Please use this identifier to cite or link to this item: http://hdl.handle.net/10263/7097
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dc.contributor.authorSadhukhan, Payel-
dc.date.accessioned2020-12-22T07:53:14Z-
dc.date.available2020-12-22T07:53:14Z-
dc.date.issued2020-07-
dc.identifier.citation154p.en_US
dc.identifier.urihttp://hdl.handle.net/10263/7097-
dc.descriptionThesis is under the supervision of Prof. Sarbani Paliten_US
dc.description.abstractClassification of objects is a basic chore of machine intelligence. Over the years, a number of classifiers from different genres have been developed by the machine learning community. To increase the pertinence of machine learning algorithms in human lives, we have to work on the interface of algorithm design and its utility. Traditional classifiers are designed on the basis of a number of assumptions like i] well-balanced class cardinalities, ii] membership of an instance to more than one overlapping classes, iii] an equal number of classes in the training and test phase and more. A classifier fails to perform optimally or meaningfully or both, whenever there is a breach of one or more of these assumptions. Interestingly, datasets from a number of real-world domains have shown to possess many of these. This dissertation is motivated to address the three above-mentioned assumptions and accomplish purposeful learning of the data. Class imbalance is the quantitative disproportion between the cardinalities of some or all classes of a dataset. For a two-class scenario, the class with a significantly higher number of instances is termed as the majority class whereas the other is the minority class. While training a traditional classifier with class-imbalanced data, usually the classifier is found to get biased towards the quantitatively abundant class. In one of our work, we handle the class imbalance problem by estimating the minority set and consequently adding synthetic minority points from the estimated set to decrease the difference in cardinality. Multi-label nature, the membership of a feature vector to two or more labels is another addition in recent years. Though the instance set (feature values) is the same across all labels, the positive and negative class partition varies from label to label. Extraction of a label-specific feature set is an efficacious solution to this problem. This is the motivation of the second work of this thesis. Furthermore, the multi-label datasets suffer from the problem of class-imbalance. The degree of class-imbalance varies from label to label which further aggravates the problem. In the third work of this thesis, we have addressed the class imbalance aspect of multi-label datasets. Lastly, we handle open set classification. In open set classification, we have to correctly classify the instances belonging to the known class (seen during) besides detecting the instances belonging to the unknown class (class unseen during training). On encountering such a problem, extant classifiers classify the unknown class instances into one of the training classes, which it should not. We propose a a scheme where our classifier rejects a test instance as unknown besides the usual known class classifications (and the two happen simultaneously, as a consequence of the scheme itself).en_US
dc.language.isoenen_US
dc.publisherIndian Statistical Institute, Kolkataen_US
dc.relation.ispartofseriesISI Ph. D Thesis;TH474-
dc.subjectClassificationen_US
dc.subjectClass-imbalanceen_US
dc.subjectOpen set classificationen_US
dc.subjectReverse nearest neighborhooden_US
dc.titleDealing with classification irregularities in real-world scenariosen_US
dc.typeThesisen_US
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