Potential greenhouse gases emissions by different plant communities in maritime Antarctica

In this paper, we propose a data-free method of extracting Impressions of each class from the classifier's memory. The Deep Learning regime empowers classifiers to extract distinct patterns (or features) of a given class from training data, which is the basis on which they generalize to unseen data. Before deploying these models on critical applications, it is very useful to visualize the features considered to be important for classification. Existing visualization methods develop high confidence images consisting of both background and foreground features. This makes it hard to judge what the important features of a given class are. In this work, we propose a saliency-driven approach to visualize discriminative features that are considered most important for a given task. Another drawback of existing methods is that, confidence of the generated visualizations is increased by creating multiple instances of the given class. We restrict the algorithm to develop a single object per image, which helps further in extracting features of high confidence, and also results in better visualizations. We further demonstrate the generation of negative images as naturally fused images of two or more classes.

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Dense 3D Point Cloud Reconstruction Using a Deep Pyramid Network

Mandikal¹,

Babu²

2019

Preprint

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Attribute-Graph: A Graph based approach to Image Ranking

Prabhu¹,

Babu²

2015

Preprint

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Single-step Adversarial training with Dropout Scheduling

Vivek¹,

Babu²

2020

Preprint

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'Part'ly first among equals: Semantic part-based benchmarking for state-of-the-art object recognition systems

Sarvadevabhatla¹,

Venkatraman²,

Babu³

2016

Preprint

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Aligning Silhouette Topology for Self-Adaptive 3D Human Pose Recovery

Rakesh¹,

Kundu²,

Jampani³

et al. 2022

Preprint

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Articulation-centric 2D/3D pose supervision forms the core training objective in most existing 3D human pose estimation techniques. Except for synthetic source environments, acquiring such rich supervision for each real target domain at deployment is highly inconvenient. However, we realize that standard foreground silhouette estimation techniques (on static camera feeds) remain unaffected by domain-shifts. Motivated by this, we propose a novel target adaptation framework that relies only on silhouette supervision to adapt a source-trained model-based regressor. However, in the absence of any auxiliary cue (multi-view, depth, or 2D pose), an isolated silhouette loss fails to provide a reliable pose-specific gradient and requires to be employed in tandem with a topology-centric loss. To this end, we develop a series of convolution-friendly spatial transformations in order to disentangle a topological-skeleton representation from the raw silhouette. Such a design paves the way to devise a Chamfer-inspired spatial topological-alignment loss via distance field computation, while effectively avoiding any gradient hindering spatial-to-pointset mapping. Experimental results demonstrate our superiority against prior-arts in self-adapting a source trained model to diverse unlabeled target domains, such as a) in-the-wild datasets, b) low-resolution image domains, and c) adversarially perturbed image domains (via UAP).

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Uncertainty-Aware Adaptation for Self-Supervised 3D Human Pose Estimation

Kundu¹,

Seth²,

YM³

et al. 2022

Preprint

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R. Venkatesh Babu

DeepFix: A Fully Convolutional Neural Network for predicting Human Eye Fixations

Saliency-driven Class Impressions for Feature Visualization of Deep Neural Networks

Dense 3D Point Cloud Reconstruction Using a Deep Pyramid Network

Attribute-Graph: A Graph based approach to Image Ranking

Single-step Adversarial training with Dropout Scheduling

'Part'ly first among equals: Semantic part-based benchmarking for state-of-the-art object recognition systems

Aligning Silhouette Topology for Self-Adaptive 3D Human Pose Recovery

Uncertainty-Aware Adaptation for Self-Supervised 3D Human Pose Estimation

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