Nikhil Thorat scite author profile

We propose a simple solution to use a single Neural Machine Translation (NMT) model to translate between multiple languages. Our solution requires no changes to the model architecture from a standard NMT system but instead introduces an artificial token at the beginning of the input sentence to specify the required target language. The rest of the model, which includes an encoder, decoder and attention module, remains unchanged and is shared across all languages. Using a shared wordpiece vocabulary, our approach enables Multilingual NMT using a single model without any increase in parameters, which is significantly simpler than previous proposals for Multilingual NMT. On the WMT'14 benchmarks, a single multilingual model achieves comparable performance for English→French and surpasses state-of-the-art results for English→German. Similarly, a single multilingual model surpasses state-of-the-art results for French→English and German→English on WMT'14 and WMT'15 benchmarks, respectively. On production corpora, multilingual models of up to twelve language pairs allow for better translation of many individual pairs. In addition to improving the translation quality of language pairs that the model was trained with, our models can also learn to perform implicit bridging between language pairs never seen explicitly during training, showing that transfer learning and zero-shot translation is possible for neural translation. Finally, we show analyses that hints at a universal interlingua representation in our models and show some interesting examples when mixing languages.

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SmoothGrad: removing noise by adding noise

Smilkov¹,

Thorat²,

Kim³

et al. 2017

Preprint

501

721

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Explaining the output of a deep network remains a challenge. In the case of an image classifier, one type of explanation is to identify pixels that strongly influence the final decision. A starting point for this strategy is the gradient of the class score function with respect to the input image. This gradient can be interpreted as a sensitivity map, and there are several techniques that elaborate on this basic idea. This paper makes two contributions: it introduces SMOOTHGRAD, a simple method that can help visually sharpen gradient-based sensitivity maps, and it discusses lessons in the visualization of these maps. We publish the code for our experiments and a website with our results.

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Google's Multilingual Neural Machine Translation System: Enabling Zero-Shot Translation

Johnson¹,

Schuster²,

Le³

et al. 2016

Preprint

144

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GAN Lab: Understanding Complex Deep Generative Models using Interactive Visual Experimentation

Kahng

Thorat

Chau

et al. 2019

IEEE Trans. Visual. Comput. Graphics

137

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Recent success in deep learning has generated immense interest among practitioners and students, inspiring many to learn about this new technology. While visual and interactive approaches have been successfully developed to help people more easily learn deep learning, most existing tools focus on simpler models. In this work, we present GAN Lab, the first interactive visualization tool designed for non-experts to learn and experiment with Generative Adversarial Networks (GANs), a popular class of complex deep learning models. With GAN Lab, users can interactively train generative models and visualize the dynamic training process's intermediate results. GAN Lab tightly integrates an model overview graph that summarizes GAN's structure, and a layered distributions view that helps users interpret the interplay between submodels. GAN Lab introduces new interactive experimentation features for learning complex deep learning models, such as step-by-step training at multiple levels of abstraction for understanding intricate training dynamics. Implemented using TensorFlow.js, GAN Lab is accessible to anyone via modern web browsers, without the need for installation or specialized hardware, overcoming a major practical challenge in deploying interactive tools for deep learning.

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Improvised Surveillance System: Mask Detection, Social Distance Monitoring and Temperature Sensing

Poonkundran¹,

Patil²,

Rahate³

et al. 2022

IJRASET

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The global pandemic of Covid-19 caused by novel corona virus has severely impacted the world. About 577 million cases have been reported worldwide [7]. Wearing face masks, proper sanitization and social distancing are the safety protocols to be followed strictly during this period. In this system, we propose a system where mask detection, hand sanitization, proper social distancing and temperature of the individual will be monitored. The model will be implemented by using Socket programming, Raspberry Pi Pico/ Arduino uno, CCTV cameras. Thus, the proposed system helps the society in lowering the spread of Corona Virus.

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Nikhil Thorat

Google’s Multilingual Neural Machine Translation System: Enabling Zero-Shot Translation

SmoothGrad: removing noise by adding noise

Google's Multilingual Neural Machine Translation System: Enabling Zero-Shot Translation

GAN Lab: Understanding Complex Deep Generative Models using Interactive Visual Experimentation

Improvised Surveillance System: Mask Detection, Social Distance Monitoring and Temperature Sensing

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