A multi-scale fusion CNN model based on adaptive transfer learning for multi-class MI-classification in BCI system

Roy, Arunabha M.

doi:10.1101/2022.03.17.481909

Cited by 10 publications

(4 citation statements)

References 80 publications

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“…It can be used with more automation for ease of the process. Furthermore, the current approach can be extended to various other deep learning applications such as Computer vision [41,42,43], object detection [44,45,46], signal classification [47,48,49,50,51], and different physics-based surrogate models [52,53,54,55,56].…”

Section: Discussionmentioning

confidence: 99%

Efficient Paddy Grains Quality Assessment Approach Utilizing Affordable Sensors

Kumar,

Singh,

Raj

et al. 2023

Preprint

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In the realm of computer vision, paddy (Oryza Sativa) plays a pivotal role as a globally consumed staple crop. Its cultivation, harvesting, processing, and storage involve intricate quality control. Numerous factors, including weather conditions and irrigation frequency, influence grain quality. To address this, we present an innovative approach that combines image processing and machine learning (ML). Existing methods for rice grain quality assessment, while valuable, are tailored to rice-specific characteristics, employing complex and costly setups and opaque ML models. Our research overcomes these limitations with a robust ML-based IoT system for paddy grain quality assessment, using affordable sensors, a comprehensive data collection process, and an ML-driven image processing model. Importantly, our approach utilizes interpretable features like Shape, Size, Moisture, and Maturity for paddy grain classification. Rigorous real-world testing confirms its precision, marking it as the first automated system capable of providing a reliable overall quality metric. Our system’s unique feature lies in its transparency, with clear features and fuzzy rules, inspiring confidence and trust. While our experiments primarily feature Indian Subcontinent grain varieties, the system’s adaptability to diverse paddy types is evident, contributing significantly to computer vision.

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Section: Discussionmentioning

confidence: 99%

Efficient Paddy Grains Quality Assessment Approach Utilizing Affordable Sensors

Kumar,

Singh,

Raj

et al. 2023

Preprint

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“…Deep learning (DL) has been very successful in a range of different data domains including image classification [4,5,6,45,8,30,31,32,9,27,40,45,42], audio [1,29,2,3], text [11,12], computer vision [10,34,47], object detection [33,26,28], object segmentation [43,44,45,46],brain-computer interface [35,37,36], and across diverse scientific disciplines [39,38]. Intellectual Disability (ID) with DL has rarely been discussed and ID became a rising problem in modern society.…”

Section: Introductionmentioning

confidence: 99%

Understanding EEG signals for subject-wise Definition of Armoni Activities

Kumar,

Raj,

Singh

et al. 2023

Preprint

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In a growing world of technology, psychological disorders became a challenge to be solved. The methods used for cognitive stimulation are very conventional and based on one-way communication, which only rely on the material or method used for training of an individual. It doesn’t use any kind of feedback from the individual to analyze the progress of the training process. We have proposed a closed-loop methodology to improve the cognitive state of a person with ID (Intellectual disability). We have used a platform named ‘Armoni’, for providing training to the intellectually disabled individuals. The learning is performed in a closed-loop by using feedback in the form of change in affective state. For feedback to the Armoni, an EEG (Electroencephalograph) headband is used. All the changes in EEG are observed and classified against the change in the mean and standard deviation value of all frequency bands of signal. This comparison is being helpful in defining every activity with respect to change in brain signals. In this paper, we have discussed the process of treatment of EEG signal and its definition against the different activities of Armoni. We have tested it on 6 different systems with different age groups and cognitive levels.

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“…Deep learning (DL) has shown significant performance gain in image classification [1][2][3][4][5][6][7], computer vision and object detection [8][9][10], text classification [11][12][13][14] audio classification [15][16][17][18], brain-computer interface [19][20][21], biomedical applications [22][23][24][25][26][27][28], and various future computational aspects [29,30]. The state-of-the-art DL methods heavily depend on correctly labeled data.…”

Section: Introductionmentioning

confidence: 99%

Introducing Urdu Digits Dataset with Demonstration of an Efficient and Robust Noisy Decoder-Based Pseudo Example Generator

et al. 2022

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In the present work, we propose a novel method utilizing only a decoder for generation of pseudo-examples, which has shown great success in image classification tasks. The proposed method is particularly constructive when the data are in a limited quantity used for semi-supervised learning (SSL) or few-shot learning (FSL). While most of the previous works have used an autoencoder to improve the classification performance for SSL, using a single autoencoder may generate confusing pseudo-examples that could degrade the classifier’s performance. On the other hand, various models that utilize encoder–decoder architecture for sample generation can significantly increase computational overhead. To address the issues mentioned above, we propose an efficient means of generating pseudo-examples by using only the generator (decoder) network separately for each class that has shown to be effective for both SSL and FSL. In our approach, the decoder is trained for each class sample using random noise, and multiple samples are generated using the trained decoder. Our generator-based approach outperforms previous state-of-the-art SSL and FSL approaches. In addition, we released the Urdu digits dataset consisting of 10,000 images, including 8000 training and 2000 test images collected through three different methods for purposes of diversity. Furthermore, we explored the effectiveness of our proposed method on the Urdu digits dataset by using both SSL and FSL, which demonstrated improvement of 3.04% and 1.50% in terms of average accuracy, respectively, illustrating the superiority of the proposed method compared to the current state-of-the-art models.

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A multi-scale fusion CNN model based on adaptive transfer learning for multi-class MI-classification in BCI system

Cited by 10 publications

References 80 publications

Efficient Paddy Grains Quality Assessment Approach Utilizing Affordable Sensors

Efficient Paddy Grains Quality Assessment Approach Utilizing Affordable Sensors

Understanding EEG signals for subject-wise Definition of Armoni Activities

Introducing Urdu Digits Dataset with Demonstration of an Efficient and Robust Noisy Decoder-Based Pseudo Example Generator

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