Vinod K Kurmi scite author profile

In this paper, we aim to solve for unsupervised domain adaptation of classifiers where we have access to label information for the source domain while these are not available for a target domain. While various methods have been proposed for solving these including adversarial discriminator based methods, most approaches have focused on the entire image based domain adaptation. In an image, there would be regions that can be adapted better, for instance, the foreground object may be similar in nature. To obtain such regions, we propose methods that consider the probabilistic certainty estimate of various regions and specify focus on these during classification for adaptation. We observe that just by incorporating the probabilistic certainty of the discriminator while training the classifier, we are able to obtain state of the art results on various datasets as compared against all the recent methods. We provide a thorough empirical analysis of the method by providing ablation analysis, statistical significance test, and visualization of the attention maps and t-SNE embeddings. These evaluations convincingly demonstrate the effectiveness of the proposed approach.

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Domain Impression: A Source Data Free Domain Adaptation Method

Kurmi

Subramanian

Namboodiri

2021

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Looking back at Labels: A Class based Domain Adaptation Technique

Kurmi

Namboodiri

2019

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In this paper, we solve the problem of adapting classifiers across domains. We consider the problem of domain adaptation for multi-class classification where we are provided a labeled set of examples in a source dataset and we are provided a target dataset with no supervision. In this setting, we propose an adversarial discriminator based approach. While the approach based on adversarial discriminator has been previously proposed; in this paper, we present an informed adversarial discriminator. Our observation relies on the analysis that shows that if the discriminator has access to all the information available including the class structure present in the source dataset, then it can guide the transformation of features of the target set of classes to a more structure adapted space. Using this formulation, we obtain state-of-the-art results for the standard evaluation on benchmark datasets. We further provide detailed analysis which shows that using all the labeled information results in an improved domain adaptation.

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Multimodal Differential Network for Visual Question Generation

Patro¹,

Kumar²,

Kurmi³

et al. 2018

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Generating natural questions from an image is a semantic task that requires using vision and language modalities to learn multimodal representations. Images can have multiple visual and language cues such as places, captions, and tags. In this paper, we propose a principled deep Bayesian learning framework that combines these cues to produce natural questions. We observe that with the addition of more cues and by minimizing uncertainty in the among cues, the Bayesian network becomes more confident. We propose a Minimizing Uncertainty of Mixture of Cues (MUMC), that minimizes uncertainty present in a mixture of cues experts for generating probabilistic questions. This is a Bayesian framework and the results show a remarkable similarity to natural questions as validated by a human study. We observe that with the addition of more cues and by minimizing uncertainty among the cues, the Bayesian framework becomes more confident. Ablation studies of our model indicate that a subset of cues is inferior at this task and hence the principled fusion of cues is preferred. Further, we observe that the proposed approach substantially improves over state-of-the-art benchmarks on the quantitative metrics (BLEU-n, METEOR, ROUGE, and CIDEr). Here we provide project link for Deep Bayesian VQG https: //delta-lab-iitk.github.io/BVQG/.

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Deep Bayesian Network for Visual Question Generation

Patro

Kurmi

Kumar

et al. 2020

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Data Uncertainty Guided Noise-aware Preprocessing Of Fingerprints

Joshi

Utkarsh²,

Kothari³

et al. 2021

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Do not Forget to Attend to Uncertainty while Mitigating Catastrophic Forgetting

Kurmi

Patro

Subramanian

et al. 2021

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One of the major limitations of deep learning models is that they face catastrophic forgetting in an incremental learning scenario. There have been several approaches proposed to tackle the problem of incremental learning. Most of these methods are based on knowledge distillation and do not adequately utilize the information provided by older task models, such as uncertainty estimation in predictions. The predictive uncertainty provides the distributional information can be applied to mitigate catastrophic forgetting in a deep learning framework. In the proposed work, we consider a Bayesian formulation to obtain the data and model uncertainties. We also incorporate selfattention framework to address the incremental learning problem. We define distillation losses in terms of aleatoric uncertainty and self-attention. In the proposed work, we investigate different ablation analyses on these losses. Furthermore, we are able to obtain better results in terms of accuracy on standard benchmarks.

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Occlusion Resistant Network for 3D Face Reconstruction

Tiwari

Kurmi

Venkatesh

et al. 2022

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Vinod K Kurmi

Attending to Discriminative Certainty for Domain Adaptation

Domain Impression: A Source Data Free Domain Adaptation Method

Looking back at Labels: A Class based Domain Adaptation Technique

Multimodal Differential Network for Visual Question Generation

Deep Bayesian Network for Visual Question Generation

Data Uncertainty Guided Noise-aware Preprocessing Of Fingerprints

Do not Forget to Attend to Uncertainty while Mitigating Catastrophic Forgetting

Occlusion Resistant Network for 3D Face Reconstruction

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