Pushpendra Singh
;
Jhimli Sarkar
;
Parama Dey
;
Sounak Sarkar
;
Anindya Pattanaya
;
Sudipa Nag
;
Sudeshna Pramanik
;
Pathik Sahoo
;
Komal Saxena
;
Soami Daya Krishnanda
;
Tanusree Dutta
;
Subrata Ghosh
;
Anirban Bandyopadhyay
Collection
Citation
Description:
(abstract)The conventional EEG machine measures brain signal frequencies between 1 and 300 Hz on the scalp. By utilizing Fourier transform (FFT), it generates a 2D frequency profile. Our innovative EEG, known as Dodecanogram (DDG), operates in two modes. In the first mode, it detects a wide range of frequencies from 6 THz to 1 milliHz, creating a brain scan based on resonance. In the second mode, it uses picosecond pulses to capture potential surges, measuring their duration, intensity, and phase variation, revealing brain activity patterns. Both modes work simultaneously in the DDG device. To minimize environmental interference, we use interconnected DDG devices on eight human brains. The detected results from DDG show that DDG is a fundamental technology for understanding various mental states. Potential applications include neuro-disease diagnosis and exploring treatments involving electrical and electromagnetic pulses..
Rights:
Keyword: DDG, brain scan, EEG, artificial brain
Date published: 2024-06-14
Publisher: Springer Nature Singapore
Journal:
- Proceedings of the Fifth International Conference on Trends in Computational and Cognitive Engineering p. 257-269
Funding:
Manuscript type: Author's version (Submitted manuscript)
MDR DOI: https://doi.org/10.48505/nims.5276
First published URL: https://doi.org/10.1007/978-981-97-1923-5_20
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Updated at: 2025-01-16 16:31:43 +0900
Published on MDR: 2025-01-20 12:31:28 +0900
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Inventing the potential DDG submitted.docm
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