[talweg.git] / reports / report.ipynb

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    "\n",
    "\n",
    "<h2>Introduction</h2>\n",
    "\n",
    "J'ai fait quelques essais dans différentes configurations pour la méthode \"Neighbors\"\n",
    "(la seule dont on a parlé) et sa variante récente appelée pour l'instant \"Neighbors2\",\n",
    "avec simtype=\"mix\" : deux types de similarités prises en compte, puis multiplication des poids.\n",
    "Pour Neighbors on prédit le saut (par la moyenne pondérée des sauts passés), et pour Neighbors2\n",
    "on n'effectue aucun raccordement (prévision directe).\n",
    "\n",
    "J'ai systématiquement comparé à une approche naïve : la moyenne des lendemains des jours\n",
    "\"similaires\" dans tout le passé, ainsi qu'à la persistence -- reproduisant le jour courant ou\n",
    "allant chercher le futur similaire une semaine avant.\n",
    "\n",
    "Ensuite j'affiche les erreurs, quelques courbes prévues/mesurées, quelques filaments puis les\n",
    "histogrammes de quelques poids. Concernant les graphes de filaments, la moitié gauche du graphe\n",
    "correspond aux jours similaires au jour courant, tandis que la moitié droite affiche les\n",
    "lendemains : ce sont donc les voisinages tels qu'utilisés dans l'algorithme.\n",
    "\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
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   "outputs": [],
   "source": [
    "library(talweg)\n",
    "\n",
    "P = 7 #instant de prévision\n",
    "H = 17 #horizon (en heures)\n",
    "\n",
    "ts_data = read.csv(system.file(\"extdata\",\"pm10_mesures_H_loc_report.csv\",package=\"talweg\"))\n",
    "exo_data = read.csv(system.file(\"extdata\",\"meteo_extra_noNAs.csv\",package=\"talweg\"))\n",
    "# NOTE: 'GMT' because DST gaps are filled and multiple values merged in above dataset.\n",
    "# Prediction from P+1 to P+H included.\n",
    "data = getData(ts_data, exo_data, input_tz = \"GMT\", working_tz=\"GMT\", predict_at=P)\n",
    "\n",
    "indices_ch = seq(as.Date(\"2015-01-18\"),as.Date(\"2015-01-24\"),\"days\")\n",
    "indices_ep = seq(as.Date(\"2015-03-15\"),as.Date(\"2015-03-21\"),\"days\")\n",
    "indices_np = seq(as.Date(\"2015-04-26\"),as.Date(\"2015-05-02\"),\"days\")\n"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "deletable": true,
    "editable": true
   },
   "source": [
    "\n",
    "\n",
    "<h2 style=\"color:blue;font-size:2em\">Pollution par chauffage</h2>"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
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   },
   "outputs": [],
   "source": [
    "reload(\"../pkg\")\n",
    "p_nn = computeForecast(data, indices_ch, \"Neighbors\", \"Neighbors\", horizon=H)\n",
    "p_nn2 = computeForecast(data, indices_ch, \"Neighbors2\", \"Neighbors\", horizon=H)\n",
    "p_az = computeForecast(data, indices_ch, \"Average\", \"Zero\", horizon=H)\n",
    "p_pz = computeForecast(data, indices_ch, \"Persistence\", \"Zero\", horizon=H, same_day=TRUE)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false
   },
   "outputs": [],
   "source": [
    "p_nn2$getParams(5)$weights"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
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   "outputs": [],
   "source": [
    "e_nn = computeError(data, p_nn, H)\n",
    "e_nn2 = computeError(data, p_nn2, H)\n",
    "e_az = computeError(data, p_az, H)\n",
    "e_pz = computeError(data, p_pz, H)\n",
    "options(repr.plot.width=9, repr.plot.height=7)\n",
    "plotError(list(e_nn, e_pz, e_az, e_nn2), cols=c(1,2,colors()[258], 4))\n",
    "\n",
    "# Noir: Neighbors, bleu: Neighbors2, vert: moyenne, rouge: persistence\n",
    "\n",
    "i_np = which.min(e_nn$abs$indices)\n",
    "i_p = which.max(e_nn$abs$indices)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
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   "outputs": [],
   "source": [
    "options(repr.plot.width=9, repr.plot.height=4)\n",
    "par(mfrow=c(1,2))\n",
    "\n",
    "plotPredReal(data, p_nn, i_np); title(paste(\"PredReal nn day\",i_np))\n",
    "plotPredReal(data, p_nn2, i_p); title(paste(\"PredReal nn day\",i_p))\n",
    "\n",
    "plotPredReal(data, p_nn2, i_np); title(paste(\"PredReal nn2 day\",i_np))\n",
    "plotPredReal(data, p_nn2, i_p); title(paste(\"PredReal nn2 day\",i_p))\n",
    "\n",
    "plotPredReal(data, p_az, i_np); title(paste(\"PredReal az day\",i_np))\n",
    "plotPredReal(data, p_az, i_p); title(paste(\"PredReal az day\",i_p))\n",
    "\n",
    "# Bleu: prévue, noir: réalisée"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
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   "outputs": [],
   "source": [
    "par(mfrow=c(1,2))\n",
    "f_np = computeFilaments(data, p_nn, i_np, plot=TRUE); title(paste(\"Filaments nn day\",i_np))\n",
    "f_p = computeFilaments(data, p_nn, i_p, plot=TRUE); title(paste(\"Filaments nn day\",i_p))\n",
    "\n",
    "f_np2 = computeFilaments(data, p_nn2, i_np, plot=TRUE); title(paste(\"Filaments nn2 day\",i_np))\n",
    "f_p2 = computeFilaments(data, p_nn2, i_p, plot=TRUE); title(paste(\"Filaments nn2 day\",i_p))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
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   "outputs": [],
   "source": [
    "par(mfrow=c(1,2))\n",
    "plotFilamentsBox(data, f_np); title(paste(\"FilBox nn day\",i_np))\n",
    "plotFilamentsBox(data, f_p); title(paste(\"FilBox nn day\",i_p))\n",
    "\n",
    "plotFilamentsBox(data, f_np2); title(paste(\"FilBox nn2 day\",i_np))\n",
    "plotFilamentsBox(data, f_p2); title(paste(\"FilBox nn2 day\",i_p))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "par(mfrow=c(1,2))\n",
    "plotRelVar(data, f_np); title(paste(\"StdDev nn day\",i_np))\n",
    "plotRelVar(data, f_p); title(paste(\"StdDev nn day\",i_p))\n",
    "\n",
    "plotRelVar(data, f_np2); title(paste(\"StdDev nn2 day\",i_np))\n",
    "plotRelVar(data, f_p2); title(paste(\"StdDev nn2 day\",i_p))\n",
    "\n",
    "# Variabilité globale en rouge ; sur les 60 voisins (+ lendemains) en noir"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "par(mfrow=c(1,2))\n",
    "plotSimils(p_nn, i_np); title(paste(\"Weights nn day\",i_np))\n",
    "plotSimils(p_nn, i_p); title(paste(\"Weights nn day\",i_p))\n",
    "\n",
    "plotSimils(p_nn2, i_np); title(paste(\"Weights nn2 day\",i_np))\n",
    "plotSimils(p_nn2, i_p); title(paste(\"Weights nn2 day\",i_p))\n",
    "\n",
    "# - pollué à gauche, + pollué à droite"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "# Fenêtres sélectionnées dans ]0,7] / nn à gauche, nn2 à droite\n",
    "p_nn$getParams(i_np)$window\n",
    "p_nn$getParams(i_p)$window\n",
    "\n",
    "p_nn2$getParams(i_np)$window\n",
    "p_nn2$getParams(i_p)$window"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "deletable": true,
    "editable": true
   },
   "source": [
    "\n",
    "\n",
    "<h2 style=\"color:blue;font-size:2em\">Pollution par épandage</h2>"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "p_nn = computeForecast(data, indices_ep, \"Neighbors\", \"Neighbors\", horizon=H)\n",
    "p_nn2 = computeForecast(data, indices_ep, \"Neighbors2\", \"Zero\", horizon=H)\n",
    "p_az = computeForecast(data, indices_ep, \"Average\", \"Zero\", horizon=H)\n",
    "p_pz = computeForecast(data, indices_ep, \"Persistence\", \"Zero\", horizon=H, same_day=TRUE)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "e_nn = computeError(data, p_nn, H)\n",
    "e_nn2 = computeError(data, p_nn2, H)\n",
    "e_az = computeError(data, p_az, H)\n",
    "e_pz = computeError(data, p_pz, H)\n",
    "options(repr.plot.width=9, repr.plot.height=7)\n",
    "plotError(list(e_nn, e_pz, e_az, e_nn2), cols=c(1,2,colors()[258], 4))\n",
    "\n",
    "# Noir: Neighbors, bleu: Neighbors2, vert: moyenne, rouge: persistence\n",
    "\n",
    "i_np = which.min(e_nn$abs$indices)\n",
    "i_p = which.max(e_nn$abs$indices)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "options(repr.plot.width=9, repr.plot.height=4)\n",
    "par(mfrow=c(1,2))\n",
    "\n",
    "plotPredReal(data, p_nn, i_np); title(paste(\"PredReal nn day\",i_np))\n",
    "plotPredReal(data, p_nn2, i_p); title(paste(\"PredReal nn day\",i_p))\n",
    "\n",
    "plotPredReal(data, p_nn2, i_np); title(paste(\"PredReal nn2 day\",i_np))\n",
    "plotPredReal(data, p_nn2, i_p); title(paste(\"PredReal nn2 day\",i_p))\n",
    "\n",
    "plotPredReal(data, p_az, i_np); title(paste(\"PredReal az day\",i_np))\n",
    "plotPredReal(data, p_az, i_p); title(paste(\"PredReal az day\",i_p))\n",
    "\n",
    "# Bleu: prévue, noir: réalisée"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "par(mfrow=c(1,2))\n",
    "f_np = computeFilaments(data, p_nn, i_np, plot=TRUE); title(paste(\"Filaments nn day\",i_np))\n",
    "f_p = computeFilaments(data, p_nn, i_p, plot=TRUE); title(paste(\"Filaments nn day\",i_p))\n",
    "\n",
    "f_np2 = computeFilaments(data, p_nn2, i_np, plot=TRUE); title(paste(\"Filaments nn2 day\",i_np))\n",
    "f_p2 = computeFilaments(data, p_nn2, i_p, plot=TRUE); title(paste(\"Filaments nn2 day\",i_p))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "par(mfrow=c(1,2))\n",
    "plotFilamentsBox(data, f_np); title(paste(\"FilBox nn day\",i_np))\n",
    "plotFilamentsBox(data, f_p); title(paste(\"FilBox nn day\",i_p))\n",
    "\n",
    "plotFilamentsBox(data, f_np2); title(paste(\"FilBox nn2 day\",i_np))\n",
    "plotFilamentsBox(data, f_p2); title(paste(\"FilBox nn2 day\",i_p))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "par(mfrow=c(1,2))\n",
    "plotRelVar(data, f_np); title(paste(\"StdDev nn day\",i_np))\n",
    "plotRelVar(data, f_p); title(paste(\"StdDev nn day\",i_p))\n",
    "\n",
    "plotRelVar(data, f_np2); title(paste(\"StdDev nn2 day\",i_np))\n",
    "plotRelVar(data, f_p2); title(paste(\"StdDev nn2 day\",i_p))\n",
    "\n",
    "# Variabilité globale en rouge ; sur les 60 voisins (+ lendemains) en noir"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "par(mfrow=c(1,2))\n",
    "plotSimils(p_nn, i_np); title(paste(\"Weights nn day\",i_np))\n",
    "plotSimils(p_nn, i_p); title(paste(\"Weights nn day\",i_p))\n",
    "\n",
    "plotSimils(p_nn2, i_np); title(paste(\"Weights nn2 day\",i_np))\n",
    "plotSimils(p_nn2, i_p); title(paste(\"Weights nn2 day\",i_p))\n",
    "\n",
    "# - pollué à gauche, + pollué à droite"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "# Fenêtres sélectionnées dans ]0,7] / nn à gauche, nn2 à droite\n",
    "p_nn$getParams(i_np)$window\n",
    "p_nn$getParams(i_p)$window\n",
    "\n",
    "p_nn2$getParams(i_np)$window\n",
    "p_nn2$getParams(i_p)$window"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "deletable": true,
    "editable": true
   },
   "source": [
    "\n",
    "\n",
    "<h2 style=\"color:blue;font-size:2em\">Semaine non polluée</h2>"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "p_nn = computeForecast(data, indices_np, \"Neighbors\", \"Neighbors\", horizon=H)\n",
    "p_nn2 = computeForecast(data, indices_np, \"Neighbors2\", \"Zero\", horizon=H)\n",
    "p_az = computeForecast(data, indices_np, \"Average\", \"Zero\", horizon=H)\n",
    "p_pz = computeForecast(data, indices_np, \"Persistence\", \"Zero\", horizon=H, same_day=FALSE)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
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   "outputs": [],
   "source": [
    "e_nn = computeError(data, p_nn, H)\n",
    "e_nn2 = computeError(data, p_nn2, H)\n",
    "e_az = computeError(data, p_az, H)\n",
    "e_pz = computeError(data, p_pz, H)\n",
    "options(repr.plot.width=9, repr.plot.height=7)\n",
    "plotError(list(e_nn, e_pz, e_az, e_nn2), cols=c(1,2,colors()[258], 4))\n",
    "\n",
    "# Noir: Neighbors, bleu: Neighbors2, vert: moyenne, rouge: persistence\n",
    "\n",
    "i_np = which.min(e_nn$abs$indices)\n",
    "i_p = which.max(e_nn$abs$indices)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "options(repr.plot.width=9, repr.plot.height=4)\n",
    "par(mfrow=c(1,2))\n",
    "\n",
    "plotPredReal(data, p_nn, i_np); title(paste(\"PredReal nn day\",i_np))\n",
    "plotPredReal(data, p_nn2, i_p); title(paste(\"PredReal nn day\",i_p))\n",
    "\n",
    "plotPredReal(data, p_nn2, i_np); title(paste(\"PredReal nn2 day\",i_np))\n",
    "plotPredReal(data, p_nn2, i_p); title(paste(\"PredReal nn2 day\",i_p))\n",
    "\n",
    "plotPredReal(data, p_az, i_np); title(paste(\"PredReal az day\",i_np))\n",
    "plotPredReal(data, p_az, i_p); title(paste(\"PredReal az day\",i_p))\n",
    "\n",
    "# Bleu: prévue, noir: réalisée"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "par(mfrow=c(1,2))\n",
    "f_np = computeFilaments(data, p_nn, i_np, plot=TRUE); title(paste(\"Filaments nn day\",i_np))\n",
    "f_p = computeFilaments(data, p_nn, i_p, plot=TRUE); title(paste(\"Filaments nn day\",i_p))\n",
    "\n",
    "f_np2 = computeFilaments(data, p_nn2, i_np, plot=TRUE); title(paste(\"Filaments nn2 day\",i_np))\n",
    "f_p2 = computeFilaments(data, p_nn2, i_p, plot=TRUE); title(paste(\"Filaments nn2 day\",i_p))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "par(mfrow=c(1,2))\n",
    "plotFilamentsBox(data, f_np); title(paste(\"FilBox nn day\",i_np))\n",
    "plotFilamentsBox(data, f_p); title(paste(\"FilBox nn day\",i_p))\n",
    "\n",
    "plotFilamentsBox(data, f_np2); title(paste(\"FilBox nn2 day\",i_np))\n",
    "plotFilamentsBox(data, f_p2); title(paste(\"FilBox nn2 day\",i_p))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "par(mfrow=c(1,2))\n",
    "plotRelVar(data, f_np); title(paste(\"StdDev nn day\",i_np))\n",
    "plotRelVar(data, f_p); title(paste(\"StdDev nn day\",i_p))\n",
    "\n",
    "plotRelVar(data, f_np2); title(paste(\"StdDev nn2 day\",i_np))\n",
    "plotRelVar(data, f_p2); title(paste(\"StdDev nn2 day\",i_p))\n",
    "\n",
    "# Variabilité globale en rouge ; sur les 60 voisins (+ lendemains) en noir"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "par(mfrow=c(1,2))\n",
    "plotSimils(p_nn, i_np); title(paste(\"Weights nn day\",i_np))\n",
    "plotSimils(p_nn, i_p); title(paste(\"Weights nn day\",i_p))\n",
    "\n",
    "plotSimils(p_nn2, i_np); title(paste(\"Weights nn2 day\",i_np))\n",
    "plotSimils(p_nn2, i_p); title(paste(\"Weights nn2 day\",i_p))\n",
    "\n",
    "# - pollué à gauche, + pollué à droite"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": false,
    "deletable": true,
    "editable": true
   },
   "outputs": [],
   "source": [
    "# Fenêtres sélectionnées dans ]0,7] / nn à gauche, nn2 à droite\n",
    "p_nn$getParams(i_np)$window\n",
    "p_nn$getParams(i_p)$window\n",
    "\n",
    "p_nn2$getParams(i_np)$window\n",
    "p_nn2$getParams(i_p)$window"
   ]
  }
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	10	"\n",
	11	"\n",
	12	"<h2>Introduction</h2>\n",
	13	"\n",
	14	"J'ai fait quelques essais dans différentes configurations pour la méthode \"Neighbors\"\n",
6774e53d BA	15	"(la seule dont on a parlé) et sa variante récente appelée pour l'instant \"Neighbors2\",\n",
	16	"avec simtype=\"mix\" : deux types de similarités prises en compte, puis multiplication des poids.\n",
	17	"Pour Neighbors on prédit le saut (par la moyenne pondérée des sauts passés), et pour Neighbors2\n",
	18	"on n'effectue aucun raccordement (prévision directe).\n",
ff5df8e3	19	"\n",
6774e53d BA	20	"J'ai systématiquement comparé à une approche naïve : la moyenne des lendemains des jours\n",
	21	"\"similaires\" dans tout le passé, ainsi qu'à la persistence -- reproduisant le jour courant ou\n",
	22	"allant chercher le futur similaire une semaine avant.\n",
ff5df8e3 BA	23	"\n",
	24	"Ensuite j'affiche les erreurs, quelques courbes prévues/mesurées, quelques filaments puis les\n",
	25	"histogrammes de quelques poids. Concernant les graphes de filaments, la moitié gauche du graphe\n",
	26	"correspond aux jours similaires au jour courant, tandis que la moitié droite affiche les\n",
	27	"lendemains : ce sont donc les voisinages tels qu'utilisés dans l'algorithme.\n",
	28	"\n"
	29	]
	30	},
	31	{
	32	"cell_type": "code",
	33	"execution_count": null,
5e838b3e BA	34	"metadata": {
	35	"collapsed": false,
	36	"deletable": true,
	37	"editable": true
	38	},
ff5df8e3 BA	39	"outputs": [],
	40	"source": [
	41	"library(talweg)\n",
	42	"\n",
6774e53d BA	43	"P = 7 #instant de prévision\n",
	44	"H = 17 #horizon (en heures)\n",
	45	"\n",
ff5df8e3 BA	46	"ts_data = read.csv(system.file(\"extdata\",\"pm10_mesures_H_loc_report.csv\",package=\"talweg\"))\n",
ff5df8e3 BA	47	"exo_data = read.csv(system.file(\"extdata\",\"meteo_extra_noNAs.csv\",package=\"talweg\"))\n",
6774e53d BA	48	"# NOTE: 'GMT' because DST gaps are filled and multiple values merged in above dataset.\n",
	49	"# Prediction from P+1 to P+H included.\n",
	50	"data = getData(ts_data, exo_data, input_tz = \"GMT\", working_tz=\"GMT\", predict_at=P)\n",
ff5df8e3 BA	51	"\n",
	52	"indices_ch = seq(as.Date(\"2015-01-18\"),as.Date(\"2015-01-24\"),\"days\")\n",
	53	"indices_ep = seq(as.Date(\"2015-03-15\"),as.Date(\"2015-03-21\"),\"days\")\n",
6774e53d	54	"indices_np = seq(as.Date(\"2015-04-26\"),as.Date(\"2015-05-02\"),\"days\")\n"
ff5df8e3 BA	55	]
	56	},
	57	{
	58	"cell_type": "markdown",
5e838b3e BA	59	"metadata": {
	60	"deletable": true,
	61	"editable": true
	62	},
ff5df8e3	63	"source": [
6774e53d BA	64	"\n",
6774e53d BA	65	"\n",
ff5df8e3 BA	66	"<h2 style=\"color:blue;font-size:2em\">Pollution par chauffage</h2>"
	67	]
	68	},
	69	{
	70	"cell_type": "code",
	71	"execution_count": null,
5e838b3e BA	72	"metadata": {
	73	"collapsed": false,
	74	"deletable": true,
	75	"editable": true
	76	},
ff5df8e3 BA	77	"outputs": [],
ff5df8e3 BA	78	"source": [
5e838b3e	79	"reload(\"../pkg\")\n",
6774e53d BA	80	"p_nn = computeForecast(data, indices_ch, \"Neighbors\", \"Neighbors\", horizon=H)\n",
	81	"p_nn2 = computeForecast(data, indices_ch, \"Neighbors2\", \"Neighbors\", horizon=H)\n",
	82	"p_az = computeForecast(data, indices_ch, \"Average\", \"Zero\", horizon=H)\n",
	83	"p_pz = computeForecast(data, indices_ch, \"Persistence\", \"Zero\", horizon=H, same_day=TRUE)"
a866acb3 BA	84	]
	85	},
	86	{
	87	"cell_type": "code",
	88	"execution_count": null,
	89	"metadata": {
6774e53d	90	"collapsed": false
5e838b3e BA	91	},
	92	"outputs": [],
	93	"source": [
6774e53d	94	"p_nn2$getParams(5)$weights"
ff5df8e3 BA	95	]
	96	},
	97	{
	98	"cell_type": "code",
	99	"execution_count": null,
5e838b3e BA	100	"metadata": {
	101	"collapsed": false,
	102	"deletable": true,
	103	"editable": true
	104	},
ff5df8e3 BA	105	"outputs": [],
ff5df8e3 BA	106	"source": [
6774e53d BA	107	"e_nn = computeError(data, p_nn, H)\n",
	108	"e_nn2 = computeError(data, p_nn2, H)\n",
	109	"e_az = computeError(data, p_az, H)\n",
	110	"e_pz = computeError(data, p_pz, H)\n",
	111	"options(repr.plot.width=9, repr.plot.height=7)\n",
	112	"plotError(list(e_nn, e_pz, e_az, e_nn2), cols=c(1,2,colors()[258], 4))\n",
	113	"\n",
	114	"# Noir: Neighbors, bleu: Neighbors2, vert: moyenne, rouge: persistence\n",
	115	"\n",
	116	"i_np = which.min(e_nn$abs$indices)\n",
	117	"i_p = which.max(e_nn$abs$indices)"
ff5df8e3 BA	118	]
	119	},
	120	{
	121	"cell_type": "code",
	122	"execution_count": null,
5e838b3e BA	123	"metadata": {
	124	"collapsed": false,
	125	"deletable": true,
	126	"editable": true
	127	},
ff5df8e3 BA	128	"outputs": [],
	129	"source": [
	130	"options(repr.plot.width=9, repr.plot.height=4)\n",
	131	"par(mfrow=c(1,2))\n",
	132	"\n",
6774e53d BA	133	"plotPredReal(data, p_nn, i_np); title(paste(\"PredReal nn day\",i_np))\n",
	134	"plotPredReal(data, p_nn2, i_p); title(paste(\"PredReal nn day\",i_p))\n",
	135	"\n",
	136	"plotPredReal(data, p_nn2, i_np); title(paste(\"PredReal nn2 day\",i_np))\n",
	137	"plotPredReal(data, p_nn2, i_p); title(paste(\"PredReal nn2 day\",i_p))\n",
ff5df8e3	138	"\n",
6774e53d BA	139	"plotPredReal(data, p_az, i_np); title(paste(\"PredReal az day\",i_np))\n",
6774e53d BA	140	"plotPredReal(data, p_az, i_p); title(paste(\"PredReal az day\",i_p))\n",
ff5df8e3 BA	141	"\n",
	142	"# Bleu: prévue, noir: réalisée"
	143	]
	144	},
	145	{
	146	"cell_type": "code",
	147	"execution_count": null,
5e838b3e BA	148	"metadata": {
	149	"collapsed": false,
	150	"deletable": true,
	151	"editable": true
	152	},
ff5df8e3 BA	153	"outputs": [],
	154	"source": [
	155	"par(mfrow=c(1,2))\n",
6774e53d BA	156	"f_np = computeFilaments(data, p_nn, i_np, plot=TRUE); title(paste(\"Filaments nn day\",i_np))\n",
6774e53d BA	157	"f_p = computeFilaments(data, p_nn, i_p, plot=TRUE); title(paste(\"Filaments nn day\",i_p))\n",
ff5df8e3	158	"\n",
6774e53d BA	159	"f_np2 = computeFilaments(data, p_nn2, i_np, plot=TRUE); title(paste(\"Filaments nn2 day\",i_np))\n",
6774e53d BA	160	"f_p2 = computeFilaments(data, p_nn2, i_p, plot=TRUE); title(paste(\"Filaments nn2 day\",i_p))"
ff5df8e3 BA	161	]
	162	},
	163	{
	164	"cell_type": "code",
	165	"execution_count": null,
5e838b3e BA	166	"metadata": {
	167	"collapsed": false,
	168	"deletable": true,
	169	"editable": true
	170	},
ff5df8e3 BA	171	"outputs": [],
	172	"source": [
	173	"par(mfrow=c(1,2))\n",
6774e53d BA	174	"plotFilamentsBox(data, f_np); title(paste(\"FilBox nn day\",i_np))\n",
6774e53d BA	175	"plotFilamentsBox(data, f_p); title(paste(\"FilBox nn day\",i_p))\n",
ff5df8e3	176	"\n",
6774e53d BA	177	"plotFilamentsBox(data, f_np2); title(paste(\"FilBox nn2 day\",i_np))\n",
6774e53d BA	178	"plotFilamentsBox(data, f_p2); title(paste(\"FilBox nn2 day\",i_p))"
ff5df8e3 BA	179	]
	180	},
	181	{
	182	"cell_type": "code",
	183	"execution_count": null,
5e838b3e BA	184	"metadata": {
	185	"collapsed": false,
	186	"deletable": true,
	187	"editable": true
	188	},
ff5df8e3 BA	189	"outputs": [],
	190	"source": [
	191	"par(mfrow=c(1,2))\n",
6774e53d BA	192	"plotRelVar(data, f_np); title(paste(\"StdDev nn day\",i_np))\n",
6774e53d BA	193	"plotRelVar(data, f_p); title(paste(\"StdDev nn day\",i_p))\n",
ff5df8e3	194	"\n",
6774e53d BA	195	"plotRelVar(data, f_np2); title(paste(\"StdDev nn2 day\",i_np))\n",
6774e53d BA	196	"plotRelVar(data, f_p2); title(paste(\"StdDev nn2 day\",i_p))\n",
ff5df8e3 BA	197	"\n",
	198	"# Variabilité globale en rouge ; sur les 60 voisins (+ lendemains) en noir"
	199	]
	200	},
	201	{
	202	"cell_type": "code",
	203	"execution_count": null,
5e838b3e BA	204	"metadata": {
	205	"collapsed": false,
	206	"deletable": true,
	207	"editable": true
	208	},
ff5df8e3 BA	209	"outputs": [],
	210	"source": [
	211	"par(mfrow=c(1,2))\n",
6774e53d BA	212	"plotSimils(p_nn, i_np); title(paste(\"Weights nn day\",i_np))\n",
6774e53d BA	213	"plotSimils(p_nn, i_p); title(paste(\"Weights nn day\",i_p))\n",
ff5df8e3	214	"\n",
6774e53d BA	215	"plotSimils(p_nn2, i_np); title(paste(\"Weights nn2 day\",i_np))\n",
6774e53d BA	216	"plotSimils(p_nn2, i_p); title(paste(\"Weights nn2 day\",i_p))\n",
ff5df8e3 BA	217	"\n",
	218	"# - pollué à gauche, + pollué à droite"
	219	]
	220	},
	221	{
	222	"cell_type": "code",
	223	"execution_count": null,
5e838b3e BA	224	"metadata": {
	225	"collapsed": false,
	226	"deletable": true,
	227	"editable": true
	228	},
ff5df8e3 BA	229	"outputs": [],
ff5df8e3 BA	230	"source": [
6774e53d BA	231	"# Fenêtres sélectionnées dans ]0,7] / nn à gauche, nn2 à droite\n",
	232	"p_nn$getParams(i_np)$window\n",
	233	"p_nn$getParams(i_p)$window\n",
ff5df8e3	234	"\n",
6774e53d BA	235	"p_nn2$getParams(i_np)$window\n",
6774e53d BA	236	"p_nn2$getParams(i_p)$window"
ff5df8e3 BA	237	]
	238	},
	239	{
	240	"cell_type": "markdown",
5e838b3e BA	241	"metadata": {
	242	"deletable": true,
	243	"editable": true
	244	},
ff5df8e3 BA	245	"source": [
	246	"\n",
	247	"\n",
	248	"<h2 style=\"color:blue;font-size:2em\">Pollution par épandage</h2>"
	249	]
	250	},
	251	{
	252	"cell_type": "code",
	253	"execution_count": null,
5e838b3e BA	254	"metadata": {
	255	"collapsed": false,
	256	"deletable": true,
	257	"editable": true
	258	},
ff5df8e3 BA	259	"outputs": [],
ff5df8e3 BA	260	"source": [
6774e53d BA	261	"p_nn = computeForecast(data, indices_ep, \"Neighbors\", \"Neighbors\", horizon=H)\n",
	262	"p_nn2 = computeForecast(data, indices_ep, \"Neighbors2\", \"Zero\", horizon=H)\n",
	263	"p_az = computeForecast(data, indices_ep, \"Average\", \"Zero\", horizon=H)\n",
	264	"p_pz = computeForecast(data, indices_ep, \"Persistence\", \"Zero\", horizon=H, same_day=TRUE)"
ff5df8e3 BA	265	]
	266	},
	267	{
	268	"cell_type": "code",
	269	"execution_count": null,
5e838b3e BA	270	"metadata": {
	271	"collapsed": false,
	272	"deletable": true,
	273	"editable": true
	274	},
ff5df8e3 BA	275	"outputs": [],
ff5df8e3 BA	276	"source": [
6774e53d BA	277	"e_nn = computeError(data, p_nn, H)\n",
	278	"e_nn2 = computeError(data, p_nn2, H)\n",
	279	"e_az = computeError(data, p_az, H)\n",
	280	"e_pz = computeError(data, p_pz, H)\n",
ff5df8e3	281	"options(repr.plot.width=9, repr.plot.height=7)\n",
6774e53d	282	"plotError(list(e_nn, e_pz, e_az, e_nn2), cols=c(1,2,colors()[258], 4))\n",
ff5df8e3	283	"\n",
6774e53d	284	"# Noir: Neighbors, bleu: Neighbors2, vert: moyenne, rouge: persistence\n",
ff5df8e3	285	"\n",
6774e53d BA	286	"i_np = which.min(e_nn$abs$indices)\n",
6774e53d BA	287	"i_p = which.max(e_nn$abs$indices)"
ff5df8e3 BA	288	]
	289	},
	290	{
	291	"cell_type": "code",
	292	"execution_count": null,
5e838b3e BA	293	"metadata": {
	294	"collapsed": false,
	295	"deletable": true,
	296	"editable": true
	297	},
ff5df8e3 BA	298	"outputs": [],
	299	"source": [
	300	"options(repr.plot.width=9, repr.plot.height=4)\n",
	301	"par(mfrow=c(1,2))\n",
	302	"\n",
6774e53d BA	303	"plotPredReal(data, p_nn, i_np); title(paste(\"PredReal nn day\",i_np))\n",
6774e53d BA	304	"plotPredReal(data, p_nn2, i_p); title(paste(\"PredReal nn day\",i_p))\n",
ff5df8e3	305	"\n",
6774e53d BA	306	"plotPredReal(data, p_nn2, i_np); title(paste(\"PredReal nn2 day\",i_np))\n",
6774e53d BA	307	"plotPredReal(data, p_nn2, i_p); title(paste(\"PredReal nn2 day\",i_p))\n",
ff5df8e3 BA	308	"\n",
	309	"plotPredReal(data, p_az, i_np); title(paste(\"PredReal az day\",i_np))\n",
	310	"plotPredReal(data, p_az, i_p); title(paste(\"PredReal az day\",i_p))\n",
	311	"\n",
	312	"# Bleu: prévue, noir: réalisée"
	313	]
	314	},
	315	{
	316	"cell_type": "code",
	317	"execution_count": null,
5e838b3e BA	318	"metadata": {
	319	"collapsed": false,
	320	"deletable": true,
	321	"editable": true
	322	},
ff5df8e3 BA	323	"outputs": [],
	324	"source": [
	325	"par(mfrow=c(1,2))\n",
6774e53d BA	326	"f_np = computeFilaments(data, p_nn, i_np, plot=TRUE); title(paste(\"Filaments nn day\",i_np))\n",
6774e53d BA	327	"f_p = computeFilaments(data, p_nn, i_p, plot=TRUE); title(paste(\"Filaments nn day\",i_p))\n",
ff5df8e3	328	"\n",
6774e53d BA	329	"f_np2 = computeFilaments(data, p_nn2, i_np, plot=TRUE); title(paste(\"Filaments nn2 day\",i_np))\n",
6774e53d BA	330	"f_p2 = computeFilaments(data, p_nn2, i_p, plot=TRUE); title(paste(\"Filaments nn2 day\",i_p))"
ff5df8e3 BA	331	]
	332	},
	333	{
	334	"cell_type": "code",
	335	"execution_count": null,
5e838b3e BA	336	"metadata": {
	337	"collapsed": false,
	338	"deletable": true,
	339	"editable": true
	340	},
ff5df8e3 BA	341	"outputs": [],
	342	"source": [
	343	"par(mfrow=c(1,2))\n",
6774e53d BA	344	"plotFilamentsBox(data, f_np); title(paste(\"FilBox nn day\",i_np))\n",
6774e53d BA	345	"plotFilamentsBox(data, f_p); title(paste(\"FilBox nn day\",i_p))\n",
ff5df8e3	346	"\n",
6774e53d BA	347	"plotFilamentsBox(data, f_np2); title(paste(\"FilBox nn2 day\",i_np))\n",
6774e53d BA	348	"plotFilamentsBox(data, f_p2); title(paste(\"FilBox nn2 day\",i_p))"
ff5df8e3 BA	349	]
	350	},
	351	{
	352	"cell_type": "code",
	353	"execution_count": null,
5e838b3e BA	354	"metadata": {
	355	"collapsed": false,
	356	"deletable": true,
	357	"editable": true
	358	},
ff5df8e3 BA	359	"outputs": [],
	360	"source": [
	361	"par(mfrow=c(1,2))\n",
6774e53d BA	362	"plotRelVar(data, f_np); title(paste(\"StdDev nn day\",i_np))\n",
6774e53d BA	363	"plotRelVar(data, f_p); title(paste(\"StdDev nn day\",i_p))\n",
ff5df8e3	364	"\n",
6774e53d BA	365	"plotRelVar(data, f_np2); title(paste(\"StdDev nn2 day\",i_np))\n",
6774e53d BA	366	"plotRelVar(data, f_p2); title(paste(\"StdDev nn2 day\",i_p))\n",
ff5df8e3 BA	367	"\n",
	368	"# Variabilité globale en rouge ; sur les 60 voisins (+ lendemains) en noir"
	369	]
	370	},
	371	{
	372	"cell_type": "code",
	373	"execution_count": null,
5e838b3e BA	374	"metadata": {
	375	"collapsed": false,
	376	"deletable": true,
	377	"editable": true
	378	},
ff5df8e3 BA	379	"outputs": [],
	380	"source": [
	381	"par(mfrow=c(1,2))\n",
6774e53d BA	382	"plotSimils(p_nn, i_np); title(paste(\"Weights nn day\",i_np))\n",
6774e53d BA	383	"plotSimils(p_nn, i_p); title(paste(\"Weights nn day\",i_p))\n",
ff5df8e3	384	"\n",
6774e53d BA	385	"plotSimils(p_nn2, i_np); title(paste(\"Weights nn2 day\",i_np))\n",
6774e53d BA	386	"plotSimils(p_nn2, i_p); title(paste(\"Weights nn2 day\",i_p))\n",
ff5df8e3 BA	387	"\n",
	388	"# - pollué à gauche, + pollué à droite"
	389	]
	390	},
	391	{
	392	"cell_type": "code",
	393	"execution_count": null,
5e838b3e BA	394	"metadata": {
	395	"collapsed": false,
	396	"deletable": true,
	397	"editable": true
	398	},
ff5df8e3 BA	399	"outputs": [],
ff5df8e3 BA	400	"source": [
6774e53d BA	401	"# Fenêtres sélectionnées dans ]0,7] / nn à gauche, nn2 à droite\n",
	402	"p_nn$getParams(i_np)$window\n",
	403	"p_nn$getParams(i_p)$window\n",
ff5df8e3	404	"\n",
6774e53d BA	405	"p_nn2$getParams(i_np)$window\n",
6774e53d BA	406	"p_nn2$getParams(i_p)$window"
ff5df8e3 BA	407	]
	408	},
	409	{
	410	"cell_type": "markdown",
5e838b3e BA	411	"metadata": {
	412	"deletable": true,
	413	"editable": true
	414	},
ff5df8e3 BA	415	"source": [
	416	"\n",
	417	"\n",
	418	"<h2 style=\"color:blue;font-size:2em\">Semaine non polluée</h2>"
	419	]
	420	},
	421	{
	422	"cell_type": "code",
	423	"execution_count": null,
5e838b3e BA	424	"metadata": {
	425	"collapsed": false,
	426	"deletable": true,
	427	"editable": true
	428	},
ff5df8e3 BA	429	"outputs": [],
ff5df8e3 BA	430	"source": [
6774e53d BA	431	"p_nn = computeForecast(data, indices_np, \"Neighbors\", \"Neighbors\", horizon=H)\n",
	432	"p_nn2 = computeForecast(data, indices_np, \"Neighbors2\", \"Zero\", horizon=H)\n",
	433	"p_az = computeForecast(data, indices_np, \"Average\", \"Zero\", horizon=H)\n",
	434	"p_pz = computeForecast(data, indices_np, \"Persistence\", \"Zero\", horizon=H, same_day=FALSE)"
ff5df8e3 BA	435	]
	436	},
	437	{
	438	"cell_type": "code",
	439	"execution_count": null,
5e838b3e BA	440	"metadata": {
	441	"collapsed": false,
	442	"deletable": true,
	443	"editable": true
	444	},
ff5df8e3 BA	445	"outputs": [],
ff5df8e3 BA	446	"source": [
6774e53d BA	447	"e_nn = computeError(data, p_nn, H)\n",
	448	"e_nn2 = computeError(data, p_nn2, H)\n",
	449	"e_az = computeError(data, p_az, H)\n",
	450	"e_pz = computeError(data, p_pz, H)\n",
ff5df8e3	451	"options(repr.plot.width=9, repr.plot.height=7)\n",
6774e53d	452	"plotError(list(e_nn, e_pz, e_az, e_nn2), cols=c(1,2,colors()[258], 4))\n",
ff5df8e3	453	"\n",
6774e53d	454	"# Noir: Neighbors, bleu: Neighbors2, vert: moyenne, rouge: persistence\n",
ff5df8e3	455	"\n",
6774e53d BA	456	"i_np = which.min(e_nn$abs$indices)\n",
6774e53d BA	457	"i_p = which.max(e_nn$abs$indices)"
ff5df8e3 BA	458	]
	459	},
	460	{
	461	"cell_type": "code",
	462	"execution_count": null,
5e838b3e BA	463	"metadata": {
	464	"collapsed": false,
	465	"deletable": true,
	466	"editable": true
	467	},
ff5df8e3 BA	468	"outputs": [],
	469	"source": [
	470	"options(repr.plot.width=9, repr.plot.height=4)\n",
	471	"par(mfrow=c(1,2))\n",
	472	"\n",
6774e53d BA	473	"plotPredReal(data, p_nn, i_np); title(paste(\"PredReal nn day\",i_np))\n",
6774e53d BA	474	"plotPredReal(data, p_nn2, i_p); title(paste(\"PredReal nn day\",i_p))\n",
ff5df8e3	475	"\n",
6774e53d BA	476	"plotPredReal(data, p_nn2, i_np); title(paste(\"PredReal nn2 day\",i_np))\n",
6774e53d BA	477	"plotPredReal(data, p_nn2, i_p); title(paste(\"PredReal nn2 day\",i_p))\n",
ff5df8e3 BA	478	"\n",
	479	"plotPredReal(data, p_az, i_np); title(paste(\"PredReal az day\",i_np))\n",
	480	"plotPredReal(data, p_az, i_p); title(paste(\"PredReal az day\",i_p))\n",
	481	"\n",
	482	"# Bleu: prévue, noir: réalisée"
	483	]
	484	},
	485	{
	486	"cell_type": "code",
	487	"execution_count": null,
5e838b3e BA	488	"metadata": {
	489	"collapsed": false,
	490	"deletable": true,
	491	"editable": true
	492	},
ff5df8e3 BA	493	"outputs": [],
	494	"source": [
	495	"par(mfrow=c(1,2))\n",
6774e53d BA	496	"f_np = computeFilaments(data, p_nn, i_np, plot=TRUE); title(paste(\"Filaments nn day\",i_np))\n",
6774e53d BA	497	"f_p = computeFilaments(data, p_nn, i_p, plot=TRUE); title(paste(\"Filaments nn day\",i_p))\n",
ff5df8e3	498	"\n",
6774e53d BA	499	"f_np2 = computeFilaments(data, p_nn2, i_np, plot=TRUE); title(paste(\"Filaments nn2 day\",i_np))\n",
6774e53d BA	500	"f_p2 = computeFilaments(data, p_nn2, i_p, plot=TRUE); title(paste(\"Filaments nn2 day\",i_p))"
ff5df8e3 BA	501	]
	502	},
	503	{
	504	"cell_type": "code",
	505	"execution_count": null,
5e838b3e BA	506	"metadata": {
	507	"collapsed": false,
	508	"deletable": true,
	509	"editable": true
	510	},
ff5df8e3 BA	511	"outputs": [],
	512	"source": [
	513	"par(mfrow=c(1,2))\n",
6774e53d BA	514	"plotFilamentsBox(data, f_np); title(paste(\"FilBox nn day\",i_np))\n",
6774e53d BA	515	"plotFilamentsBox(data, f_p); title(paste(\"FilBox nn day\",i_p))\n",
ff5df8e3	516	"\n",
6774e53d BA	517	"plotFilamentsBox(data, f_np2); title(paste(\"FilBox nn2 day\",i_np))\n",
6774e53d BA	518	"plotFilamentsBox(data, f_p2); title(paste(\"FilBox nn2 day\",i_p))"
ff5df8e3 BA	519	]
	520	},
	521	{
	522	"cell_type": "code",
	523	"execution_count": null,
5e838b3e BA	524	"metadata": {
	525	"collapsed": false,
	526	"deletable": true,
	527	"editable": true
	528	},
ff5df8e3 BA	529	"outputs": [],
	530	"source": [
	531	"par(mfrow=c(1,2))\n",
6774e53d BA	532	"plotRelVar(data, f_np); title(paste(\"StdDev nn day\",i_np))\n",
6774e53d BA	533	"plotRelVar(data, f_p); title(paste(\"StdDev nn day\",i_p))\n",
ff5df8e3	534	"\n",
6774e53d BA	535	"plotRelVar(data, f_np2); title(paste(\"StdDev nn2 day\",i_np))\n",
6774e53d BA	536	"plotRelVar(data, f_p2); title(paste(\"StdDev nn2 day\",i_p))\n",
ff5df8e3 BA	537	"\n",
	538	"# Variabilité globale en rouge ; sur les 60 voisins (+ lendemains) en noir"
	539	]
	540	},
	541	{
	542	"cell_type": "code",
	543	"execution_count": null,
5e838b3e BA	544	"metadata": {
	545	"collapsed": false,
	546	"deletable": true,
	547	"editable": true
	548	},
ff5df8e3 BA	549	"outputs": [],
	550	"source": [
	551	"par(mfrow=c(1,2))\n",
6774e53d BA	552	"plotSimils(p_nn, i_np); title(paste(\"Weights nn day\",i_np))\n",
6774e53d BA	553	"plotSimils(p_nn, i_p); title(paste(\"Weights nn day\",i_p))\n",
ff5df8e3	554	"\n",
6774e53d BA	555	"plotSimils(p_nn2, i_np); title(paste(\"Weights nn2 day\",i_np))\n",
6774e53d BA	556	"plotSimils(p_nn2, i_p); title(paste(\"Weights nn2 day\",i_p))\n",
ff5df8e3 BA	557	"\n",
	558	"# - pollué à gauche, + pollué à droite"
	559	]
	560	},
	561	{
	562	"cell_type": "code",
	563	"execution_count": null,
5e838b3e BA	564	"metadata": {
	565	"collapsed": false,
	566	"deletable": true,
	567	"editable": true
	568	},
ff5df8e3 BA	569	"outputs": [],
ff5df8e3 BA	570	"source": [
6774e53d BA	571	"# Fenêtres sélectionnées dans ]0,7] / nn à gauche, nn2 à droite\n",
	572	"p_nn$getParams(i_np)$window\n",
	573	"p_nn$getParams(i_p)$window\n",
ff5df8e3	574	"\n",
6774e53d BA	575	"p_nn2$getParams(i_np)$window\n",
6774e53d BA	576	"p_nn2$getParams(i_p)$window"
ff5df8e3 BA	577	]
	578	}
	579	],
	580	"metadata": {
	581	"kernelspec": {
	582	"display_name": "R",
	583	"language": "R",
	584	"name": "ir"
	585	},
	586	"language_info": {
	587	"codemirror_mode": "r",
	588	"file_extension": ".r",
	589	"mimetype": "text/x-r-source",
	590	"name": "R",
	591	"pygments_lexer": "r",
	592	"version": "3.3.3"
	593	}
	594	},
	595	"nbformat": 4,
	596	"nbformat_minor": 2
	597	}