7/24/2023 0 Comments Neural signal processing![]() We apply this method to transcranial current stimulation (tCS) and transcutaneous spinal cord stimulation (tSCS). We have developed a novel optimization method called Stimulation with Optimal Focality and Intensity (SOFI), which provides both high intensity and focal accuracy within the safety constraints. Conventional optimization methods either maximize the intensity at the target, resulting in low focal accuracy, or maximize the focal accuracy at the expense of low intensity. The second part aims to develop optimization methods for noninvasive electrical stimulation, so as to provide high focal accuracy and desired intensity at the target under specific constraints. Furthermore, in order to obtain real-time brain images, a novel parallel computing algorithm has been developed to accelerate the image reconstruction speed. We have developed two novel EEG-based brain imaging methods (s-SMOOTH and gFOTV) using sparse regularizations based on the compressed sensing principle - these methods demonstrate better performance than the state-of-the-art methods in terms of reconstruction accuracy, localization accuracy, and focalization degree. However, the corresponding EEG inverse problem is highly ill-posed, thus requiring regularization techniques to impose additional constraints to obtain a precise result. ![]() EEG brain imaging is able to produce brain images with excellent temporal resolution (~ms), and is therefore a good candidate for studying the dynamic brain states. The first part of this thesis aims to develop EEG-based brain imaging algorithms with high reconstruction accuracy and speed. The neuroimaging is able to obtain real-time information of the targets, and provides a dynamic guidance for the neurostimulation, so that the underlying neural network can be modulated with high precision. Simultaneous neuroimaging and neurostimulation provides a powerful tool for monitoring the functional state of the nervous system as well as treating neural diseases.
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