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Issue title: Special Issue papers on: Data Intelligence
Article type: Research Article
Authors: Borah, Bidyut Bikasha | Hazarika, Uddipana; * | Baruah, Satyabrat Malla Bujara | Roy, Soumika | Jamir, Ayanglab
Affiliations: [a] Department of Electronics and Communication Engineering, Tezpur University, Assam, India | [b] Department of Electronics and Communication Engineering, Nagaland University, Dimapur, Nagaland, India
Correspondence: [*] Corresponding author: Uddipan Hazarika, Department of Electronics and Communication Engineering, Tezpur University, Assam, India. E-mail: uddipanhazarika65@gmail.com.
Abstract: Since the first recording in 1924, modern developments in technology have enabled human electroencephalogram (EEG) acquisition as a non-invasive process, enabling a multitude of opportunities to learn about human brain dynamics. With the capability to tap into localized brain dynamics, it is possible to correlate event-related potentials such as meditation, concentration, and motor control with localized brain activities, opening up a broad spectrum for exploration and implementation in prosthetic, control, and brain computer interfaces. In this work, an attempt has been made to explore human emotions and other intelligent states that can be interpreted to automate and control electrical appliances for differently abled people. A smart home automation model has been designed and implemented using a Think Gear Application-specific integrated circuit (ASIC) Module (TGAM) EEG sensor module integrated with a Bluetooth module, which serves as the core for control applications. A combination of external triggers and brain states are interpreted and forwarded to gain control of the connected appliances via a local server over the internet. Equipped with internet connectivity and Internet of Things (IoT), the system also facilitates long-distance communication and control, which can be easily translated to industrial control and automation applications. Based on a single-channel analog EEG signal acquisition module, this study details the development of a Brain Computer Interface (BCI) control and monitoring system for smart home automation with blink and attention features. The designed BCI system has a large bandwidth of 400 Hz, an easy setup, Morphological Component Analysis (MCA) based blink detection, monitoring, control of devices, and high accuracy at a low cost. Each subject completed three trials separated by one minute. The smart devices underwent testing in two states, namely on and off. The response time and accuracy of the system were recorded for each trial. The average system response time for the devices was determined to be 17.13 sec for switching ON and 20.66 sec for switching OFF, with an accuracy of 98.73% and 95.75% for ON and OFF states respectively.
Keywords: IoT, brain-computer interface, BCI, EEG, home automation system, electroencephalogram, TGAM
DOI: 10.3233/IDT-220224
Journal: Intelligent Decision Technologies, vol. 17, no. 2, pp. 485-503, 2023
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