HaCk: Hand Gesture Classification Using a Convolutional Neural Network and Generative Adversarial Network-Based Data Generation Model

Chatterjee, Kalyan; Raju, M.; Selvamuthukumaran, N.; Pramod, M.; Krishna Kumar, B.; Bandyopadhyay, Anjan; Mallik, Saurav

doi:10.3390/info15020085

Cited by 3 publications

References 34 publications

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Bearing fault diagnosis method based on improved DenseNet with small samples

Song,

Liu,

et al. 2024

Third International Conference on Electronic Information Engineering and Data Processing (EIEDP 2024)

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Solving the small sample problem can not only save data acquisition costs, but also enhance the model's generalization ability to unknown data, thereby ensuring the accuracy and reliability of fault diagnosis results. Therefore, this paper proposes a small-sample bearing fault diagnosis method that combines the ECA attention mechanism and the DenseNet network (ECA-DenseNet). First, the two-dimensional DenseNet network and ECA attention mechanism are converted into one-dimensional networks to reduce computational complexity and information loss. Secondly, the size and position of the convolutional layer in the network are improved and adjusted, and the 1D-ECA module is introduced into the DenseNet model. Finally, we use the original signal as the input of ECA-DenseNet. After feature recognition, the network classifier completes fault feature classification. We verified the effect of the proposed model under different working conditions on the laboratory PT500 bearing data set, and compared it with other diagnostic models. Experimental results show that the proposed method has high fault identification accuracy and generalization ability under small sample conditions.

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Bearing fault diagnosis method based on improved DenseNet with small samples

Song,

Liu,

et al. 2024

Third International Conference on Electronic Information Engineering and Data Processing (EIEDP 2024)

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User Experience and Usability of Voice User Interfaces: A Systematic Literature Review

Deshmukh,

Chalmeta

2024

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As voice user interfaces (VUIs) rapidly transform the landscape of human–computer interaction, their potential to revolutionize user engagement is becoming increasingly evident. This paper aims to advance the field of human–computer interaction by conducting a bibliometric analysis of the user experience associated with VUIs. It proposes a classification framework comprising six research categories to systematically organize the existing literature, analyzes the primary research streams, and identifies future research directions within each category. This systematic literature review provides a comprehensive analysis of the development and effectiveness of VUIs in facilitating natural human–machine interaction. It offers critical insights into the user experience of VUIs, contributing to the refinement of VUI design to optimize overall user interaction and satisfaction.

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Multimodal Human–Robot Interaction Using Gestures and Speech: A Case Study for Printed Circuit Board Manufacturing

Salinas-Martínez,

Cunillé-Rodríguez,

Aquino-López

et al. 2024

JMMP

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In recent years, technologies for human–robot interaction (HRI) have undergone substantial advancements, facilitating more intuitive, secure, and efficient collaborations between humans and machines. This paper presents a decentralized HRI platform, specifically designed for printed circuit board manufacturing. The proposal incorporates many input devices, including gesture recognition via Leap Motion and Tap Strap, and speech recognition. The gesture recognition system achieved an average accuracy of 95.42% and 97.58% for each device, respectively. The speech control system, called Cellya, exhibited a markedly reduced Word Error Rate of 22.22% and a Character Error Rate of 11.90%. Furthermore, a scalable user management framework, the decentralized multimodal control server, employs biometric security to facilitate the efficient handling of multiple users, regulating permissions and control privileges. The platform’s flexibility and real-time responsiveness are achieved through advanced sensor integration and signal processing techniques, which facilitate intelligent decision-making and enable accurate manipulation of manufacturing cells. The results demonstrate the system’s potential to improve operational efficiency and adaptability in smart manufacturing environments.

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HaCk: Hand Gesture Classification Using a Convolutional Neural Network and Generative Adversarial Network-Based Data Generation Model

Cited by 3 publications

References 34 publications

Bearing fault diagnosis method based on improved DenseNet with small samples

Bearing fault diagnosis method based on improved DenseNet with small samples

User Experience and Usability of Voice User Interfaces: A Systematic Literature Review

Multimodal Human–Robot Interaction Using Gestures and Speech: A Case Study for Printed Circuit Board Manufacturing

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