Really happy to share our new paper in which we introduce a method based on #recurrence#quantification#analysis to estimate time-dependent recurrent neural activity without any prior assumptions on waveform shape.
https://t.co/GWdwR7gUwU
“Clouds are not spheres, mountains are not cones” (B.M). To promote nonlinear time series analysis, we developed the NoLiTiA-Toolbox, with implementations of classic and recent estimators of #informationtheory, #dynamicalsystems and #recurrenceanalysis
https://t.co/GhACKpObKF
Common methods for frequency analysis in neuroscience might produce spurious results for non-sinusoidal waveforms. In our paper we propose a new procedure based on the criminally overlooked methods of recurrence analysis and compare it with other methods https://t.co/C2oY5PkLGN
Really happy to share our new paper on "Increased prefrontal top-down control in older adults predicts motor performance and age-group association" https://t.co/vx3yzkd56i
First paper of the year with @SpringerNature in @SciReports!🎉 We found that positive #schizotypy in patients with #Parkinson's disease predicts cognitive side effects of dopaminergic therapy. https://t.co/d1q6U12LHp
I’m biased but I think this is the most important #EEG#research project of the last 30 years. Check out our position paper setting out the #EEGManyLabs master plan @PsyArXiv https://t.co/BG6QFckrOR too many amazing collaborators to mention but exception for 1st author @ugpavlov
UC Davis is making a major expansion in Computational Neuroscience and related fields. Their current faculty search in Computational Neuroscience is part of a 10+ tenure-track hiring initiative: Computational Neuroscience, Neural Engineering, Network Science, and Data Science.
PhD opportunity in clinical/cognitive neurophysiology: Optimization of
DBS for Parkinson’s disease and characterization of the underlying
neural activity. https://t.co/FfYUDTN6Bx
@fieldtriptoolbx@FENSorg@SfNtweets
Our new preprint is out! Here, we use an oscillator-based network model to explore how optimal levels of noise can counterintuitively induce synchronization of dynamics on the human connectome (1/6)
Check out our new paper, where we analyze information content (#entropy), storage and transfer in the subthalamic region of #Parkinson's patients.
https://t.co/UccZg2bup0