An Ensemble-Based Incremental Learning Approach to Data Fusion

Parikh, Devi; Polikar, Robi

doi:10.1109/tsmcb.2006.883873

Cited by 98 publications

(46 citation statements)

References 75 publications

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“…Behavioral performance was calculated as the percentage of presented stimuli that the subject correctly identified as targets or non-targets. Additionally, the two fusion approaches (and in particular the decision-level fusion, in agreement with [28]) provided an increase, albeit small, in the generalizing ability of the classifiers, as measured by a decrement in the accuracy standard deviation.…”

Section: Resultssupporting

confidence: 52%

Functional Near-Infrared Spectroscopy and Electroencephalography: A Multimodal Imaging Approach

Merzagora

İzzetoğlu

Polikar

et al. 2009

Foundations of Augmented Cognition. Neuroergonomics and Operational Neuroscience

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Abstract. Although neuroimaging has greatly expanded our knowledge about the brain-behavior relation, combining multiple neuroimaging modalities with complementing strengths can overcome some limitations encountered when using a single modality. Valuable candidates for a multimodal approach are functional near-infrared spectroscopy (fNIRS) and electroencephalography (EEG). fNIRS is an imaging technology that localizes hemodynamic changes within the cortex. However, hemodynamic activation is an intrinsically slow process. On the other hand, EEG has excellent time resolution by directly measuring the manifestation of the brain electrical activity at the scalp. Based on their complementary strengths, the integration of fNIRS and EEG may provide higher spatiotemporal resolution than either method alone. In this effort, we integrate fNIRS and EEG to evaluate the behavioral performance of six healthy adults in a working memory task. To this end, features extracted from fNIRS and EEG were used separately, as well as in combination, and their performances were compared against each other.

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Section: Resultssupporting

confidence: 52%

Functional Near-Infrared Spectroscopy and Electroencephalography: A Multimodal Imaging Approach

Merzagora

İzzetoğlu

Polikar

et al. 2009

Foundations of Augmented Cognition. Neuroergonomics and Operational Neuroscience

Self Cite

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“…Data integration is an important aspect of bioinformatics and the subject of much recent research (Yu et al, 2010;Vaske et al, 2010;Mostafavi & Morris, 2012). It is expected that various data sources are complementary and that high accuracy of predictions can be achieved through data fusion (Parikh & Polikar, 2007;Pandey et al, 2010;Savage et al, 2010;Xing & Dunson, 2011). We studied the fusion of eleven di↵erent data sources to predict gene function in the social amoeba Dictyostelium discoideum and report on the cross-validated accuracy for 148 gene annotation terms (classes).…”

Section: Methodsmentioning

confidence: 99%

Data Fusion by Matrix Factorization

Žitnik

Zupan

2015

IEEE Trans. Pattern Anal. Mach. Intell.

194

210

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For most problems in science and engineering we can obtain data that describe the system from various perspectives and record the behaviour of its individual components. Heterogeneous data sources can be collectively mined by data fusion. Fusion can focus on a specific target relation and exploit directly associated data together with data on the context or additional constraints. In the paper we describe a data fusion approach with penalized matrix tri-factorization that simultaneously factorizes data matrices to reveal hidden associations. The approach can directly consider any data sets that can be expressed in a matrix, including those from attribute-based representations, ontologies, associations and networks. We demonstrate its utility on a gene function prediction problem in a case study with eleven di↵erent data sources. Our fusion algorithm compares favourably to state-of-the-art multiple kernel learning and achieves higher accuracy than can be obtained from any single data source alone.

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“…This is implemented with only a simple thresholding or comparison, whereas, the classification in new method is done on the total feature space by MLPs or KNNs. As Deviparikh's definition of classifier fusion in (Parikh et al, 2007), the new proposed method cannot be a classifier fusion, too. In fact, it is a new kind of classifier ensemble.…”

Section: Proposed Methodsmentioning

confidence: 99%