Rohin Garg scite author profile

Rohin Garg

3Publications

6Citation Statements Received

86Citation Statements Given

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Affiliations

Indian Institute of Technology Kanpur

Publications

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Goal-driven Command Recommendations for Analysts

Aggarwal

Garg

Sancheti³

et al. 2020

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Recent times have seen data analytics software applications become an integral part of the decision-making process of analysts. The users of these software applications generate a vast amount of unstructured log data. These logs contain clues to the user's goals, which traditional recommender systems may find difficult to model implicitly from the log data. With this assumption, we would like to assist the analytics process of a user through command recommendations. We categorize the commands into software and data categories based on their purpose to fulfill the task at hand. On the premise that the sequence of commands leading up to a data command is a good predictor of the latter, we design, develop, and validate various sequence modeling techniques. In this paper, we propose a framework to provide goal-driven data command recommendations to the user by leveraging unstructured logs. We use the log data of a web-based analytics software to train our neural network models and quantify their performance, in comparison to relevant and competitive baselines. We propose a custom loss function to tailor the recommended data commands according to the goal information provided exogenously. We also propose an evaluation metric that captures the degree of goal orientation of the recommendations. We demonstrate the promise of our approach by evaluating the models with the proposed metric and showcasing the robustness of our models in the case of adversarial examples, where the user activity is misaligned with selected goal, through offline evaluation. CCS CONCEPTS • Human-centered computing; • Computing methodologies → Neural networks; • Information systems → Recommender systems;

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IITK-RSA at SemEval-2020 Task 5: Detecting Counterfactuals

Ojha¹,

Garg²,

Gupta

et al. 2020

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This paper describes our efforts in tackling Task 5 (Yang et al., 2020) of SemEval-2020. The task involved detecting a class of textual expressions known as counterfactuals and separating them into their constituent elements. Counterfactual statements describe events that have not or could not have occurred and the possible implications of such events. While counterfactual reasoning is natural for humans, understanding these expressions is difficult for artificial agents due to a variety of linguistic subtleties. Our final submitted approaches were an ensemble of various fine-tuned transformer-based and CNN-based models for the first subtask and a transformer model with dependency tree information for the second subtask. We ranked 4 th and 9 th in the overall leaderboard. We also explored various other approaches that involved the use of classical methods, other neural architectures and the incorporation of different linguistic features.

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Overcoming Mode Collapse with Adaptive Multi Adversarial Training

Mangalam¹,

Garg²

2021

Preprint

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Generative Adversarial Networks (GANs) are a class of generative models used for various applications, but they have been known to suffer from the mode collapse problem, in which some modes of the target distribution are ignored by the generator. Investigative study using a new data generation procedure indicates that the mode collapse of the generator is driven by the discriminator's inability to maintain classification accuracy on previously seen samples, a phenomenon called Catastrophic Forgetting in continual learning. Motivated by this observation, we introduce a novel training procedure that adaptively spawns additional discriminators to remember previous modes of generation. On several datasets, we show that our training scheme can be plugged-in to existing GAN frameworks to mitigate mode collapse and improve standard metrics for GAN evaluation.

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Rohin Garg

Goal-driven Command Recommendations for Analysts

IITK-RSA at SemEval-2020 Task 5: Detecting Counterfactuals

Overcoming Mode Collapse with Adaptive Multi Adversarial Training

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