Litcius/Paper detail

Representation of features as images with neighborhood dependencies for compatibility with convolutional neural networks

Omid Bazgir, Ruibo Zhang, Saugato Rahman Dhruba, Raziur Rahman, Souparno Ghosh, Ranadip Pal

2020Nature Communications132 citationsDOIOpen Access PDF

Abstract

Deep learning with Convolutional Neural Networks has shown great promise in image-based classification and enhancement but is often unsuitable for predictive modeling using features without spatial correlations. We present a feature representation approach termed REFINED (REpresentation of Features as Images with NEighborhood Dependencies) to arrange high-dimensional vectors in a compact image form conducible for CNN-based deep learning. We consider the similarities between features to generate a concise feature map in the form of a two-dimensional image by minimizing the pairwise distance values following a Bayesian Metric Multidimensional Scaling Approach. We hypothesize that this approach enables embedded feature extraction and, integrated with CNN-based deep learning, can boost the predictive accuracy. We illustrate the superior predictive capabilities of the proposed framework as compared to state-of-the-art methodologies in drug sensitivity prediction scenarios using synthetic datasets, drug chemical descriptors as predictors from NCI60, and both transcriptomic information and drug descriptors as predictors from GDSC.

Topics & Concepts

Artificial intelligencePattern recognition (psychology)Computer scienceConvolutional neural networkPairwise comparisonFeature extractionDeep learningFeature learningMetric (unit)Feature (linguistics)Artificial neural networkRepresentation (politics)Feature vectorContextual image classificationMachine learningBayesian probabilityBayesian networkSegmentationEuclidean distanceImage (mathematics)Multidimensional scalingDeep neural networksSpatial analysisExternal Data RepresentationPrior informationData miningImage segmentationSensitivity (control systems)ScalingVisualizationTraining setCompatibility (geochemistry)Computational Drug Discovery MethodsCell Image Analysis TechniquesMachine Learning in Bioinformatics