Abstract
Hand pose tracking is essential in sign languages. An automatic recognition of performed hand signs facilitates a number of applications, especially for people with speech impairment to communication with normal people. This framework which is called ASLNN proposes a new hand posture recognition technique for the American sign language alphabet based on the neural network which works on the geometrical feature extraction of hands. A user’s hand is captured by a three-dimensional depth-based sensor camera; consequently, the hand is segmented according to the depth analysis features. The proposed system is called depth-based geometrical sign language recognition as named DGSLR. The DGSLR adopted in easier hand segmentation approach, which is further used in segmentation applications. The proposed geometrical feature extraction framework improves the accuracy of recognition due to unchangeable features against hand orientation compared to discrete cosine transform and moment invariant. The findings of the iterations demonstrate the combination of the extracted features resulted to improved accuracy rates. Then, an artificial neural network is used to drive desired outcomes. ASLNN is proficient to hand posture recognition and provides accuracy up to 96.78% which will be discussed on the additional paper of this authors in this journal.
Highlights
Hand posture recognition is applicable to many different domains
This framework which is called ASLNN proposes a new hand posture recognition technique for the American sign language alphabet based on the neural network which works on the geometrical feature extraction of hands
The depth geometrical sign language recognition (DGSLR) adopted in easier hand segmentation approach, which is further used in segmentation applications
Summary
Even though various wearable instruments like gloves have been used recently, vision-based approaches are capable of capturing the actual hand postures without the need of a physical device. It should be noted that hand posture recognition through images and videos needs a complex process to obtain a high success rate. Colour bases recognition is problematic due to the low levels of contrast which reduces feature detection. This is prominent when multiple parts of a hand is very similar colours. For these causes, it is very challenging to Neural Computing and Applications (2021) 33:4945–4963 recognize sophisticated hand postures through the two-dimensional (2D) representation provided by image or video
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