An exploratory simulation study and prediction model on human brain behavior and activity using an integration of deep neural network and biosensor Rabi antenna
The plasmonic antenna probe is constructed using a silver rod embedded in a modified Mach-Zehnder interferometer (MZI) ad-drop filter. Rabi antennas are formed when space-time control reaches two levels of system oscillation and can be used as human brain sensor probes. Photonic neural networks are...
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Online Access: | http://eprints.utm.my/107547/1/MuhammadArifJalil2023_AnExploratorySimulationStudyAndPredictionModel.pdf http://eprints.utm.my/107547/ http://dx.doi.org/10.1016/j.heliyon.2023.e15749 |
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my.utm.1075472024-09-23T04:56:31Z http://eprints.utm.my/107547/ An exploratory simulation study and prediction model on human brain behavior and activity using an integration of deep neural network and biosensor Rabi antenna Pham, Nhat Truong Bunruangses, Montree Youplao, Phichai Garhwal, Anita Ray, Kanad Roy, Arup Boonkirdram, Sarawoot Yupapin, Preecha Jalil, Muhammad Arif Ali, Jalil Kaiser, Shamim Mahmud, Mufti Mallik, Saurav Zhao, Zhongming QC Physics The plasmonic antenna probe is constructed using a silver rod embedded in a modified Mach-Zehnder interferometer (MZI) ad-drop filter. Rabi antennas are formed when space-time control reaches two levels of system oscillation and can be used as human brain sensor probes. Photonic neural networks are designed using brain-Rabi antenna communication, and transmissions are connected via neurons. Communication signals are carried by electron spin (up and down) and adjustable Rabi frequency. Hidden variables and deep brain signals can be obtained by external detection. A Rabi antenna has been developed by simulation using computer simulation technology (CST) software. Additionally, a communication device has been developed that uses the Optiwave program with Finite-Difference Time-Domain (OptiFDTD). The output signal is plotted using the MATLAB program with the parameters of the OptiFDTD simulation results. The proposed antenna oscillates in the frequency range of 192 THz to 202 THz with a maximum gain of 22.4 dBi. The sensitivity of the sensor is calculated along with the result of electron spin and applied to form a human brain connection. Moreover, intelligent machine learning algorithms are proposed to identify high-quality transmissions and predict the behavior of transmissions in the near future. During the process, a root mean square error (RMSE) of 2.3332(±0.2338) was obtained. Finally, it can be said that our proposed model can efficiently predict human mind, thoughts, behavior as well as action/reaction, which can be greatly helpful in the diagnosis of various neuro-degenerative/psychological diseases (such as Alzheimer's, dementia, etc.) and for security purposes. Elsevier Ltd 2023 Article PeerReviewed application/pdf en http://eprints.utm.my/107547/1/MuhammadArifJalil2023_AnExploratorySimulationStudyAndPredictionModel.pdf Pham, Nhat Truong and Bunruangses, Montree and Youplao, Phichai and Garhwal, Anita and Ray, Kanad and Roy, Arup and Boonkirdram, Sarawoot and Yupapin, Preecha and Jalil, Muhammad Arif and Ali, Jalil and Kaiser, Shamim and Mahmud, Mufti and Mallik, Saurav and Zhao, Zhongming (2023) An exploratory simulation study and prediction model on human brain behavior and activity using an integration of deep neural network and biosensor Rabi antenna. Heliyon, 9 (5). pp. 1-12. ISSN 2405-8440 http://dx.doi.org/10.1016/j.heliyon.2023.e15749 DOI : 10.1016/j.heliyon.2023.e15749 |
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QC Physics Pham, Nhat Truong Bunruangses, Montree Youplao, Phichai Garhwal, Anita Ray, Kanad Roy, Arup Boonkirdram, Sarawoot Yupapin, Preecha Jalil, Muhammad Arif Ali, Jalil Kaiser, Shamim Mahmud, Mufti Mallik, Saurav Zhao, Zhongming An exploratory simulation study and prediction model on human brain behavior and activity using an integration of deep neural network and biosensor Rabi antenna |
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The plasmonic antenna probe is constructed using a silver rod embedded in a modified Mach-Zehnder interferometer (MZI) ad-drop filter. Rabi antennas are formed when space-time control reaches two levels of system oscillation and can be used as human brain sensor probes. Photonic neural networks are designed using brain-Rabi antenna communication, and transmissions are connected via neurons. Communication signals are carried by electron spin (up and down) and adjustable Rabi frequency. Hidden variables and deep brain signals can be obtained by external detection. A Rabi antenna has been developed by simulation using computer simulation technology (CST) software. Additionally, a communication device has been developed that uses the Optiwave program with Finite-Difference Time-Domain (OptiFDTD). The output signal is plotted using the MATLAB program with the parameters of the OptiFDTD simulation results. The proposed antenna oscillates in the frequency range of 192 THz to 202 THz with a maximum gain of 22.4 dBi. The sensitivity of the sensor is calculated along with the result of electron spin and applied to form a human brain connection. Moreover, intelligent machine learning algorithms are proposed to identify high-quality transmissions and predict the behavior of transmissions in the near future. During the process, a root mean square error (RMSE) of 2.3332(±0.2338) was obtained. Finally, it can be said that our proposed model can efficiently predict human mind, thoughts, behavior as well as action/reaction, which can be greatly helpful in the diagnosis of various neuro-degenerative/psychological diseases (such as Alzheimer's, dementia, etc.) and for security purposes. |
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Pham, Nhat Truong Bunruangses, Montree Youplao, Phichai Garhwal, Anita Ray, Kanad Roy, Arup Boonkirdram, Sarawoot Yupapin, Preecha Jalil, Muhammad Arif Ali, Jalil Kaiser, Shamim Mahmud, Mufti Mallik, Saurav Zhao, Zhongming |
author_facet |
Pham, Nhat Truong Bunruangses, Montree Youplao, Phichai Garhwal, Anita Ray, Kanad Roy, Arup Boonkirdram, Sarawoot Yupapin, Preecha Jalil, Muhammad Arif Ali, Jalil Kaiser, Shamim Mahmud, Mufti Mallik, Saurav Zhao, Zhongming |
author_sort |
Pham, Nhat Truong |
title |
An exploratory simulation study and prediction model on human brain behavior and activity using an integration of deep neural network and biosensor Rabi antenna |
title_short |
An exploratory simulation study and prediction model on human brain behavior and activity using an integration of deep neural network and biosensor Rabi antenna |
title_full |
An exploratory simulation study and prediction model on human brain behavior and activity using an integration of deep neural network and biosensor Rabi antenna |
title_fullStr |
An exploratory simulation study and prediction model on human brain behavior and activity using an integration of deep neural network and biosensor Rabi antenna |
title_full_unstemmed |
An exploratory simulation study and prediction model on human brain behavior and activity using an integration of deep neural network and biosensor Rabi antenna |
title_sort |
exploratory simulation study and prediction model on human brain behavior and activity using an integration of deep neural network and biosensor rabi antenna |
publisher |
Elsevier Ltd |
publishDate |
2023 |
url |
http://eprints.utm.my/107547/1/MuhammadArifJalil2023_AnExploratorySimulationStudyAndPredictionModel.pdf http://eprints.utm.my/107547/ http://dx.doi.org/10.1016/j.heliyon.2023.e15749 |
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13.211869 |