A dictionary learning algorithm for multi-channel neural recordings

Multi-channel neural recording devices are widely used for in vivo neuroscience experiments. Incurred by high signal frequency and large channel numbers, the acquisition rate could be on the order of hundred MB/s, which requires compression before wireless transmission. In this paper, we adopt the C...

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Bibliographic Details
Published inBiomedical Circuits and Systems Conference pp. 9 - 12
Main Authors Tao Xiong, Yuanming Suo, Jie Zhang, Siwei Liu, Etienne-Cummings, Ralph, Sang Chin, Tran, Trac D.
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.10.2014
Subjects
Compressed sensing
Dictionaries
Electrodes
Joints
Neurons
Sensors
System-on-chip
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Summary:Multi-channel neural recording devices are widely used for in vivo neuroscience experiments. Incurred by high signal frequency and large channel numbers, the acquisition rate could be on the order of hundred MB/s, which requires compression before wireless transmission. In this paper, we adopt the Compressed Sensing framework with a simple on-chip implementation. To improve the performance while reducing the number of measurements, we propose a multi-modal structured dictionary learning algorithm that enforces both group sparsity and joint sparsity to learn sparsifying dictionaries for all channels simultaneously. When the data is compressed 50 times, our method can achieve a gain of 4 dB and 10 percentage units over state-of-art approaches in terms of the reconstruction quality and classification accuracy, respectively.
ISSN:2163-4025
DOI:10.1109/BioCAS.2014.6981632