Modulation of Neural Cross Frequency Coupling analysis in VLSI Architecture
Journal: International Journal of Trend in Scientific Research and Development (Vol.4, No. 5)Publication Date: 2020-09-08
Authors : Muniraj. N. J. R Anusha. M Preethi. M. R Sownthariya. J;
Page : 1581-1582
Keywords : Bio mechanical& Biomedical Engineering; Cross Frequency Coupling; Low Latency; High Accuracy;
Abstract
Cross frequency coupling CFC is a key mechanism in neuronal computation, communication, and learning in the brain. Abnormal CFC has been implicated in pathological brain states such as epilepsy and Parkinson's disease. A reduction in excessive coupling has been shown ineffective neuromodulation treatments, suggesting that CFC may be a useful feedback measure in closed loop neural stimulation devices. However, processing latency limits the responsiveness of such systems. VLSI architecture is presented which implements the phase locking value of CFC to enable the application specific trade off between low latency and high accuracy processing. Muniraj. N. J. R | Anusha. M | Preethi. M. R | Sownthariya. J "Modulation of Neural Cross Frequency Coupling analysis in VLSI Architecture" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-5 , August 2020, URL: https://www.ijtsrd.com/papers/ijtsrd33190.pdf Paper Url :https://www.ijtsrd.com/engineering/bio-mechanicaland-biomedical-engineering/33190/modulation-of-neural-cross-frequency-coupling-analysis-in-vlsi-architecture/muniraj-n-j-r
Other Latest Articles
- School Legislation in Cameroon and its Efficacy in the Educational System
- Analysis of Mechanical Behavior of Composite Material Carbon Fiber using Structural Strength Analysis on Shock Absorber using ANSYS Structural
- Effect of Endurance on Gastrocnemius Muscle with Exercise by Employing EMG Amplitude Parameters
- Self Reconfigurable Protocol among Vehicles with Dynamic Routing
- Configuration of Routers in Network Topology
Last modified: 2020-10-03 19:26:28