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A Signer Independent Sign Language Recognition with Co-articulation Elimination from Live Videos: An Indian Scenario

Publication Type : Journal Article

Publisher : Science direct

Source : Journal of King SaudUniversity - Computer and Information Sciences, Volume 34, Issue 3, Pages 771-781, 2022. (IF: 9.006, Q1, SCIE)

Url : https://www.sciencedirect.com/science/article/pii/S131915781831228X

Campus : Coimbatore

School : School of Computing

Year : 2022

Abstract : Due to the high population of hearing impaired and vocal disabled people in India, a sign language interpretation system is becoming highly important for minimizing their isolation in society. This paper proposes a signer independent novel vision-based gesture recognition system which is capable of recognizing single handed static and dynamic gestures, double-handed static gestures and finger spelling words of Indian Sign Language (ISL) from live video. The use of Zernike moments for key frame extraction reduces the computation speed to a large extent. It also proposes an improved method for co-articulation elimination in fingerspelling alphabets. The gesture recognition module comprises mainly three steps – Preprocessing, Feature Extraction, and Classification. In the preprocessing phase, the signs are extracted from a real-time video using skin color segmentation. An appropriate feature vector is extracted from the gesture sequence after co-articulation elimination phase. The obtained features are then used for classification using Support Vector Machine(SVM). The system successfully recognized finger spelling alphabets with 91% accuracy and single-handed dynamic words with 89% accuracy. The experimental results show that the system has a better recognition rate compared to some of the existing methods.

Cite this Research Publication : P.K. Athira, C.J. Sruthi*, A. Lijiya, “A Signer Independent Sign Language Recognition with Co-articulation Elimination from Live Videos: An Indian Scenario,” Journal of King SaudUniversity - Computer and Information Sciences, Volume 34, Issue 3, Pages 771-781, 2022. (IF: 9.006, Q1, SCIE)

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