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ICASSP
2010
IEEE
2010
IEEE
A parallel point-process filter for estimation of goal-directed movements from neural signals
Brain machine interfaces work by mapping the relevant neural activity to the intended movement known as ‘decoding’. Here, we develop a recursive Bayesian decoder for goaldirected movements from neural observations, which exploits the optimal feedback control model of the sensorimotor system to build better prior state-space models. These controlled state models depend on the movement duration that is not known a priori. We thus consider a discretization of the task duration and develop a decoder consisting of a bank of parallel point-process filters, each combining the neural observation with the controlled state model of a discretization point. The final reconstruction is made by optimally combining these filter estimates. Using very coarse discretization and hence only a few parallel branches, our decoder reduces the root mean square (RMS) error in trajectory reconstruction in reaches made by a rhesus monkey by approximately 40%.
Real-time TrafficControlled State Model | ICASSP 2010 | Neural Observation | Recursive Bayesian Decoder | Signal Processing |
| Added | 06 Dec 2010 |
| Updated | 06 Dec 2010 |
| Type | Conference |
| Year | 2010 |
| Where | ICASSP |
| Authors | Maryam Modir Shanechi, Gregory W. Wornell, Ziv Williams, Emery N. Brown |
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