{
  "LICENCE": "CC-by 4.0",
  "Name": "Electrophysiology",
  "BIDSVersion": "1.0.X",
  "License": "CC BY 4.0",
  "Authors": [
    "Thomas Brochier",
    "Lyuba Zehl",
    "Yaoyao Hao",
    "Margaux Duret",
    "Julia Sprenger",
    "Michael Denker",
    "Sonja Grün",
    "Alexa Riehle"
  ],
  "Acknowledgements": "We thank Emiliano Torre and Vahid Rostami for detecting and handling the hyper-synchronous event artifacts, and Florent Jaillet for developing the Event-Detection Toolbox in Matlab. Special thanks to Moshe Abeles who was a tough teacher for Sonja Grün and taught her the knowledge required for projects like this.",
  "HowToAcknowledge": "Brochier T, Zehl L, Hao Y, Duret M, Sprenger J, Denker M, Grün S, Riehle A (2017) Massively parallel multi-electrode recordings of macaque motor cortex during an instructed delayed reach-to-grasp task. G-Node. https://doi.org/10.12751/g-node.f83565",
  "Funding": [
    "Helmholtz Portfolio “Supercomputing and Modeling for the Human Brain” (SMHB)",
    "EU Grants 604102 and 720270 (Human Brain Project, HBP)",
    "Priority Program SPP 1665 of the DFG (GR 1753/4-2 and DE 2175/2-1)",
    "Collaborative Research Agreement RIKEN-CNRS",
    "ANR GRASP",
    "CNRS (PEPS, Neuro_IC2010)",
    "DAAD",
    "LIA Vision for Action"
  ],
  "ReferencesAndLinks": "https://doi.org/10.1038/sdata.2018.55",
}