AI Article Synopsis
- The biological communication system for neurological disorder patients connects them to the outside world, much like Brain-Computer Interfaces, aiding in real-time communication for paralyzed individuals.
- A novel feature extraction approach using Empirical Mode Decomposition (EMD) analyzes EEG signals, breaking them down into six Intrinsic Mode Functions to identify nine key features that predict a patient's messages.
- The proposed method demonstrated high classification accuracy of 97% on a database and 85% in real-time applications, significantly improving communication capabilities for those with neurological disorders compared to existing methods.
Article Abstract
Biological communication system for neurological disorder patients is similar to the Brain Computer Interface in a way that it facilitates the connection to the outside world in real time. The interdisciplinary field of Electroencephalogram based message depiction is gaining importance as it assists the paralysed person to communicate. In the proposed method a novel approach of feature extraction is done by Empirical Mode Decomposition on non- stationary & non-linear kind of EEG signal. EMD helps in the effective time frequency analysis by disintegrating the EEG signal in the form of six Intrinsic Mode Functions with help of the frequency components. In all nine features are extracted from the decomposed IMFs so as to predict the states or messages of the patient. The above computed features are then served to the Deep Neural Network to perform the classification. The performance of suggested method is studied through applying it to the acquired database generated by the designed hardware as well as also in real time message depiction. The maximum classification accuracy 97% for the acquired database & 85% in real time are obtained respectively by comparative analysis. The command messages generated from the proposed system helps the person suffering from neurological disorder to establish the communication link with the outside world in an efficient way. Thus, the proposed novel method shows better performance in real time message depiction purpose as related to other existing methods.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11535384 | PMC |
| http://dx.doi.org/10.1038/s41598-024-64961-1 | DOI Listing |
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