Papers
Topics
Authors
Recent
2000 character limit reached

Feature Selection Library (MATLAB Toolbox) (1607.01327v8)

Published 5 Jul 2016 in cs.CV

Abstract: The Feature Selection Library (FSLib) introduces a comprehensive suite of feature selection (FS) algorithms for MATLAB, aimed at improving machine learning and data mining tasks. FSLib encompasses filter, embedded, and wrapper methods to cater to diverse FS requirements. Filter methods focus on the inherent characteristics of features, embedded methods incorporate FS within model training, and wrapper methods assess features through model performance metrics. By enabling effective feature selection, FSLib addresses the curse of dimensionality, reduces computational load, and enhances model generalizability. The elimination of redundant features through FSLib streamlines the training process, improving efficiency and scalability. This facilitates faster model development and boosts key performance indicators such as accuracy, precision, and recall by focusing on vital features. Moreover, FSLib contributes to data interpretability by revealing important features, aiding in pattern recognition and understanding. Overall, FSLib provides a versatile framework that not only simplifies feature selection but also significantly benefits the machine learning and data mining ecosystem by offering a wide range of algorithms, reducing dimensionality, accelerating model training, improving model outcomes, and enhancing data insights.

Definition Search Book Streamline Icon: https://streamlinehq.com
References (48)
  1. The visual object tracking VOT2016 challenge results. In Hua and Jégou [11], pages 777–823.
  2. Object tracking via dynamic feature selection processes. arXiv preprint arXiv:1609.01958, 2016.
  3. Online feature selection for visual tracking. In In Conf. The British Machine Vision Conference (BMVC), September 2016.
  4. Regular patterns in nonverbal communication”. Multimodal Behavior Analysis in the Wild: Advances and Challenges, page 269, 2018.
  5. Reading between the turns: Statistical modeling for identity recognition and verification in chats. In Advanced Video and Signal Based Surveillance (AVSS), 2013 10th IEEE International Conference on, pages 99–104, Aug 2013.
  6. Trusting Skype: Learning the way people chat for fast user recognition and verification. In Proceeedings of the IEEE Conference on Computer Vision Workshops, pages 748–754, 2013.
  7. Conversationally-inspired stylometric features for authorship attribution in instant messaging. In Proceedings of the ACM International Conference on Multimedia, pages 1121–1124, 2012.
  8. Proceedings of the Workshop on Human Behavior Understanding, chapter Just the Way You Chat: Linking Personality, Style and Recognizability in Chats, pages 30–41. Springer Verlag, 2014.
  9. Statistical analysis of personality and identity in chats using a keylogging platform. In Proceedings of the International Conference on Multimodal Interaction, pages 224–231, 2014.
  10. G. Roffo and A. Vinciarelli. Personality in computational advertising: A benchmark. In Proceedings of ACM RecSys - International Workshop on Emotions and Personality in Personalized Systems, Sept 2016.
  11. Gang Hua and Hervé Jégou, editors. Computer Vision - ECCV 2016 Workshops - Amsterdam, The Netherlands, October 8-10 and 15-16, 2016, Proceedings, Part II, volume 9914 of Lecture Notes in Computer Science, 2016.
  12. Isabelle Guyon. Feature extraction: foundations and applications, volume 207. Springer Science & Business Media, 2006.
  13. Gene selection for cancer classification using support vector machines. Mach. Learn., 46(1-3):389–422, 2002.
  14. Feature selection via concave minimization and support vector machines. In ICML, pages 82–90. Morgan Kaufmann, 1998.
  15. Svm based feature selection: Why are we using the dual? In IBERAMIA, pages 413–422, 2010.
  16. Robust feature selection using distributions of mutual information. In UAI, pages 577–584, 2002.
  17. H. Liu and H. Motoda, editors. Computational Methods of Feature Selection. Chapman & Hall, 2008.
  18. Stable gene selection from microarray data via sample weighting. IEEE/ACM TCBB, 9(1):262–272, 2012.
  19. Generalized fisher score for feature selection. CoRR, abs/1202.3725, 2012.
  20. Infinite feature selection. In IEEE International Conference on Computer Vision, ICCV, pages 4202–4210, 2015.
  21. G. Roffo and S. Melzi. Features selection via eigenvector centrality. In Proceedings of New Frontiers in Mining Complex Patterns (NFMCP 2016), Oct 2016.
  22. Cvpr 2019 outstanding reviewers.
  23. Models of incremental concept formation. Artif. Intell., 40(1-3):11–61, 1989.
  24. Giorgio Roffo. Feature selection library for classification: An overview.
  25. Infinite latent feature selection: A probabilistic latent graph-based ranking approach. In Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pages 1398–1406, 2017.
  26. Giorgio Roffo. Feature selection library a widely applicable matlab library for feature selection.
  27. Infinite feature selection on shore-based biomarkers reveals connectivity modulation after stroke. In 2016 International Workshop on Pattern Recognition in Neuroimaging (PRNI), pages 1–4. IEEE, 2016.
  28. Laplacian score for feature selection. In Advances in Neural Information Processing Systems 18, 2005.
  29. J. Guo and W. Zhu. Dependence guided unsupervised feature selection. In Proc. AAAI Conf. Artificial Intell. (AAAI), pages 2232–2239, New Orleans, Louisiana, Feb. 2018.
  30. Unsupervised feature selection with adaptive structure learning. In Proceedings of the 21th ACM SIGKDD international conference on knowledge discovery and data mining, pages 209–218. ACM, 2015.
  31. Computational methods of feature selection. CRC Press, 2007.
  32. Ranking to Learn: Feature Ranking and Selection via Eigenvector centrality, pages 19–35. 2017.
  33. Feature selection and kernel learning for local learning-based clustering. IEEE Transactions on Pattern Analysis and Machine Intelligence, 33(8):1532–1547, 2011.
  34. Unsupervised feature selection for multi-cluster data. In Proceedings of the 16th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining, pages 333–342, 2010.
  35. L2,1-norm regularized discriminative feature selection for unsupervised learning. In In Conf. International Joint Conference on Artificial Intelligence, pages 1589–1594, 2011.
  36. Unsupervised feature selection with ordinal locality. In Multimedia and Expo (ICME), 2017 IEEE International Conference on, pages 1213–1218. IEEE, 2017.
  37. Infinite feature selection. In Proceedings of the IEEE International Conference on Computer Vision, pages 4202–4210, 2015.
  38. Feature selection based on mutual information: criteria of max-dependency, max-relevance, and min-redundancy. IEEE TPAMI, 27:1226–1238, 2005.
  39. Infinite feature selection: a graph-based feature filtering approach. IEEE Transactions on Pattern Analysis and Machine Intelligence (TPAMI), 2020.
  40. Automating the administration and analysis of psychiatric tests: The case of attachment in school age children. In ACM CHI Conference on Human Factors in Computing Systems, 2019. Oral presentation, Top 1% Computer Science - Scimago Journal & Country Rank.
  41. We are less free than how we think: Regular patterns in nonverbal communication. Academic Press, 2019.
  42. G. Roffo and S. Melzi. Feature selection via eigenvector centrality. In ECML/PKDD - New Frontiers in Mining Complex Patterns (NFMCP), 2016. Oral presentation.
  43. Infinite latent feature selection: A probabilistic latent graph-based ranking approach. In IEEE International Conference on Computer Vision (ICCV), 2017. Top 1% Computer Science - Scimago Journal & Country Rank.
  44. Discrete time evolution process descriptor for shape analysis and matching. ACM Transactions on Graphics (TOG), 2018. Top 1% Computer Science - Scimago Journal & Country Rank.
  45. Depression speaks: Automatic discrimination between depressed and non-depressed speakers based on nonverbal speech features. In International Conference on Acoustics, Speech and Signal Processing (ICASSP), 2018.
  46. G. Roffo and S. Melzi. Online feature selection for visual tracking. In The British Machine Vision Conference (BMVC), 2016.
  47. Type like a man! inferring gender from keystroke dynamics in live-chats. IEEE Intelligent Systems, 2019. Affective Computing and Sentiment Analysis Department.
  48. G. Roffo et al. The visual object tracking vot2016 challenge results. In IEEE European Conference on Computer Vision Workshops (ECCV), 2016.
Citations (81)
View on Semantic Scholar

Summary

We haven't generated a summary for this paper yet.

Ai Sparkles Streamline Icon: https://streamlinehq.com Summarize Now

Whiteboard

Open Problems

We haven't generated a list of open problems mentioned in this paper yet.

Ai Sparkles Streamline Icon: https://streamlinehq.com Generate Now

Continue Learning

We haven't generated follow-up questions for this paper yet.

Ai Sparkles Streamline Icon: https://streamlinehq.com Generate Now

Authors (1)

  1. Giorgio Roffo

Collections

Sign up for free to add this paper to one or more collections.

User Circle Single Streamline Icon: https://streamlinehq.com Sign Up