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An Enhanced Powerful Method for Signal Processing in Medical Imaging (MEG, MRI, etc.) and Other Scientific and Engineering Applications (SD2011-252)

Technology Benefits: The eMCBF spatial filter is robust to a wide range of correlations, SNRs, source locations, and various source temporal dynamics. Using a three-core MCBF filter, UC San Diego researchers further demonstrate how additional sources of interference can be accounted for once source localization is performed.

Technology Application: The added features and capabilities of the eMCBF greatly enhance its clinical utility in stroke, mild traumatic brain injury, and other brain-function related disorders and diseases. The ability to reconstruct source temporal dynamics for individual neuronal sources is especially important, for example, in the clinical diagnosis of epilepsy in which primary epilepsy source and propagations often co-exist in the data.eMCBF can also be used to recover source information from any type of sensor array system, including radar; sonar; astronomical telescopes; magnetotelluric arrays for geologic exploration of water, oil, or minerals in the earth; optical and other electromagnetic arrays; and others.

Detailed Technology Description: UC San Diego researchers have developed an enhanced multi-core beam former (eMCBF). The eMCBF detects the orientation (direction) of the signals and allows correlation and reconstruction of multiple interfering sources at the same time. Furthermore, the eMCBF can accurately obtain the individual source time-courses, whereas previous MCBF can only obtain the common mode among multiple source time-courses. Such improvement allows faithful reconstruction of the source temporal dynamics for individual neuronal sources.

Industry: Optics

Sub Category: Optical Fiber

Application No.: 9883812

Others

State Of Development

he eMCBF performs well for both computer simulations and real human MEG recordings and produces meaningful correlation estimations and accurate time courses.

Related Materials

Diwakar M, Tal O, Liu TT, Harrington DL, Srinivasan R, Muzzatti L, Song T, Theilmann RJ, Lee RR, Huang MX. Accurate Reconstruction of Temporal Correlation for Neuronal Sources Using the Enhanced Dual-core MEG Beamformer. Neuroimage. 2011 Mar 25. [Epub ahead of print]

Related Technologies

A Novel and Powerful Method for Signal Processing in Medical Imaging (MEG, MRI, etc.) and Other Scientific and Engineering Applications

Tech ID/UC Case

21449/2010-340-0

Related Cases

2010-340-0, 2010-340-0

*Abstract: Magnetoencephalography (MEG) is a functional imaging modality that directly detects neuronal activity with a millisecond temporal resolution. UC San Diego researchers previously developed a multi-core beamformer (MCBF, see SD2010-340) approach that reconstructs common-mode source time-courses and their correlations networks from noisy MEG data, without requiring both a priori information and expensive and impractical computation. However, the performance of MCBF degrades at low correlations and cannot reconstruct individual source time-courses.

A detailed description for the related technology SD2010-340 can be found at http://invent.ucsd.edu/technology/cases/2010/SD2010-340.shtml.

*IP Issue Date: Feb 6, 2018

*Principal Investigator: Name: Mithun Diwakar
Department:

Name: Mingxiong Huang
Department:

Name: Mingxiong Huang
Department:

Name: Roland Lee
Department:

Name: Roland Lee
Department:

Name: Thomas Liu
Department:

Name: Omer Tal
Department:

Country/Region: USA

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