spike lfp relations
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registered: '2019-10-15T17:17:48'
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data:
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results: results.csv
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notebook: 10-calculate-stimulus-spike-lfp-response.ipynb
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html: 10-calculate-stimulus-spike-lfp-response.html
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"cells": [
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{
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"cell_type": "code",
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"execution_count": 1,
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"metadata": {},
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"outputs": [],
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"source": [
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"%load_ext autoreload\n",
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"%autoreload 2"
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]
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},
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{
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"cell_type": "code",
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"execution_count": 2,
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"metadata": {},
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"outputs": [
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{
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"name": "stderr",
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"output_type": "stream",
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"text": [
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"16:56:09 [I] klustakwik KlustaKwik2 version 0.2.6\n"
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]
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}
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],
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"source": [
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"import matplotlib.pyplot as plt\n",
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"%matplotlib inline\n",
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"import spatial_maps as sp\n",
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"import septum_mec.analysis.data_processing as dp\n",
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"import septum_mec.analysis.registration\n",
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"import expipe\n",
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"import os\n",
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"import pathlib\n",
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"import numpy as np\n",
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"import exdir\n",
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"import pandas as pd\n",
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"import optogenetics as og\n",
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"import quantities as pq\n",
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"import shutil\n",
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"from distutils.dir_util import copy_tree\n",
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"import elephant as el\n",
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"import neo\n",
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"from scipy.signal import find_peaks\n",
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"from scipy.interpolate import interp1d\n",
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"from matplotlib import mlab\n",
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"\n",
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"from tqdm import tqdm_notebook as tqdm\n",
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"from tqdm._tqdm_notebook import tqdm_notebook\n",
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"tqdm_notebook.pandas()"
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]
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},
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{
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"cell_type": "code",
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"execution_count": 3,
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"metadata": {},
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"outputs": [],
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"source": [
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"data_loader = dp.Data()\n",
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"actions = data_loader.actions\n",
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"project = data_loader.project"
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]
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},
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{
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"cell_type": "code",
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"execution_count": 4,
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"metadata": {},
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"outputs": [],
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"source": [
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"output = pathlib.Path('output/stimulus-spike-lfp-response')\n",
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"(output / 'figures').mkdir(parents=True, exist_ok=True)"
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]
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},
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{
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"cell_type": "code",
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"execution_count": 5,
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"metadata": {},
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"outputs": [],
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"source": [
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"identify_neurons = actions['identify-neurons']\n",
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"# sessions = pd.read_csv(identify_neurons.data_path('sessions'))\n",
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"units = pd.read_csv(identify_neurons.data_path('units'))"
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]
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},
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{
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"cell_type": "code",
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"execution_count": 6,
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"metadata": {},
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"outputs": [],
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"source": [
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"def get_lim(action_id):\n",
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" stim_times = data_loader.stim_times(action_id)\n",
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" if stim_times is None:\n",
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" return [0, np.inf]\n",
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" stim_times = np.array(stim_times)\n",
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" return [stim_times.min(), stim_times.max()]\n",
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"\n",
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"def get_mask(lfp, lim):\n",
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" return (lfp.times >= lim[0]) & (lfp.times <= lim[1])\n",
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"\n",
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"def zscore(a):\n",
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" return (a - a.mean(0)) / a.std(0)\n",
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"\n",
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"def compute_stim_freq(action_id):\n",
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" stim_times = data_loader.stim_times(action_id)\n",
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" if stim_times is None:\n",
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" return np.nan\n",
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" stim_times = np.array(stim_times)\n",
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" return 1 / np.mean(np.diff(stim_times))"
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]
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},
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{
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"cell_type": "code",
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"execution_count": 7,
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"metadata": {},
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"outputs": [],
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"source": [
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"def signaltonoise(a, axis=0, ddof=0):\n",
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" a = np.asanyarray(a)\n",
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" m = a.mean(axis)\n",
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" sd = a.std(axis=axis, ddof=ddof)\n",
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" return np.where(sd == 0, 0, m / sd)\n",
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"\n",
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"\n",
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"def clean_lfp(anas, width=500, threshold=2):\n",
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" anas = np.array(anas)\n",
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"\n",
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" for ch in range(anas.shape[1]):\n",
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" idxs, = np.where(abs(anas[:, ch]) > threshold)\n",
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" for idx in idxs:\n",
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" anas[idx-width:idx+width, ch] = 0 # TODO AR model prediction\n",
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" return anas"
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]
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},
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{
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"cell_type": "code",
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"execution_count": 8,
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"metadata": {},
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"outputs": [],
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"source": [
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"def compute_energy(p, f, f1, f2):\n",
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" if np.isnan(f1) or np.all(np.isnan(p)):\n",
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" return np.nan\n",
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" mask = (f > f1) & (f < f2)\n",
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" df = f[1] - f[0]\n",
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" return np.sum(p[mask]) * df"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"def find_theta_peak(p, f, f1, f2):\n",
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" if np.all(np.isnan(p)):\n",
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" return np.nan, np.nan\n",
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" mask = (f > f1) & (f < f2)\n",
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" p_m = p[mask]\n",
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" f_m = f[mask]\n",
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" peaks, _ = find_peaks(p_m)\n",
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" idx = np.argmax(p_m[peaks])\n",
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" return f_m[peaks[idx]], p_m[peaks[idx]]"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"def compute_half_width(p, f, m_p, m_f):\n",
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" if np.isnan(m_p):\n",
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" return np.nan, np.nan\n",
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" m_p_half = m_p / 2\n",
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" half_p = p - m_p_half\n",
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" idx_f = np.where(f <= m_f)[0].max()\n",
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" idxs_p1, = np.where(np.diff(half_p[:idx_f + 1] > 0) == 1)\n",
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" if len(idxs_p1) == 0:\n",
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" return np.nan, np.nan\n",
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" m1 = idxs_p1.max()\n",
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" idxs_p2, = np.where(np.diff(half_p[idx_f:] > 0) == 1)\n",
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" m2 = idxs_p2.min() + idx_f\n",
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" assert p[m1] < m_p_half < p[m1+1], (p[m1], m_p_half, p[m1+1])\n",
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" assert p[m2] > m_p_half > p[m2+1], (p[m2], m_p_half, p[m2+1])\n",
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" \n",
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" f1 = interp1d([half_p[m1], half_p[m1 + 1]], [f[m1], f[m1 + 1]])(0)\n",
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" f2 = interp1d([half_p[m2], half_p[m2 + 1]], [f[m2], f[m2 + 1]])(0)\n",
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" return f1, f2"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"def compute_stim_peak(p, f, s_f):\n",
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" if np.isnan(s_f):\n",
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" return np.nan\n",
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" return interp1d(f, p)(s_f)"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"def compute_spike_lfp(anas, sptr, t_start, t_stop, NFFT):\n",
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"\n",
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" t_start = t_start * pq.s if t_start is not None else 0 * pq.s\n",
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" sampling_rate = anas.sampling_rate\n",
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" units = anas.units\n",
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" if t_start is not None and t_stop is not None:\n",
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" t_stop = t_stop * pq.s\n",
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" mask = (anas.times > t_start) & (anas.times < t_stop)\n",
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" anas = np.array(anas)[mask,:]\n",
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"\n",
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" cleaned_anas = zscore(clean_lfp(anas))\n",
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" \n",
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" cleaned_anas = neo.AnalogSignal(\n",
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" signal=cleaned_anas * units, sampling_rate=sampling_rate, t_start=t_start\n",
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" )\n",
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"\n",
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" sptr = neo.SpikeTrain(\n",
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" sptr.times[(sptr.times > t_start) & (sptr.times < cleaned_anas.times[-1])],\n",
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" t_start=t_start, t_stop=cleaned_anas.times[-1]\n",
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" )\n",
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"\n",
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" sigs, freqs = el.sta.spike_field_coherence(cleaned_anas, sptr, **{'nperseg': NFFT})\n",
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" return sigs, freqs, cleaned_anas"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"# action_id_0 = '1833-200619-1'\n",
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"# action_id_1 = '1833-200619-2'\n",
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"# lfp_0 = data_loader.lfp(action_id_0, 6)\n",
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"# lfp_1 = data_loader.lfp(action_id_1, 6)\n",
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"\n",
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"# lim_0 = get_lim(action_id_0)\n",
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"# lim_1 = get_lim(action_id_1)\n",
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"\n",
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"# sptrs_0 = data_loader.spike_trains(action_id_0, 6)\n",
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"# sptrs_1 = data_loader.spike_trains(action_id_1, 6)\n",
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"\n",
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"# coher_0, freq_0, clean_lfp_0 = compute_spike_lfp(lfp_0, sptrs_0[163], *lim_0, 4096)\n",
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"# coher_1, freq_1, clean_lfp_1 = compute_spike_lfp(lfp_1, sptrs_1[28], *lim_1, 4096)\n",
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"\n",
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"# best_channel_0 = np.argmax(signaltonoise(clean_lfp_0))\n",
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"# best_channel_1 = np.argmax(signaltonoise(clean_lfp_1))\n",
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"\n",
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"# plt.plot(freq_0, coher_0[:,best_channel_0])\n",
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"# plt.plot(freq_1, coher_1[:,best_channel_1])\n",
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"# plt.xlim(0,20)"
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"NFFT = 4096*2\n",
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"theta_band_f1, theta_band_f2 = 6, 10 "
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]
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},
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{
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"cell_type": "code",
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"execution_count": null,
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"metadata": {},
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"outputs": [],
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"source": [
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"def process(row):\n",
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" action_id = row['action']\n",
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" channel_group = row['channel_group']\n",
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" unit_name = row['unit_name']\n",
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" \n",
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" lfp = data_loader.lfp(action_id, channel_group)\n",
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" \n",
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" sptr = data_loader.spike_train(action_id, channel_group, unit_name)\n",
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" \n",
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" lim = get_lim(action_id)\n",
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"\n",
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" p_xys, freq, clean_lfp = compute_spike_lfp(lfp, sptr, *lim, NFFT=NFFT)\n",
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" \n",
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" snls = signaltonoise(clean_lfp)\n",
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" best_channel = np.argmax(snls)\n",
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" snl = snls[best_channel]\n",
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" p_xy = p_xys[:,best_channel]\n",
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" \n",
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" theta_f, theta_p_max = find_theta_peak(p_xy, freq, theta_band_f1, theta_band_f2)\n",
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" \n",
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" theta_energy = compute_energy(p_xy, freq, theta_band_f1, theta_band_f2) # theta band 6 - 10 Hz\n",
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" \n",
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" theta_half_f1, theta_half_f2 = compute_half_width(p_xy, freq, theta_p_max, theta_f)\n",
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" \n",
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" theta_half_width = theta_half_f2 - theta_half_f1\n",
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" \n",
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" theta_half_energy = compute_energy(p_xy, freq, theta_half_f1, theta_half_f2) # theta band 6 - 10 Hz\n",
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" \n",
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" # stim\n",
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" \n",
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" stim_freq = compute_stim_freq(action_id)\n",
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" \n",
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" stim_p_max = compute_stim_peak(p_xy, freq, stim_freq)\n",
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" \n",
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" stim_half_f1, stim_half_f2 = compute_half_width(p_xy, freq, stim_p_max, stim_freq)\n",
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" stim_half_width = stim_half_f2 - stim_half_f1\n",
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" \n",
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" stim_energy = compute_energy(p_xy, freq, stim_half_f1, stim_half_f2)\n",
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" \n",
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" result = pd.Series({\n",
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" 'signal_to_noise': snl,\n",
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" 'best_channel': best_channel,\n",
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" 'theta_freq': theta_f,\n",
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" 'theta_peak': theta_p_max,\n",
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" 'theta_energy': theta_energy,\n",
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" 'theta_half_f1': theta_half_f1, \n",
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" 'theta_half_f2': theta_half_f2,\n",
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" 'theta_half_width': theta_half_width,\n",
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" 'theta_half_energy': theta_half_energy,\n",
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" 'stim_freq': stim_freq,\n",
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" 'stim_p_max': stim_p_max,\n",
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" 'stim_half_f1': stim_half_f1, \n",
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" 'stim_half_f2': stim_half_f2,\n",
|
||||||
|
" 'stim_half_width': stim_half_width,\n",
|
||||||
|
" 'stim_energy': stim_energy\n",
|
||||||
|
" })\n",
|
||||||
|
" return result"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"cell_type": "code",
|
||||||
|
"execution_count": null,
|
||||||
|
"metadata": {},
|
||||||
|
"outputs": [
|
||||||
|
{
|
||||||
|
"data": {
|
||||||
|
"application/vnd.jupyter.widget-view+json": {
|
||||||
|
"model_id": "e28818ca79be42abaf9c2b6106580c75",
|
||||||
|
"version_major": 2,
|
||||||
|
"version_minor": 0
|
||||||
|
},
|
||||||
|
"text/plain": [
|
||||||
|
"HBox(children=(IntProgress(value=0, max=1298), HTML(value='')))"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
"metadata": {},
|
||||||
|
"output_type": "display_data"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"name": "stderr",
|
||||||
|
"output_type": "stream",
|
||||||
|
"text": [
|
||||||
|
"/home/mikkel/.virtualenvs/expipe/lib/python3.6/site-packages/scipy/signal/spectral.py:1578: RuntimeWarning: invalid value encountered in true_divide\n",
|
||||||
|
" Cxy = np.abs(Pxy)**2 / Pxx / Pyy\n"
|
||||||
|
]
|
||||||
|
}
|
||||||
|
],
|
||||||
|
"source": [
|
||||||
|
"results = units.merge(\n",
|
||||||
|
" units.progress_apply(process, axis=1), \n",
|
||||||
|
" left_index=True, right_index=True)"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"cell_type": "code",
|
||||||
|
"execution_count": null,
|
||||||
|
"metadata": {},
|
||||||
|
"outputs": [],
|
||||||
|
"source": [
|
||||||
|
"%debug"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"cell_type": "markdown",
|
||||||
|
"metadata": {},
|
||||||
|
"source": [
|
||||||
|
"# Save to expipe"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"cell_type": "code",
|
||||||
|
"execution_count": null,
|
||||||
|
"metadata": {},
|
||||||
|
"outputs": [],
|
||||||
|
"source": [
|
||||||
|
"action = project.require_action(\"stimulus-spike-lfp-response\")"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"cell_type": "code",
|
||||||
|
"execution_count": null,
|
||||||
|
"metadata": {},
|
||||||
|
"outputs": [],
|
||||||
|
"source": [
|
||||||
|
"action.modules['parameters'] = {\n",
|
||||||
|
" 'NFFT': NFFT,\n",
|
||||||
|
" 'theta_band_f1': theta_band_f1,\n",
|
||||||
|
" 'theta_band_f2': theta_band_f2\n",
|
||||||
|
"}"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"cell_type": "code",
|
||||||
|
"execution_count": null,
|
||||||
|
"metadata": {},
|
||||||
|
"outputs": [],
|
||||||
|
"source": [
|
||||||
|
"action.data['results'] = 'results.csv'\n",
|
||||||
|
"results.to_csv(action.data_path('results'), index=False)"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"cell_type": "code",
|
||||||
|
"execution_count": null,
|
||||||
|
"metadata": {},
|
||||||
|
"outputs": [],
|
||||||
|
"source": [
|
||||||
|
"copy_tree(output, str(action.data_path()))"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"cell_type": "code",
|
||||||
|
"execution_count": null,
|
||||||
|
"metadata": {},
|
||||||
|
"outputs": [],
|
||||||
|
"source": [
|
||||||
|
"septum_mec.analysis.registration.store_notebook(action, \"10-calculate-stimulus-spike-lfp-response.ipynb\")"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"cell_type": "code",
|
||||||
|
"execution_count": null,
|
||||||
|
"metadata": {},
|
||||||
|
"outputs": [],
|
||||||
|
"source": []
|
||||||
|
}
|
||||||
|
],
|
||||||
|
"metadata": {
|
||||||
|
"kernelspec": {
|
||||||
|
"display_name": "Python 3",
|
||||||
|
"language": "python",
|
||||||
|
"name": "python3"
|
||||||
|
},
|
||||||
|
"language_info": {
|
||||||
|
"codemirror_mode": {
|
||||||
|
"name": "ipython",
|
||||||
|
"version": 3
|
||||||
|
},
|
||||||
|
"file_extension": ".py",
|
||||||
|
"mimetype": "text/x-python",
|
||||||
|
"name": "python",
|
||||||
|
"nbconvert_exporter": "python",
|
||||||
|
"pygments_lexer": "ipython3",
|
||||||
|
"version": "3.6.8"
|
||||||
|
}
|
||||||
|
},
|
||||||
|
"nbformat": 4,
|
||||||
|
"nbformat_minor": 2
|
||||||
|
}
|
File diff suppressed because it is too large
Load Diff
|
@ -0,0 +1,3 @@
|
||||||
|
NFFT: 8192
|
||||||
|
theta_band_f1: 6
|
||||||
|
theta_band_f2: 10
|
Loading…
Reference in New Issue