![[Artificial Intelligence and Statistics Logo]](/image.pl?url=http%3a%2f%2fproceedings.mlr.press%2fv38%2fassets%2fimages%2flogo-pmlr.svg&f=jpg&w=240)
[edit]
Estimating the accuracies of multiple classifiers without labeled data
Ariel Jaffe, Boaz Nadler, Yuval KlugerProceedings of the Eighteenth International Conference on Artificial Intelligence and Statistics, PMLR 38:407-415, 2015.
Abstract
In various situations one is given only the predictions of multiple classifiers over a large unlabeled test data. This scenario raises the following questions: Without any labeled data and without any a-priori knowledge about the reliability of these different classifiers, is it possible to consistently and computationally efficiently estimate their accuracies? Furthermore, also in a completely unsupervised manner, can one construct a more accurate unsupervised ensemble classifier? In this paper, focusing on the binary case, we present simple, computationally efficient algorithms to solve these questions. Furthermore, under standard classifier independence assumptions, we prove our methods are consistent and study their asymptotic error. Our approach is spectral, based on the fact that the off-diagonal entries of the classifiers’ covariance matrix and 3-d tensor are rank-one. We illustrate the competitive performance of our algorithms via extensive experiments on both artificial and real datasets.
Cite this Paper
BibTeX
@InProceedings{pmlr-v38-jaffe15, title = {{Estimating the accuracies of multiple classifiers without labeled data}}, author = {Jaffe, Ariel and Nadler, Boaz and Kluger, Yuval}, booktitle = {Proceedings of the Eighteenth International Conference on Artificial Intelligence and Statistics}, pages = {407--415}, year = {2015}, editor = {Lebanon, Guy and Vishwanathan, S. V. N.}, volume = {38}, series = {Proceedings of Machine Learning Research}, address = {San Diego, California, USA}, month = {09--12 May}, publisher = {PMLR}, pdf = {http://proceedings.mlr.press/v38/jaffe15.pdf}, url = {https://proceedings.mlr.press/v38/jaffe15.html}, abstract = {In various situations one is given only the predictions of multiple classifiers over a large unlabeled test data. This scenario raises the following questions: Without any labeled data and without any a-priori knowledge about the reliability of these different classifiers, is it possible to consistently and computationally efficiently estimate their accuracies? Furthermore, also in a completely unsupervised manner, can one construct a more accurate unsupervised ensemble classifier? In this paper, focusing on the binary case, we present simple, computationally efficient algorithms to solve these questions. Furthermore, under standard classifier independence assumptions, we prove our methods are consistent and study their asymptotic error. Our approach is spectral, based on the fact that the off-diagonal entries of the classifiers’ covariance matrix and 3-d tensor are rank-one. We illustrate the competitive performance of our algorithms via extensive experiments on both artificial and real datasets.}} Endnote
%0 Conference Paper%T Estimating the accuracies of multiple classifiers without labeled data%A Ariel Jaffe%A Boaz Nadler%A Yuval Kluger%B Proceedings of the Eighteenth International Conference on Artificial Intelligence and Statistics%C Proceedings of Machine Learning Research%D 2015%E Guy Lebanon%E S. V. N. Vishwanathan%F pmlr-v38-jaffe15%I PMLR%P 407--415%U https://proceedings.mlr.press/v38/jaffe15.html%V 38%X In various situations one is given only the predictions of multiple classifiers over a large unlabeled test data. This scenario raises the following questions: Without any labeled data and without any a-priori knowledge about the reliability of these different classifiers, is it possible to consistently and computationally efficiently estimate their accuracies? Furthermore, also in a completely unsupervised manner, can one construct a more accurate unsupervised ensemble classifier? In this paper, focusing on the binary case, we present simple, computationally efficient algorithms to solve these questions. Furthermore, under standard classifier independence assumptions, we prove our methods are consistent and study their asymptotic error. Our approach is spectral, based on the fact that the off-diagonal entries of the classifiers’ covariance matrix and 3-d tensor are rank-one. We illustrate the competitive performance of our algorithms via extensive experiments on both artificial and real datasets. RIS
TY - CPAPERTI - Estimating the accuracies of multiple classifiers without labeled dataAU - Ariel JaffeAU - Boaz NadlerAU - Yuval KlugerBT - Proceedings of the Eighteenth International Conference on Artificial Intelligence and StatisticsDA - 2015/02/21ED - Guy LebanonED - S. V. N. VishwanathanID - pmlr-v38-jaffe15PB - PMLRDP - Proceedings of Machine Learning ResearchVL - 38SP - 407EP - 415L1 - http://proceedings.mlr.press/v38/jaffe15.pdfUR - https://proceedings.mlr.press/v38/jaffe15.htmlAB - In various situations one is given only the predictions of multiple classifiers over a large unlabeled test data. This scenario raises the following questions: Without any labeled data and without any a-priori knowledge about the reliability of these different classifiers, is it possible to consistently and computationally efficiently estimate their accuracies? Furthermore, also in a completely unsupervised manner, can one construct a more accurate unsupervised ensemble classifier? In this paper, focusing on the binary case, we present simple, computationally efficient algorithms to solve these questions. Furthermore, under standard classifier independence assumptions, we prove our methods are consistent and study their asymptotic error. Our approach is spectral, based on the fact that the off-diagonal entries of the classifiers’ covariance matrix and 3-d tensor are rank-one. We illustrate the competitive performance of our algorithms via extensive experiments on both artificial and real datasets.ER - APA
Jaffe, A., Nadler, B. & Kluger, Y.. (2015). Estimating the accuracies of multiple classifiers without labeled data.Proceedings of the Eighteenth International Conference on Artificial Intelligence and Statistics, inProceedings of Machine Learning Research 38:407-415 Available from https://proceedings.mlr.press/v38/jaffe15.html.