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13 results on '"Ananthanarayana, Tejaswini"'

1. SignNet: Single Channel Sign Generation using Metric Embedded Learning

Author

Ananthanarayana, Tejaswini, Chaudhary, Lipisha, and Nwogu, Ifeoma

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Artificial Intelligence
Abstract

A true interpreting agent not only understands sign language and translates to text, but also understands text and translates to signs. Much of the AI work in sign language translation to date has focused mainly on translating from signs to text. Towards the latter goal, we propose a text-to-sign translation model, SignNet, which exploits the notion of similarity (and dissimilarity) of visual signs in translating. This module presented is only one part of a dual-learning two task process involving text-to-sign (T2S) as well as sign-to-text (S2T). We currently implement SignNet as a single channel architecture so that the output of the T2S task can be fed into S2T in a continuous dual learning framework. By single channel, we refer to a single modality, the body pose joints. In this work, we present SignNet, a T2S task using a novel metric embedding learning process, to preserve the distances between sign embeddings relative to their dissimilarity. We also describe how to choose positive and negative examples of signs for similarity testing. From our analysis, we observe that metric embedding learning-based model perform significantly better than the other models with traditional losses, when evaluated using BLEU scores. In the task of gloss to pose, SignNet performed as well as its state-of-the-art (SoTA) counterparts and outperformed them in the task of text to pose, by showing noteworthy enhancements in BLEU 1 - BLEU 4 scores (BLEU 1: 31->39; ~26% improvement and BLEU 4: 10.43->11.84; ~14\% improvement) when tested on the popular RWTH PHOENIX-Weather-2014T benchmark dataset, Comment: 9 pages, 4 figures, 4 tables - IEEE Face and Gestures, 2023

Published
2022

3. SignNet II: A Transformer-Based Two-Way Sign Language Translation Model

Author

Chaudhary, Lipisha, Ananthanarayana, Tejaswini, Hoq, Enjamamul, and Nwogu, Ifeoma

Abstract

The role of a sign interpreting agent is to bridge the communication gap between the hearing-only and Deaf or Hard of Hearing communities by translating both from sign language to text and from text to sign language. Until now, much of the AI work in automated sign language processing has focused primarily on sign language to text translation, which puts the advantage mainly on the side of hearing individuals. In this article, we describe advances in sign language processing based on transformer networks. Specifically, we introduce SignNet II, a sign language processing architecture, a promising step towards facilitating two-way sign language communication. It is comprised of sign-to-text and text-to-sign networks jointly trained using a dual learning mechanism. Furthermore, by exploiting the notion of sign similarity, a metric embedding learning process is introduced to enhance the text-to-sign translation performance. Using a bank of multi-feature transformers, we analyzed several input feature representations and discovered that keypoint-based pose features consistently performed well, irrespective of the quality of the input videos. We demonstrated that the two jointly trained networks outperformed their singly-trained counterparts, showing noteworthy enhancements in BLEU-1 - BLEU-4 scores when tested on the largest available German Sign Language (GSL) benchmark dataset.

Published
2023
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6. Deep Learning Methods for Sign Language Translation

Author

Ananthanarayana, Tejaswini, primary, Srivastava, Priyanshu, additional, Chintha, Akash, additional, Santha, Akhil, additional, Landy, Brian, additional, Panaro, Joseph, additional, Webster, Andre, additional, Kotecha, Nikunj, additional, Sah, Shagan, additional, Sarchet, Thomastine, additional, Ptucha, Raymond, additional, and Nwogu, Ifeoma, additional

Published
2021
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10. Large Scale Sign Language Interpretation

Author

Yuan, Tiantian, primary, Sah, Shagan, additional, Ananthanarayana, Tejaswini, additional, Zhang, Chi, additional, Bhat, Aneesh, additional, Gandhi, Sahaj, additional, and Ptucha, Raymond, additional

Published
2019
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13. A Comprehensive Approach to Automated Sign Language Translation

Author

Ananthanarayana, Tejaswini

Subjects
None provided
Abstract

Many sign languages are bonafide natural languages with grammatical rules and lexicons, hence can benefit from neural machine translation methods. As significant advances are being made in natural language processing (specifically neural machine translation) and in computer vision processes, specifically image and video captioning, related methods can be further researched to boost automated sign language understanding. This is an especially challenging AI research area due to the involvement of a continuous visual-spatial modality, where meaning is often derived from context. To this end, this thesis is focused on the study and development of new computational methods and training mechanisms to enhance sign language translation in two directions, signs to texts and texts to signs. This work introduces a new, realistic phrase-level American Sign Language dataset (ASL/ ASLing), and investigates the role of different types of visual features (CNN embeddings, human body keypoints, and optical flow vectors) in translating ASL to spoken American English. Additionally, the research considers the role of multiple features for improved translation, via various fusion architectures. As an added benefit, with continuous sign language being challenging to segment, this work also explores the use of overlapping scaled visual segments, across the video, for simultaneously segmenting and translating signs. Finally, a quintessential interpreting agent not only understands sign language and translates to text, but also understands the text and translates to signs. Hence, to facilitate two-way sign language communication, i.e. visual sign to spoken language translation and spoken to visual sign language translation, a dual neural machine translation model, SignNet, is presented. Various training paradigms are investigated for improved translation, using SignNet. By exploiting the notion of similarity (and dissimilarity) of visual signs, a metric embedding learning process proved most useful in training SignNet. The resulting processes outperformed their state-of-the-art counterparts by showing noteworthy improvements in BLEU 1 - BLEU 4 scores.

Published
2021

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