A Silent Password Recognition Framework Based on Lip Analysis

Ezz, Mohamed; Mostafa, Ayman Mohamed; Nasr, Abdurrahman A.

doi:10.1109/access.2020.2982359

Cited by 10 publications

(4 citation statements)

References 54 publications

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“…The features are passed individually into HMM to recognize the corresponding digit. The SURF, HoG, and Haar techniques are also applied for feature extraction in [10] to build the Silent password recognition framework. The model has five layers to provide Arabic digit prediction for the password matching process, and then each feature separately is fed into the HMM.…”

Section: Handcrafted Features Based Modelsmentioning

confidence: 99%

Deep Learning-Based Approach for Arabic Visual Speech Recognition

Ullah¹,

Zahid²,

Algarni³

et al. 2022

Computers, Materials &Amp; Continua

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Lip-reading technologies are rapidly progressing following the breakthrough of deep learning. It plays a vital role in its many applications, such as: human-machine communication practices or security applications. In this paper, we propose to develop an effective lip-reading recognition model for Arabic visual speech recognition by implementing deep learning algorithms. The Arabic visual datasets that have been collected contains 2400 records of Arabic digits and 960 records of Arabic phrases from 24 native speakers. The primary purpose is to provide a high-performance model in terms of enhancing the preprocessing phase. Firstly, we extract keyframes from our dataset. Secondly, we produce a Concatenated Frame Images (CFIs) that represent the utterance sequence in one single image. Finally, the VGG-19 is employed for visual features extraction in our proposed model. We have examined different keyframes: 10, 15, and 20 for comparing two types of approaches in the proposed model: (1) the VGG-19 base model and (2) VGG-19 base model with batch normalization. The results show that the second approach achieves greater accuracy: 94% for digit recognition, 97% for phrase recognition, and 93% for digits and phrases recognition in the test dataset. Therefore, our proposed model is superior to models based on CFIs input.

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Section: Handcrafted Features Based Modelsmentioning

confidence: 99%

Deep Learning-Based Approach for Arabic Visual Speech Recognition

Ullah¹,

Zahid²,

Algarni³

et al. 2022

Computers, Materials &Amp; Continua

View full text Add to dashboard Cite

show abstract

“…In addition, this technique is used for various purposes such as improving speech recognition where there is a lot of noise [3], security systems [4], forensic investigations [5], and others. Petar S. Aleksic describes the exploration of changes in visual features extracted from the mouth region to obtain visual feature information that can improve the performance of speech recognition systems and be more resistant to forgery attempts [6].…”

Section: A Introductionmentioning

confidence: 99%

Lip Movement Recognition using Histogram of Oriented Gradient (HOG) and Support Machine Vector (SVM) for Arabic Word

Rabbani,

Bima Sena Bayu Dewantara,

Endra Pitowarno

2024

ijcs

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This research aims to develop a lip gesture recognition system in Arabic words by utilizing Histogram of Oriented Gradient (HOG) feature extraction and Support Vector Machine (SVM) classification. The evaluation was conducted on a dataset of 1749 videos with male and female participation using Modern Standard Arabic. The 10 cross-fold validation method was used to measure the performance of the system. By applying a polynomial kernel, this study achieved an accuracy rate of 95.63%, while the word recognition rate reached 96%. These results confirm the system's ability to recognize lip movements with precision, confirming the effectiveness of the approach used in visual recognition for Arabic.

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“…This challenging task, known as Visual Speech Recognition (VSR), has been a focus of interest during the last few decades [12]. Moreover, recognising speech without the need for acoustic stream data offers a wide range of applications, such as silent speech passwords [13], visual keyword spotting [14], or the development of silent speech interfaces that would be able to improve the lives of people who experience difficulties in producing speech [15][16][17].…”

Section: Introductionmentioning

confidence: 99%

Comparing Speaker Adaptation Methods for Visual Speech Recognition for Continuous Spanish

Gimeno-Gómez

Martínez-Hinarejos

2023

Applied Sciences

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Visual speech recognition (VSR) is a challenging task that aims to interpret speech based solely on lip movements. However, although remarkable results have recently been reached in the field, this task remains an open research problem due to different challenges, such as visual ambiguities, the intra-personal variability among speakers, and the complex modeling of silence. Nonetheless, these challenges can be alleviated when the task is approached from a speaker-dependent perspective. Our work focuses on the adaptation of end-to-end VSR systems to a specific speaker. Hence, we propose two different adaptation methods based on the conventional fine-tuning technique, the so-called Adapters. We conduct a comparative study in terms of performance while considering different deployment aspects such as training time and storage cost. Results on the Spanish LIP-RTVE database show that both methods are able to obtain recognition rates comparable to the state of the art, even when only a limited amount of training data is available. Although it incurs a deterioration in performance, the Adapters-based method presents a more scalable and efficient solution, significantly reducing the training time and storage cost by up to 80%.

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A Silent Password Recognition Framework Based on Lip Analysis

Cited by 10 publications

References 54 publications

Deep Learning-Based Approach for Arabic Visual Speech Recognition

Deep Learning-Based Approach for Arabic Visual Speech Recognition

Lip Movement Recognition using Histogram of Oriented Gradient (HOG) and Support Machine Vector (SVM) for Arabic Word

Comparing Speaker Adaptation Methods for Visual Speech Recognition for Continuous Spanish

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