(1):208–301.CrossrefGoogle Scholar
  • Zhang XY, Ma YY, Carroll RJ (2019) MALMEM: Model averaging in linear measurement error models. J. Roy. Statist. Soc. B Statist. Methodology 81(4):80–91.Google Scholar
  • Zhang XY, Wan ATK, Zou GH (2013) Model averaging by jackknife criterion in models with dependent data. J. Econometrics 174(2):82–94.CrossrefGoogle Scholar
  • Zhang XY, Liu HH, Wei YZ, Ma YY (2024) Prediction using many samples with models possibly containing partially shared parameters. J. Bus. Econom. Statist. 42(1):187–196.CrossrefGoogle Scholar
  • Zhang XY, Yu D, Zou GH, Liang H (2016) Optimal model averaging estimation for generalized linear models and generalized linear mixed-effects. J. Amer. Statist. Assoc. 111(516):1775–1790.CrossrefGoogle Scholar
  • Zhu L, Ouyang L, Wu F (2021) Order priority evaluation based on Kriging model under supply chain environment. IEEE Access 9:93662–93671.CrossrefGoogle Scholar
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