Suchendra M. Bhandarkar scite author profile

From scientific research to commercial applications, eye tracking is an important tool across many domains. Despite its range of applications, eye tracking has yet to become a pervasive technology. We believe that we can put the power of eye tracking in everyone's palm by building eye tracking software that works on commodity hardware such as mobile phones and tablets, without the need for additional sensors or devices. We tackle this problem by introducing GazeCapture, the first large-scale dataset for eye tracking, containing data from over 1450 people consisting of almost 2.5M frames. Using GazeCapture, we train iTracker, a convolutional neural network for eye tracking, which achieves a significant reduction in error over previous approaches while running in real time (10-15fps) on a modern mobile device. Our model achieves a prediction error of 1.71cm and 2.53cm without calibration on mobile phones and tablets respectively. With calibration, this is reduced to 1.34cm and 2.12cm. Further, we demonstrate that the features learned by iTracker generalize well to other datasets, achieving state-of-the-art results. The code, data, and models are available at http://gazecapture.csail.mit.edu.

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Image segmentation using evolutionary computation

Bhandarkar

Zhang²

1999

IEEE Trans. Evol. Computat.

161

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A Comparison of Deep Learning Methods for Semantic Segmentation of Coral Reef Survey Images

King¹,

Bhandarkar²,

Hopkinson

2018

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CATALOG: a system for detection and rendering of internal log defects using computer tomography

Bhandarkar

Faust

Tang

1999

Machine Vision and Applications

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DepthNet: A Recurrent Neural Network Architecture for Monocular Depth Prediction

Kumar

Bhandarkar

Prasad

2018

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An edge detection technique using genetic algorithm-based optimization

Bhandarkar

Zhang

Potter

1994

Pattern Recognition

116

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Automated classification of three-dimensional reconstructions of coral reefs using convolutional neural networks

et al. 2020

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Coral reefs are biologically diverse and structurally complex ecosystems, which have been severally affected by human actions. Consequently, there is a need for rapid ecological assessment of coral reefs, but current approaches require time consuming manual analysis, either during a dive survey or on images collected during a survey. Reef structural complexity is essential for ecological function but is challenging to measure and often relegated to simple metrics such as rugosity. Recent advances in computer vision and machine learning offer the potential to alleviate some of these limitations. We developed an approach to automatically classify 3D reconstructions of reef sections and assessed the accuracy of this approach. 3D reconstructions of reef sections were generated using commercial Structurefrom-Motion software with images extracted from video surveys. To generate a 3D classified map, locations on the 3D reconstruction were mapped back into the original images to extract multiple views of the location. Several approaches were tested to merge information from multiple views of a point into a single classification, all of which used convolutional neural networks to classify or extract features from the images, but differ in the strategy employed for merging information. Approaches to merging information entailed voting, probability averaging, and a learned neural-network layer. All approaches performed similarly achieving overall classification accuracies of~96% and >90% accuracy on most classes. With this high classification accuracy, these approaches are suitable for many ecological applications.

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Multiscale image segmentation using a hierarchical self-organizing map

1997

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