Title :
Structured noise analysis in intrinsic optical imaging
Author :
Yin, Haibing ; Liu, Yadong ; Zhou, Zongtan ; Li, Ming ; Wang, Yucheng ; Hu, Dewen
Author_Institution :
Dept. of Autom. Control, Nat. Univ. of Defense Technol., Changsha, China
Abstract :
In this paper, a novel structured noises-reduction technique for OI data is proposed. Canonical correlation analysis (CCA) technique is exploited to separate the underlying independent sources among which the neural response signal is picked out by the correlation analysis. The white noise (WN) criterion is applied to discern the structured components from the unstructured ones. The energy of structured noises is then eliminated from the original data. Monte Carlo simulation is used to test the validity of the procedure. The result shows that after the noise reduction, the true positive rate improves significantly without raising the false positive rate. Five sets of OI data of single trial collected from the HP area of rat´s cortex are processed by the procedure and the resulting activation maps present more detailed spatial architecture than those without noise reduction.
Keywords :
Monte Carlo methods; biomedical optical imaging; brain; correlation methods; image denoising; medical image processing; neurophysiology; white noise; Monte Carlo simulation; activation maps; canonical correlation analysis; intrinsic optical imaging; neural response signal; noise reduction; spatial architecture; structured noise analysis; white noise criterion; Brain modeling; Correlation; Noise reduction; Pixel; Principal component analysis; Signal to noise ratio; Canonical Correlation Analysis(CCA); Monte Carlo simulation; Optical Image (OI);
Conference_Titel :
Cognitive Informatics (ICCI), 2010 9th IEEE International Conference on
Conference_Location :
Beijing
Print_ISBN :
978-1-4244-8041-8
DOI :
10.1109/COGINF.2010.5599711
