Decoding Force using Signals Recorded from the Rat Motor Cortex by Linear Regression

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Sadati Tahmineh; DALIRI MOHAMMAD REZA

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Journal: IRANIAN JOURNAL OF BIOMEDICAL ENGINEERING Year:2018 | Volume:12 | Issue:1 Page(s): 1-10

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Title

Decoding Force using Signals Recorded from the Rat Motor Cortex by Linear Regression

Author(s)

Sadati Tahmineh | DALIRI MOHAMMAD REZA | Issue Writer Certificate

Keywords

Brain-Computer InterfaceQ1

DecodingQ1

Movement TaskQ1

Spike TrainsQ1

linear regressionQ2

Correlation CoefficientQ2

Coefficient of DeterminationQ1

Abstract

A Brain-Computer Interface is a system which works based on the neural activity created by the brain and it has attracted the attention of many researchers in recent years. These interfaces are independent of the usual pathway of peripheral and muscular nerves and are very important because of their ability to provide a new dimension in communication or control of a device for the disabled persons. The neural activity used in the Brain-Computer Interface can be recorded by various invasive and non-invasive methods and can be converted to the desired signal by different Decoding algorithms. In this study, 3 rats were used to perform a Movement Task which was pressing a key and receiving a drop of water by a mechanical arm for corrected trials. By implanting a 16-channel microelectrode array in the rat's motor cortex during an invasive process, the brain signals are recorded during the task, and simultaneously the signal received by the force sensor is also stored. By performing the necessary preprocessing on spikes and extracting the firing rates of signal as a feature vector by convolving a Gaussian window with the Spike Trains, the necessary inputs for the Decoding algorithm, which is linear regression here, are obtained. Two patterns have been used for cross validation. The first pattern considers 60% of the data from the beginning of the signal as a train set and the remaining 40% of the signal as a test set and the second pattern is the opposite of the first one. Several methods have been used to evaluate the Decoding algorithm used in the studies. In this paper, the Correlation Coefficient and Coefficient of Determination have been used. The Correlation Coefficient and Coefficient of Determination between the desired force and predicted force in linear resgression method, in average of three sessions for three rats, are equal to r=0. 56 and =0. 20 for the first pattern and r=0. 55 and =0. 30 for the second pattern respectively. These results show that firing rates of neurons are proper features to predict continous variables such as force. Besides, it can be concluded that linear regression is a suitable method for Decoding a motor variable like force and follows the desired signal properly.

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APA: Copy

Sadati, Tahmineh, & DALIRI, MOHAMMAD REZA. (2018). Decoding Force using Signals Recorded from the Rat Motor Cortex by Linear Regression. IRANIAN JOURNAL OF BIOMEDICAL ENGINEERING, 12(1 ), 1-10. SID. https://sid.ir/paper/81712/en

Vancouver: Copy

Sadati Tahmineh, DALIRI MOHAMMAD REZA. Decoding Force using Signals Recorded from the Rat Motor Cortex by Linear Regression. IRANIAN JOURNAL OF BIOMEDICAL ENGINEERING[Internet]. 2018;12(1 ):1-10. Available from: https://sid.ir/paper/81712/en

IEEE: Copy

Tahmineh Sadati, and MOHAMMAD REZA DALIRI, “Decoding Force using Signals Recorded from the Rat Motor Cortex by Linear Regression,” IRANIAN JOURNAL OF BIOMEDICAL ENGINEERING, vol. 12, no. 1 , pp. 1–10, 2018, [Online]. Available: https://sid.ir/paper/81712/en

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