Detecting the Stable, Observable and Controllable States of the Human Brain Dynamics - Open Journal of Medical Imaging

OJMI > Vol.2 No.4, December 2012

Open Journal of Medical Imaging

Volume 2, Issue 4 (December 2012)

ISSN Print: 2164-2788 ISSN Online: 2164-2796

Google-based Impact Factor: 0.15 Citations

Detecting the Stable, Observable and Controllable States of the Human Brain Dynamics ()

HTML XML

Download as PDF (Size: 1161KB) PP. 128-136

DOI: 10.4236/ojmi.2012.24024 5,665 Downloads 13,914 Views Citations

Author(s)

Ehsan Kamrani, Armin N. Foroushani, Mohsen Vaziripour, Mohamad Sawan

Affiliation(s)

Electrical Engineering Department, Ecole Polytechnique, Montreal, Canada.

ABSTRACT

A new technique is proposed in this paper for real-time monitoring of brain neural activity based on the balloon model. A continuous-discrete extended Kalman filter is used to estimate the nonlinear model states. The stability, controlla- bility and observability of the proposed model are described based on the simulation and measured clinical data analysis. By introducing the controllable and observable states of the hemodynamic signal we have developed a numerical tech- nique to validate and compare the impact of brain signal parameters affecting on BOLD signal variation. This model increases significantly the signal-to-noise-ratio (SNR) and the speed of brain signal processing. A linear-quadratic regulator (LQR) also has been introduced for optimal control of the model.

KEYWORDS

BOLD Signal; Hemodynamics; Controllability and Observability; FNIRS; Brain Imaging; Brain Dynamics

Share and Cite:

E. Kamrani, A. Foroushani, M. Vaziripour and M. Sawan, "Detecting the Stable, Observable and Controllable States of the Human Brain Dynamics," Open Journal of Medical Imaging, Vol. 2 No. 4, 2012, pp. 128-136. doi: 10.4236/ojmi.2012.24024.

Cited by

[1]	Design and Real-Time Implementation of a 3-Stage CnW Heading System on an Ubuntu Linux-Embedded Board
	2019

[2]	Optical EEG (OEEG): A Novel System Towards Portable Real-Time Brain-Computer Interfacing
	2016

[3]	Self-powered Intraocular Lenses for Multi-Modal Brain Computer Interfacing
	2016

[4]	Auto-powered, miniaturized, smart bio-optoelectronic system dedicated to functional contact lenses and real-time wireless biomedical imaging with high spatial and …
	2015

[5]	Data-driven combined state and parameter reduction for inverse problems
	Advances in Computational Mathematics, 2015

[6]	Optical EEG (OEEG): A novel technique toward plug-and-play non-invasive brain imaging and human-machine interfacing
	Photonics Conference (IPC), 2015, 2015

[7]	Auto-powered, miniaturized, smart bio-optoelectronic system dedicated to functional contact lenses and real-time wireless biomedical imaging with high spatial and deep resolution
	Photonics Conference (IPC), 2015, 2015

[8]	Data-Driven Combined State and Parameter Reduction for Extreme-Scale Inverse Problems
	arXiv preprint arXiv:1401.4027, 2014

[9]	Combined State and Parameter Reduction
	PAMM, 2014

Journals Menu

Follow SCIRP

	+1 323-425-8868
	customer@scirp.org
	+86 18163351462(WhatsApp)
	1655362766

	Paper Publishing WeChat

Journals Menu

Home

About SCIRP

Service

Policies