期刊文献+

Self-Switching Classification Framework for Titled Documents

Self-Switching Classification Framework for Titled Documents
原文传递
导出
摘要 Ambiguous words refer to words that have multiple meanings such as apple, window. In text classification they are usually removed by feature reduction methods like Information Gain. Sometimes there are too many ambiguous words in the corpus, which makes throwing away all of them not a viable option, as in the case when classifying documents from the Web. In this paper we look for a method to classify Titled documents with the help of ambiguous words. Titled documents are a kind of documents that have a simple structure containing a title and an excerpt. News, messages, and paper abstracts with titles are examples of titled documents. Instead of introducing another feature reduction method, we describe a framework to make the best use of ambiguous words in the titled documents. The framework improves the performance of a traditional bag-of-words classifier with the help of a bag-of-word-pairs classifier. The framework is implemented using one of the most popular classifiers, Multinomial NaiveBayes (MNB) as an example. The experiments with three real life datasets show that in our framework the MNB model performs much better than traditional MNB classifier and a naive weighted algorithm, which simply puts more weight on words in the title. Ambiguous words refer to words that have multiple meanings such as apple, window. In text classification they are usually removed by feature reduction methods like Information Gain. Sometimes there are too many ambiguous words in the corpus, which makes throwing away all of them not a viable option, as in the case when classifying documents from the Web. In this paper we look for a method to classify Titled documents with the help of ambiguous words. Titled documents are a kind of documents that have a simple structure containing a title and an excerpt. News, messages, and paper abstracts with titles are examples of titled documents. Instead of introducing another feature reduction method, we describe a framework to make the best use of ambiguous words in the titled documents. The framework improves the performance of a traditional bag-of-words classifier with the help of a bag-of-word-pairs classifier. The framework is implemented using one of the most popular classifiers, Multinomial NaiveBayes (MNB) as an example. The experiments with three real life datasets show that in our framework the MNB model performs much better than traditional MNB classifier and a naive weighted algorithm, which simply puts more weight on words in the title.
出处 《Journal of Computer Science & Technology》 SCIE EI CSCD 2009年第4期615-625,共11页 计算机科学技术学报(英文版)
基金 supported by the National Natural Science Foundation of China under Grant Nos.60833003 and 60773156
关键词 text analysis machine learning Web text analysis text analysis, machine learning, Web text analysis
  • 相关文献

参考文献18

  • 1McCallum A, Nigam K. A comparison of event models for naive Bayes text classification. In Proc. AAAI Workshop on Learning for Text Categorization, Madison, Wisconsin, USA, July 26-27, 1998, pp.41-48.
  • 2Joachims T. Text categorization with support vector machines: Learning with many relevant features. In Proc. 10th Euro. Conf. Machine Learning, Chemnitz, Germany, April 21-23, 1998, pp.137-142.
  • 3Keerthi S, Shevade S, Bhattacharyya C, Murthy K. Improvements to Platt's SMO algorithm for SVM classifier design. Neural Computation, 2001, 13:637 -649.
  • 4Caropreso M, Matwin S, Sebastiani F. A Learner Independent Evaluation of the Usefulness of Statistical Phrases for Automated Text Categorization. Text Databases and Document Management: Theory and Practice, IGI Publishing, 2001, pp.78-102.
  • 5Larkey S. Automatic essay grading using text categorization techniques. In Proc. the 21st Int. ACM. SIG Conf. Info. Retrieval, Melbourne, Australia, August 24-28, 1998, pp.90- 95.
  • 6Sebastiani F. Machine learning in automated text categorization. ACM Comput. Surv., 2002, 34(1): 1-47.
  • 7Jin R, Hauptmann A G, Zhai C. Title language model for information retrieval. In Proc. the 25th Int. ACM SIG. Conf. Info. Retrieval, Tampere, Finland, 2002, pp.42- 48.
  • 8Clark J, Koprinska I, Poon J. A neural network based approach to automated e-mail classification. In Proc. Int. Conf. IEEE/WIC, Halifax, Canada, October 13-16, 2003, pp.702- 705.
  • 9Schutze H, Hull D, Pedersen J. A comparison of classifiers and document representations for the routing problem. In Proc. the 18th Int. ACM SIG. Conf. Info. Retrieval, Seat- tle, Washington, USA, July 9-13, 1995, pp.229-237.
  • 10Tzeras K, Hartmann S. Automatic indexing based on Bayesian inference networks. In Proc. the 16th Int. ACM SIG Conf. Info. Retrieval, Pittsburgh, USA, June 27-July 1, 1993, pp.22 34.

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部