Litcius/Paper detail

Efficient deep learning models based on tension techniques for sign language recognition

Nehal F. Attia, Mohamed T. Faheem Said Ahmed, Mahmoud A. M. Alshewimy

2023Intelligent Systems with Applications26 citationsDOIOpen Access PDF

Abstract

Communication by speaking prevails among the various ways of self-expression and communication between people. Speech presents a significant challenge for some disabled people, such as deaf people, deaf and hard of hearing, dumb and wordless persons. Therefore, these people rely on sign language to interact with others. Sign language is a system of movements and visual messages that ensure the integration of these individuals into groups that communicate vocally. On the other side, it is necessary to understand these individuals' gestures and linguistic semantics. The main objective of this work is to establish a new model that enhances the performance of the existing paradigms used for sign language recognition. This study developed three improved deep-learning models based on YOLOv5x and attention methods for recognizing the alphabetic and numeric information hand gestures convey. These models were evaluated using the MU HandImages ASL and OkkhorNama: BdSL datasets. The proposed models exceed those found in the literature, where the accuracy reached 98.9% and 97.6% with the MU HandImages ASL dataset and the OkkhorNama: BdSL dataset, respectively. The proposed models are light and fast enough to be used in real-time ASL recognition and to be deployed on any edge-based platform.

Topics & Concepts

Sign languageGestureComputer scienceSign (mathematics)Semantics (computer science)American Sign LanguageGesture recognitionSpeech recognitionNatural language processingVariation (astronomy)Artificial intelligenceHuman–computer interactionLinguisticsAstrophysicsProgramming languageMathematicsPhysicsPhilosophyMathematical analysisHand Gesture Recognition SystemsHearing Impairment and CommunicationGait Recognition and Analysis