A Sign Language Recognition System Using Artificial Intelligence

Conference paper

Dahiya, R., Dwivedi, N., Singh Rathore, A., Kalra, M., Chauhan, P., Ajay Kaushik and Sharma, R. 2024. A Sign Language Recognition System Using Artificial Intelligence. ISBM: World Conference on Information Systems for Business Management. Springer. https://doi.org/10.1007/978-981-99-8612-5_7
AuthorsDahiya, R., Dwivedi, N., Singh Rathore, A., Kalra, M., Chauhan, P., Ajay Kaushik and Sharma, R.
TypeConference paper
Abstract

Indian Sign Language (ISL) is a visual language used by millions of people in India to communicate. However, not everyone knows how to interpret it, which can lead to communication barriers and difficulties in various settings such as schools, hospitals, and public institutions. Therefore, we have developed a real-time method using neural networks for finger spelling based on Indian Sign Language. The developed system uses computer vision and deep learning techniques to recognize ISL gestures in real time and convert them into text to facilitate communication. This project has been developed using Yolov5, using the YOLOv5 algorithm for object detection and recognition. OpenCV, an open-source computer vision library, is used for pre-processing and image-processing tasks such as background subtraction and hand segmentation. The custom dataset used to train the model includes a wide range of ISL gestures, including letters of the alphabet and commonly used words and phrases. The model is trained using transfer learning, in which a pre-trained model is fine-tuned on the user-defined dataset. The resulting model achieves over 95% accuracy in the test set. The developed system can recognize and render ISL gestures in real time via a webcam or other video input device.

Keywordsintelligent technologies; robotics ; Indian Sign Language (ISL)
Year2024
ConferenceISBM: World Conference on Information Systems for Business Management
JournalSmart Innovation, Systems and Technologies
PublisherSpringer
ISSN2190-3018
2190-3026
Digital Object Identifier (DOI)https://doi.org/10.1007/978-981-99-8612-5_7
Web address (URL)http://dx.doi.org/10.1007/978-981-99-8612-5_7
ISBN9789819986118
9789819986125
Output statusPublished
Publication dates27 Feb 2024
Publication process dates
Deposited10 Jul 2024
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