References¶
- KR07
Taghi M Khoshgoftaar and Pierre Rebours. Improving software quality prediction by noise filtering techniques. Journal of Computer Science and Technology, 22(3):387–396, 2007.
- KZWG11
Sunghun Kim, Hongyu Zhang, Rongxin Wu, and Liang Gong. Dealing with noise in defect prediction. In 2011 33rd International Conference on Software Engineering (ICSE), 481–490. IEEE, 2011.
- LM17
Alexander Hanbo Li and Andrew Martin. Forest-type regression with general losses and robust forest. In International Conference on Machine Learning, 2091–2100. 2017.
- MVRN18
Aditya Krishna Menon, Brendan Van Rooyen, and Nagarajan Natarajan. Learning from binary labels with instance-dependent noise. Machine Learning, 107(8-10):1561–1595, 2018.
- NDRT13
Nagarajan Natarajan, Inderjit S Dhillon, Pradeep K Ravikumar, and Ambuj Tewari. Learning with noisy labels. In Advances in neural information processing systems, 1196–1204. 2013.
- SMartinezMunozSuarez18
Maryam Sabzevari, Gonzalo Martínez-Muñoz, and Alberto Suárez. A two-stage ensemble method for the detection of class-label noise. Neurocomputing, 275:2374–2383, 2018.
- SMGC14
Michael R Smith, Tony Martinez, and Christophe Giraud-Carrier. An instance level analysis of data complexity. Machine learning, 95(2):225–256, 2014.
- WCO+18
Felipe N Walmsley, George DC Cavalcanti, Dayvid VR Oliveira, Rafael MO Cruz, and Robert Sabourin. An ensemble generation method based on instance hardness. In 2018 International Joint Conference on Neural Networks (IJCNN), 1–8. IEEE, 2018.
- ZLA03
Bianca Zadrozny, John Langford, and Naoki Abe. Cost-sensitive learning by cost-proportionate example weighting. In Third IEEE international conference on data mining, 435–442. IEEE, 2003.
- ZCTP19
Zijin Zhao, Lingyang Chu, Dacheng Tao, and Jian Pei. Classification with label noise: a markov chain sampling framework. Data Mining and Knowledge Discovery, 33(5):1468–1504, 2019.