Litcius/Paper detail

ArabSign: A Multi-modality Dataset and Benchmark for Continuous Arabic Sign Language Recognition

Hamzah Luqman

202321 citationsDOI

Abstract

Sign language recognition has attracted the interest of researchers in recent years. While numerous approaches have been proposed for European and Asian sign languages recognition, very limited attempts have been made to develop similar systems for the Arabic sign language (ArSL). This can be attributed partly to the lack of a dataset at the sentence level. In this paper, we aim to make a significant contribution by proposing ArabSign, a continuous ArSL dataset. The proposed dataset consists of 9,335 samples performed by 6 signers. The total time of the recorded sentences is around 10 hours and the average sentence's length is 3.1 signs. ArabSign dataset was recorded using a Kinect V2 camera that provides three types of information (color, depth, and skeleton joint points) recorded simultaneously for each sentence. In addition, we provide the annotation of the dataset according to ArSL and Arabic language structures that can help in studying the linguistic characteristics of ArSL. To benchmark this dataset, we propose an encoder-decoder model for Continuous ArSL recognition. The model has been evaluated on the proposed dataset, and the obtained results show that the encoder-decoder model outperformed the attention mechanism with an average word error rate (WER) of 0.50 compared with 0.62 with the attention mechanism. The data and code are available at https://github.com/Hamzah-Luqman/rabSign

Topics & Concepts

Computer scienceSign languageBenchmark (surveying)SentenceNatural language processingWord error rateArtificial intelligenceEncoderAnnotationWord (group theory)Modality (human–computer interaction)Sign (mathematics)Code (set theory)Speech recognitionArabicPattern recognition (psychology)LinguisticsMathematicsPhilosophySet (abstract data type)Operating systemGeographyMathematical analysisGeodesyProgramming languageHand Gesture Recognition SystemsHearing Impairment and CommunicationGait Recognition and Analysis