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Intelligent assistant to predict and control the home appliances in user environment through brain computer interface using hybrid deep learning model

Dr. V. Mohanraj,* Dr. J. NITHYASHRI, Dr. V. Priyanka Brahmaiah, Dr. A.Shankar, Srithar S, Mr. David Samuel Azariya.

Abstract
Brain Computer Interface (BCI) is the fast-growing research area that focuses on establishing the symbiotic relation
between human brain and artificial intelligence. BCI enable the users to directly communicate with a computer by
means of brain activity. Disability of a person due to medical issues such as spinal cord injury or cervical issues makes
him/her to depend on caretakers for operating the home appliances. With the advancements in BCI technology,
disabled people can control the home appliances through their brain activity without depending on caretaker. The
existing models have accessibility challenges for the disabled people in two aspects Viz. accuracy and interaction time.
The lack of high prediction accuracy as well as longer interaction time makes the existing models ineffective for the
usage. To address the issues, hybridized deep learning model comprising Stacked Denoising Autoencoders and Extreme
Machine learning is proposed and examined in this research. The proposed model acquires and preprocess the brain
data of user and predicts the user intention with the improved accuracy. The proposed model is compared with
different existing models investigated in the literature. The proposed approach achieves the maximum testing accuracy
of 91.8% with 70% of training (10,500 Sample) and 30% of test validation (4,500 Sample) on the brain data of single user
and takes interaction time of 0.48 seconds. The evaluation results of model validate the effectiveness of the proposed
methodology.

Key words: Brain Computer Interface; Controlling Home Appliance; Extreme Machine Learning, Stacked Denoising Autoencoders;


 
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How to Cite this Article
Pubmed Style

Dr. V. Mohanraj, Dr. J. NITHYASHRI, Dr. V. Priyanka Brahmaiah, Dr. A.Shankar, Srithar S, Mr. David Samuel Azariya. Intelligent assistant to predict and control the home appliances in user environment through brain computer interface using hybrid deep learning model . J Complement Med Res. 2023; 14(2): 150-156. doi:10.5455/jcmr.2023.14.02.23

Web Style

Dr. V. Mohanraj, Dr. J. NITHYASHRI, Dr. V. Priyanka Brahmaiah, Dr. A.Shankar, Srithar S, Mr. David Samuel Azariya. Intelligent assistant to predict and control the home appliances in user environment through brain computer interface using hybrid deep learning model . https://www.jocmr.com/?mno=149285 [Access: May 26, 2023]. doi:10.5455/jcmr.2023.14.02.23

AMA (American Medical Association) Style

Dr. V. Mohanraj, Dr. J. NITHYASHRI, Dr. V. Priyanka Brahmaiah, Dr. A.Shankar, Srithar S, Mr. David Samuel Azariya. Intelligent assistant to predict and control the home appliances in user environment through brain computer interface using hybrid deep learning model . J Complement Med Res. 2023; 14(2): 150-156. doi:10.5455/jcmr.2023.14.02.23


Vancouver/ICMJE Style

Dr. V. Mohanraj, Dr. J. NITHYASHRI, Dr. V. Priyanka Brahmaiah, Dr. A.Shankar, Srithar S, Mr. David Samuel Azariya. Intelligent assistant to predict and control the home appliances in user environment through brain computer interface using hybrid deep learning model . J Complement Med Res. (2023), [cited May 26, 2023]; 14(2): 150-156. doi:10.5455/jcmr.2023.14.02.23


Harvard Style

Dr. V. Mohanraj, Dr. J. NITHYASHRI, Dr. V. Priyanka Brahmaiah, Dr. A.Shankar, Srithar S, Mr. David Samuel Azariya (2023) Intelligent assistant to predict and control the home appliances in user environment through brain computer interface using hybrid deep learning model . J Complement Med Res, 14 (2), 150-156. doi:10.5455/jcmr.2023.14.02.23


Turabian Style

Dr. V. Mohanraj, Dr. J. NITHYASHRI, Dr. V. Priyanka Brahmaiah, Dr. A.Shankar, Srithar S, Mr. David Samuel Azariya. 2023. Intelligent assistant to predict and control the home appliances in user environment through brain computer interface using hybrid deep learning model . Journal of Complementary Medicine Research, 14 (2), 150-156. doi:10.5455/jcmr.2023.14.02.23


Chicago Style

Dr. V. Mohanraj, Dr. J. NITHYASHRI, Dr. V. Priyanka Brahmaiah, Dr. A.Shankar, Srithar S, Mr. David Samuel Azariya. "Intelligent assistant to predict and control the home appliances in user environment through brain computer interface using hybrid deep learning model ." Journal of Complementary Medicine Research 14 (2023), 150-156. doi:10.5455/jcmr.2023.14.02.23


MLA (The Modern Language Association) Style

Dr. V. Mohanraj, Dr. J. NITHYASHRI, Dr. V. Priyanka Brahmaiah, Dr. A.Shankar, Srithar S, Mr. David Samuel Azariya. "Intelligent assistant to predict and control the home appliances in user environment through brain computer interface using hybrid deep learning model ." Journal of Complementary Medicine Research 14.2 (2023), 150-156. Print. doi:10.5455/jcmr.2023.14.02.23


APA (American Psychological Association) Style

Dr. V. Mohanraj, Dr. J. NITHYASHRI, Dr. V. Priyanka Brahmaiah, Dr. A.Shankar, Srithar S, Mr. David Samuel Azariya (2023) Intelligent assistant to predict and control the home appliances in user environment through brain computer interface using hybrid deep learning model . Journal of Complementary Medicine Research, 14 (2), 150-156. doi:10.5455/jcmr.2023.14.02.23


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