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{
"cells": [
{
"cell_type": "code",
"execution_count": 1,
"id": "6eda130d",
"metadata": {},
"outputs": [],
"source": [
"import pandas as pd\n",
"import numpy as np\n",
"from sklearn.model_selection import GridSearchCV, train_test_split"
]
},
{
"cell_type": "code",
"execution_count": 2,
"id": "64504238",
"metadata": {},
"outputs": [],
"source": [
"from keras.models import Sequential\n",
"from keras.layers import Dense, Activation, Dropout\n",
"\n",
"from keras import layers\n",
"from sklearn.neural_network import MLPClassifier\n",
"from sklearn.metrics import accuracy_score, f1_score, auc, roc_curve, roc_auc_score\n",
"from sklearn.preprocessing import StandardScaler\n",
"from keras.layers import Dense, LSTM, Dropout, GRU, Bidirectional\n",
"import pandas as pd\n",
"from keras.layers import LSTM, Dense\n",
"from keras.models import Sequential\n",
"from sklearn.preprocessing import MinMaxScaler\n",
"from sklearn.model_selection import train_test_split\n"
]
},
{
"cell_type": "code",
"execution_count": 3,
"id": "1160a496",
"metadata": {},
"outputs": [],
"source": [
"df = pd.read_csv('../Preprocessing/fight_with_stats_precomp.csv')\n",
"df_fighters = pd.read_csv('../Preprocessing/fighter_total_stats.csv')"
]
},
{
"cell_type": "code",
"execution_count": 4,
"id": "1313842b",
"metadata": {},
"outputs": [],
"source": [
"df_fighters_details = pd.read_csv('../Preprocessing/fighter_details.csv', parse_dates=True)"
]
},
{
"cell_type": "code",
"execution_count": 5,
"id": "cfad8be9",
"metadata": {},
"outputs": [],
"source": [
"df = df[(df['fightNo_fighter']>=3) & (df['fightNo_opponent']>=3) & (df['Women_fight']==0)]"
]
},
{
"cell_type": "code",
"execution_count": 6,
"id": "6fbc9051",
"metadata": {},
"outputs": [],
"source": [
"df = df.fillna(0)\n"
]
},
{
"cell_type": "code",
"execution_count": 7,
"id": "a380c164",
"metadata": {},
"outputs": [
{
"data": {
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"</style>\n",
"<table border=\"1\" class=\"dataframe\">\n",
" <thead>\n",
" <tr style=\"text-align: right;\">\n",
" <th></th>\n",
" <th>EVENT</th>\n",
" <th>BOUT</th>\n",
" <th>FIGHTER</th>\n",
" <th>OPPONENT</th>\n",
" <th>METHOD</th>\n",
" <th>Win</th>\n",
" <th>Women_fight</th>\n",
" <th>ROUND</th>\n",
" <th>HEIGHT_diff</th>\n",
" <th>REACH_diff</th>\n",
" <th>...</th>\n",
" <th>BODY_landed_opponent</th>\n",
" <th>BODY_attemps_opponent</th>\n",
" <th>LEG_landed_opponent</th>\n",
" <th>LEG_attemps_opponent</th>\n",
" <th>DISTANCE_landed_opponent</th>\n",
" <th>DISTANCE_attemps_opponent</th>\n",
" <th>CLINCH_landed_opponent</th>\n",
" <th>CLINCH_attemps_opponent</th>\n",
" <th>GROUND_landed_opponent</th>\n",
" <th>GROUND_attemps_opponent</th>\n",
" </tr>\n",
" </thead>\n",
" <tbody>\n",
" <tr>\n",
" <th>13777</th>\n",
" <td>UFC Fight Night: Cannonier vs. Strickland</td>\n",
" <td>Jared Cannonier vs. Sean Strickland</td>\n",
" <td>Sean Strickland</td>\n",
" <td>Jared Cannonier</td>\n",
" <td>Decision</td>\n",
" <td>0</td>\n",
" <td>0</td>\n",
" <td>5</td>\n",
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" <td>-1.0</td>\n",
" <td>...</td>\n",
" <td>267.0</td>\n",
" <td>516.0</td>\n",
" <td>213.0</td>\n",
" <td>270.0</td>\n",
" <td>763.0</td>\n",
" <td>2303.0</td>\n",
" <td>25.0</td>\n",
" <td>45.0</td>\n",
" <td>54.0</td>\n",
" <td>86.0</td>\n",
" </tr>\n",
" <tr>\n",
" <th>13780</th>\n",
" <td>UFC Fight Night: Cannonier vs. Strickland</td>\n",
" <td>Said Nurmagomedov vs. Saidyokub Kakhramonov</td>\n",
" <td>Said Nurmagomedov</td>\n",
" <td>Saidyokub Kakhramonov</td>\n",
" <td>Submission</td>\n",
" <td>1</td>\n",
" <td>0</td>\n",
" <td>2</td>\n",
" <td>0.0</td>\n",
" <td>1.0</td>\n",
" <td>...</td>\n",
" <td>24.0</td>\n",
" <td>51.0</td>\n",
" <td>43.0</td>\n",
" <td>58.0</td>\n",
" <td>91.0</td>\n",
" <td>253.0</td>\n",
" <td>9.0</td>\n",
" <td>14.0</td>\n",
" <td>8.0</td>\n",
" <td>13.0</td>\n",
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" <tr>\n",
" <th>13781</th>\n",
" <td>UFC Fight Night: Cannonier vs. Strickland</td>\n",
" <td>Said Nurmagomedov vs. Saidyokub Kakhramonov</td>\n",
" <td>Saidyokub Kakhramonov</td>\n",
" <td>Said Nurmagomedov</td>\n",
" <td>Submission</td>\n",
" <td>0</td>\n",
" <td>0</td>\n",
" <td>2</td>\n",
" <td>0.0</td>\n",
" <td>-1.0</td>\n",
" <td>...</td>\n",
" <td>9.0</td>\n",
" <td>16.0</td>\n",
" <td>4.0</td>\n",
" <td>4.0</td>\n",
" <td>19.0</td>\n",
" <td>53.0</td>\n",
" <td>6.0</td>\n",
" <td>6.0</td>\n",
" <td>2.0</td>\n",
" <td>5.0</td>\n",
" </tr>\n",
" <tr>\n",
" <th>13782</th>\n",
" <td>UFC Fight Night: Cannonier vs. Strickland</td>\n",
" <td>Sergey Morozov vs. Journey Newson</td>\n",
" <td>Journey Newson</td>\n",
" <td>Sergey Morozov</td>\n",
" <td>Decision</td>\n",
" <td>0</td>\n",
" <td>0</td>\n",
" <td>3</td>\n",
" <td>-1.0</td>\n",
" <td>0.0</td>\n",
" <td>...</td>\n",
" <td>15.0</td>\n",
" <td>30.0</td>\n",
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" <td>20.0</td>\n",
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" <td>5.0</td>\n",
" <td>4.0</td>\n",
" <td>4.0</td>\n",
" </tr>\n",
" <tr>\n",
" <th>13783</th>\n",
" <td>UFC Fight Night: Cannonier vs. Strickland</td>\n",
" <td>Sergey Morozov vs. Journey Newson</td>\n",
" <td>Sergey Morozov</td>\n",
" <td>Journey Newson</td>\n",
" <td>Decision</td>\n",
" <td>1</td>\n",
" <td>0</td>\n",
" <td>3</td>\n",
" <td>1.0</td>\n",
" <td>0.0</td>\n",
" <td>...</td>\n",
" <td>38.0</td>\n",
" <td>68.0</td>\n",
" <td>30.0</td>\n",
" <td>35.0</td>\n",
" <td>141.0</td>\n",
" <td>347.0</td>\n",
" <td>16.0</td>\n",
" <td>19.0</td>\n",
" <td>1.0</td>\n",
" <td>4.0</td>\n",
" </tr>\n",
" </tbody>\n",
"</table>\n",
"<p>5 rows × 63 columns</p>\n",
"</div>"
],
"text/plain": [
" EVENT \\\n",
"13777 UFC Fight Night: Cannonier vs. Strickland \n",
"13780 UFC Fight Night: Cannonier vs. Strickland \n",
"13781 UFC Fight Night: Cannonier vs. Strickland \n",
"13782 UFC Fight Night: Cannonier vs. Strickland \n",
"13783 UFC Fight Night: Cannonier vs. Strickland \n",
"\n",
" BOUT FIGHTER \\\n",
"13777 Jared Cannonier vs. Sean Strickland Sean Strickland \n",
"13780 Said Nurmagomedov vs. Saidyokub Kakhramonov Said Nurmagomedov \n",
"13781 Said Nurmagomedov vs. Saidyokub Kakhramonov Saidyokub Kakhramonov \n",
"13782 Sergey Morozov vs. Journey Newson Journey Newson \n",
"13783 Sergey Morozov vs. Journey Newson Sergey Morozov \n",
"\n",
" OPPONENT METHOD Win Women_fight ROUND \\\n",
"13777 Jared Cannonier Decision 0 0 5 \n",
"13780 Saidyokub Kakhramonov Submission 1 0 2 \n",
"13781 Said Nurmagomedov Submission 0 0 2 \n",
"13782 Sergey Morozov Decision 0 0 3 \n",
"13783 Journey Newson Decision 1 0 3 \n",
"\n",
" HEIGHT_diff REACH_diff ... BODY_landed_opponent \\\n",
"13777 2.0 -1.0 ... 267.0 \n",
"13780 0.0 1.0 ... 24.0 \n",
"13781 0.0 -1.0 ... 9.0 \n",
"13782 -1.0 0.0 ... 15.0 \n",
"13783 1.0 0.0 ... 38.0 \n",
"\n",
" BODY_attemps_opponent LEG_landed_opponent LEG_attemps_opponent \\\n",
"13777 516.0 213.0 270.0 \n",
"13780 51.0 43.0 58.0 \n",
"13781 16.0 4.0 4.0 \n",
"13782 30.0 16.0 20.0 \n",
"13783 68.0 30.0 35.0 \n",
"\n",
" DISTANCE_landed_opponent DISTANCE_attemps_opponent \\\n",
"13777 763.0 2303.0 \n",
"13780 91.0 253.0 \n",
"13781 19.0 53.0 \n",
"13782 76.0 224.0 \n",
"13783 141.0 347.0 \n",
"\n",
" CLINCH_landed_opponent CLINCH_attemps_opponent \\\n",
"13777 25.0 45.0 \n",
"13780 9.0 14.0 \n",
"13781 6.0 6.0 \n",
"13782 2.0 5.0 \n",
"13783 16.0 19.0 \n",
"\n",
" GROUND_landed_opponent GROUND_attemps_opponent \n",
"13777 54.0 86.0 \n",
"13780 8.0 13.0 \n",
"13781 2.0 5.0 \n",
"13782 4.0 4.0 \n",
"13783 1.0 4.0 \n",
"\n",
"[5 rows x 63 columns]"
]
},
"execution_count": 7,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"df.tail()"
]
},
{
"cell_type": "code",
"execution_count": 8,
"id": "3c83f881",
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"(6817, 63)"
]
},
"execution_count": 8,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"df.shape"
]
},
{
"cell_type": "code",
"execution_count": 9,
"id": "0b47cc75",
"metadata": {
"scrolled": true
},
"outputs": [
{
"data": {
"text/plain": [
"['KD_fighter',\n",
" 'SUB.ATT_fighter',\n",
" 'REV._fighter',\n",
" 'CTRL_fighter',\n",
" 'SIG.STR._landed_fighter',\n",
" 'SIG.STR._attemps_fighter',\n",
" 'TOTAL STR._landed_fighter',\n",
" 'TOTAL STR._attemps_fighter',\n",
" 'TD_landed_fighter',\n",
" 'TD_attemps_fighter',\n",
" 'HEAD_landed_fighter',\n",
" 'HEAD_attemps_fighter',\n",
" 'BODY_landed_fighter',\n",
" 'BODY_attemps_fighter',\n",
" 'LEG_landed_fighter',\n",
" 'LEG_attemps_fighter',\n",
" 'DISTANCE_landed_fighter',\n",
" 'DISTANCE_attemps_fighter',\n",
" 'CLINCH_landed_fighter',\n",
" 'CLINCH_attemps_fighter',\n",
" 'GROUND_landed_fighter',\n",
" 'GROUND_attemps_fighter',\n",
" 'KD_opponent',\n",
" 'SUB.ATT_opponent',\n",
" 'REV._opponent',\n",
" 'CTRL_opponent',\n",
" 'SIG.STR._landed_opponent',\n",
" 'SIG.STR._attemps_opponent',\n",
" 'TOTAL STR._landed_opponent',\n",
" 'TOTAL STR._attemps_opponent',\n",
" 'TD_landed_opponent',\n",
" 'TD_attemps_opponent',\n",
" 'HEAD_landed_opponent',\n",
" 'HEAD_attemps_opponent',\n",
" 'BODY_landed_opponent',\n",
" 'BODY_attemps_opponent',\n",
" 'LEG_landed_opponent',\n",
" 'LEG_attemps_opponent',\n",
" 'DISTANCE_landed_opponent',\n",
" 'DISTANCE_attemps_opponent',\n",
" 'CLINCH_landed_opponent',\n",
" 'CLINCH_attemps_opponent',\n",
" 'GROUND_landed_opponent',\n",
" 'GROUND_attemps_opponent']"
]
},
"execution_count": 9,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"df.columns.tolist()[19:]"
]
},
{
"cell_type": "code",
"execution_count": 10,
"id": "1bf9b2da",
"metadata": {},
"outputs": [],
"source": [
"df = df.merge(df[['EVENT', 'BOUT', 'FIGHTER']+df.columns.tolist()[15:]] ,how='left', left_on=['EVENT', 'BOUT', 'OPPONENT'], right_on=['EVENT', 'BOUT', 'FIGHTER'], suffixes=('_f1', '_f2'))"
]
},
{
"cell_type": "code",
"execution_count": 11,
"id": "c8ce78f8",
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"<class 'pandas.core.frame.DataFrame'>\n",
"Int64Index: 6817 entries, 0 to 6816\n",
"Data columns (total 112 columns):\n",
" # Column Non-Null Count Dtype \n",
"--- ------ -------------- ----- \n",
" 0 EVENT 6817 non-null object \n",
" 1 BOUT 6817 non-null object \n",
" 2 FIGHTER_f1 6817 non-null object \n",
" 3 OPPONENT 6817 non-null object \n",
" 4 METHOD 6817 non-null object \n",
" 5 Win 6817 non-null int64 \n",
" 6 Women_fight 6817 non-null int64 \n",
" 7 ROUND 6817 non-null int64 \n",
" 8 HEIGHT_diff 6817 non-null float64\n",
" 9 REACH_diff 6817 non-null float64\n",
" 10 AGE_diff 6817 non-null float64\n",
" 11 form_skore_fighter 6817 non-null float64\n",
" 12 form_skore_opponent 6817 non-null float64\n",
" 13 fightNo_fighter 6817 non-null int64 \n",
" 14 fightNo_opponent 6817 non-null float64\n",
" 15 Win_tot_f1 6817 non-null float64\n",
" 16 DRAW_f1 6817 non-null float64\n",
" 17 No_contest_f1 6817 non-null float64\n",
" 18 TotalTime_f1 6817 non-null float64\n",
" 19 KD_fighter_f1 6817 non-null float64\n",
" 20 SUB.ATT_fighter_f1 6817 non-null float64\n",
" 21 REV._fighter_f1 6817 non-null float64\n",
" 22 CTRL_fighter_f1 6817 non-null float64\n",
" 23 SIG.STR._landed_fighter_f1 6817 non-null float64\n",
" 24 SIG.STR._attemps_fighter_f1 6817 non-null float64\n",
" 25 TOTAL STR._landed_fighter_f1 6817 non-null float64\n",
" 26 TOTAL STR._attemps_fighter_f1 6817 non-null float64\n",
" 27 TD_landed_fighter_f1 6817 non-null float64\n",
" 28 TD_attemps_fighter_f1 6817 non-null float64\n",
" 29 HEAD_landed_fighter_f1 6817 non-null float64\n",
" 30 HEAD_attemps_fighter_f1 6817 non-null float64\n",
" 31 BODY_landed_fighter_f1 6817 non-null float64\n",
" 32 BODY_attemps_fighter_f1 6817 non-null float64\n",
" 33 LEG_landed_fighter_f1 6817 non-null float64\n",
" 34 LEG_attemps_fighter_f1 6817 non-null float64\n",
" 35 DISTANCE_landed_fighter_f1 6817 non-null float64\n",
" 36 DISTANCE_attemps_fighter_f1 6817 non-null float64\n",
" 37 CLINCH_landed_fighter_f1 6817 non-null float64\n",
" 38 CLINCH_attemps_fighter_f1 6817 non-null float64\n",
" 39 GROUND_landed_fighter_f1 6817 non-null float64\n",
" 40 GROUND_attemps_fighter_f1 6817 non-null float64\n",
" 41 KD_opponent_f1 6817 non-null float64\n",
" 42 SUB.ATT_opponent_f1 6817 non-null float64\n",
" 43 REV._opponent_f1 6817 non-null float64\n",
" 44 CTRL_opponent_f1 6817 non-null float64\n",
" 45 SIG.STR._landed_opponent_f1 6817 non-null float64\n",
" 46 SIG.STR._attemps_opponent_f1 6817 non-null float64\n",
" 47 TOTAL STR._landed_opponent_f1 6817 non-null float64\n",
" 48 TOTAL STR._attemps_opponent_f1 6817 non-null float64\n",
" 49 TD_landed_opponent_f1 6817 non-null float64\n",
" 50 TD_attemps_opponent_f1 6817 non-null float64\n",
" 51 HEAD_landed_opponent_f1 6817 non-null float64\n",
" 52 HEAD_attemps_opponent_f1 6817 non-null float64\n",
" 53 BODY_landed_opponent_f1 6817 non-null float64\n",
" 54 BODY_attemps_opponent_f1 6817 non-null float64\n",
" 55 LEG_landed_opponent_f1 6817 non-null float64\n",
" 56 LEG_attemps_opponent_f1 6817 non-null float64\n",
" 57 DISTANCE_landed_opponent_f1 6817 non-null float64\n",
" 58 DISTANCE_attemps_opponent_f1 6817 non-null float64\n",
" 59 CLINCH_landed_opponent_f1 6817 non-null float64\n",
" 60 CLINCH_attemps_opponent_f1 6817 non-null float64\n",
" 61 GROUND_landed_opponent_f1 6817 non-null float64\n",
" 62 GROUND_attemps_opponent_f1 6817 non-null float64\n",
" 63 FIGHTER_f2 6816 non-null object \n",
" 64 Win_tot_f2 6816 non-null float64\n",
" 65 DRAW_f2 6816 non-null float64\n",
" 66 No_contest_f2 6816 non-null float64\n",
" 67 TotalTime_f2 6816 non-null float64\n",
" 68 KD_fighter_f2 6816 non-null float64\n",
" 69 SUB.ATT_fighter_f2 6816 non-null float64\n",
" 70 REV._fighter_f2 6816 non-null float64\n",
" 71 CTRL_fighter_f2 6816 non-null float64\n",
" 72 SIG.STR._landed_fighter_f2 6816 non-null float64\n",
" 73 SIG.STR._attemps_fighter_f2 6816 non-null float64\n",
" 74 TOTAL STR._landed_fighter_f2 6816 non-null float64\n",
" 75 TOTAL STR._attemps_fighter_f2 6816 non-null float64\n",
" 76 TD_landed_fighter_f2 6816 non-null float64\n",
" 77 TD_attemps_fighter_f2 6816 non-null float64\n",
" 78 HEAD_landed_fighter_f2 6816 non-null float64\n",
" 79 HEAD_attemps_fighter_f2 6816 non-null float64\n",
" 80 BODY_landed_fighter_f2 6816 non-null float64\n",
" 81 BODY_attemps_fighter_f2 6816 non-null float64\n",
" 82 LEG_landed_fighter_f2 6816 non-null float64\n",
" 83 LEG_attemps_fighter_f2 6816 non-null float64\n",
" 84 DISTANCE_landed_fighter_f2 6816 non-null float64\n",
" 85 DISTANCE_attemps_fighter_f2 6816 non-null float64\n",
" 86 CLINCH_landed_fighter_f2 6816 non-null float64\n",
" 87 CLINCH_attemps_fighter_f2 6816 non-null float64\n",
" 88 GROUND_landed_fighter_f2 6816 non-null float64\n",
" 89 GROUND_attemps_fighter_f2 6816 non-null float64\n",
" 90 KD_opponent_f2 6816 non-null float64\n",
" 91 SUB.ATT_opponent_f2 6816 non-null float64\n",
" 92 REV._opponent_f2 6816 non-null float64\n",
" 93 CTRL_opponent_f2 6816 non-null float64\n",
" 94 SIG.STR._landed_opponent_f2 6816 non-null float64\n",
" 95 SIG.STR._attemps_opponent_f2 6816 non-null float64\n",
" 96 TOTAL STR._landed_opponent_f2 6816 non-null float64\n",
" 97 TOTAL STR._attemps_opponent_f2 6816 non-null float64\n",
" 98 TD_landed_opponent_f2 6816 non-null float64\n",
" 99 TD_attemps_opponent_f2 6816 non-null float64\n",
" 100 HEAD_landed_opponent_f2 6816 non-null float64\n",
" 101 HEAD_attemps_opponent_f2 6816 non-null float64\n",
" 102 BODY_landed_opponent_f2 6816 non-null float64\n",
" 103 BODY_attemps_opponent_f2 6816 non-null float64\n",
" 104 LEG_landed_opponent_f2 6816 non-null float64\n",
" 105 LEG_attemps_opponent_f2 6816 non-null float64\n",
" 106 DISTANCE_landed_opponent_f2 6816 non-null float64\n",
" 107 DISTANCE_attemps_opponent_f2 6816 non-null float64\n",
" 108 CLINCH_landed_opponent_f2 6816 non-null float64\n",
" 109 CLINCH_attemps_opponent_f2 6816 non-null float64\n",
" 110 GROUND_landed_opponent_f2 6816 non-null float64\n",
" 111 GROUND_attemps_opponent_f2 6816 non-null float64\n",
"dtypes: float64(102), int64(4), object(6)\n",
"memory usage: 5.9+ MB\n"
]
}
],
"source": [
"df.info(verbose=True, show_counts=True)"
]
},
{
"cell_type": "code",
"execution_count": 12,
"id": "e911a19b",
"metadata": {},
"outputs": [],
"source": [
"df = df.drop('FIGHTER_f2',axis=1)"
]
},
{
"cell_type": "code",
"execution_count": 13,
"id": "1458353b",
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"['LEG', 'attemps', 'fighter', 'f1']"
]
},
"execution_count": 13,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"'LEG_attemps_fighter_f1'.split('_')"
]
},
{
"cell_type": "code",
"execution_count": 14,
"id": "6ec0d15a",
"metadata": {},
"outputs": [],
"source": [
"sloupce1 = df.columns.tolist()[19:]\n",
"vynechat = ['Win_tot_f2', 'DRAW_f2','No_contest_f2']\n",
"sloupce = [x for x in sloupce1 if x not in vynechat]\n",
"for sloupec in sloupce: \n",
" splited = sloupec.split('_')\n",
" if 'CTRL' in splited:\n",
" df.loc[:,splited[0]+'_pct_'+splited[1]+splited[2]] = df[sloupec]/df['TotalTime'+'_'+splited[2]]\n",
" if 'attemps' in splited:\n",
" df.loc[:,splited[0]+'_acc_'+ splited[2] + splited[3]] = df[sloupec.replace('attemps', 'landed')]/df[sloupec]\n",
" df.loc[:,splited[0]+'_perRound_'+ splited[2] + splited[3]] = (df[sloupec.replace('attemps', 'landed')]/df['TotalTime'+'_'+splited[3]])*300\n",
" \n",
" "
]
},
{
"cell_type": "code",
"execution_count": 15,
"id": "2417f114",
"metadata": {},
"outputs": [
{
"data": {
"text/html": [
"<div>\n",
"<style scoped>\n",
" .dataframe tbody tr th:only-of-type {\n",
" vertical-align: middle;\n",
" }\n",
"\n",
" .dataframe tbody tr th {\n",
" vertical-align: top;\n",
" }\n",
"\n",
" .dataframe thead th {\n",
" text-align: right;\n",
" }\n",
"</style>\n",
"<table border=\"1\" class=\"dataframe\">\n",
" <thead>\n",
" <tr style=\"text-align: right;\">\n",
" <th></th>\n",
" <th>EVENT</th>\n",
" <th>BOUT</th>\n",
" <th>FIGHTER_f1</th>\n",
" <th>OPPONENT</th>\n",
" <th>METHOD</th>\n",
" </tr>\n",
" </thead>\n",
" <tbody>\n",
" <tr>\n",
" <th>0</th>\n",
" <td>UFC 2: No Way Out</td>\n",
" <td>Royce Gracie vs. Patrick Smith</td>\n",
" <td>Patrick Smith</td>\n",
" <td>Royce Gracie</td>\n",
" <td>KO/TKO - ground</td>\n",
" </tr>\n",
" <tr>\n",
" <th>1</th>\n",
" <td>UFC 2: No Way Out</td>\n",
" <td>Royce Gracie vs. Patrick Smith</td>\n",
" <td>Royce Gracie</td>\n",
" <td>Patrick Smith</td>\n",
" <td>KO/TKO - ground</td>\n",
" </tr>\n",
" <tr>\n",
" <th>2</th>\n",
" <td>UFC 2: No Way Out</td>\n",
" <td>Royce Gracie vs. Remco Pardoel</td>\n",
" <td>Remco Pardoel</td>\n",
" <td>Royce Gracie</td>\n",
" <td>Submission</td>\n",
" </tr>\n",
" <tr>\n",
" <th>3</th>\n",
" <td>UFC 2: No Way Out</td>\n",
" <td>Royce Gracie vs. Remco Pardoel</td>\n",
" <td>Royce Gracie</td>\n",
" <td>Remco Pardoel</td>\n",
" <td>Submission</td>\n",
" </tr>\n",
" <tr>\n",
" <th>4</th>\n",
" <td>UFC 4: Revenge of the Warriors</td>\n",
" <td>Royce Gracie vs. Dan Severn</td>\n",
" <td>Dan Severn</td>\n",
" <td>Royce Gracie</td>\n",
" <td>Submission</td>\n",
" </tr>\n",
" <tr>\n",
" <th>...</th>\n",
" <td>...</td>\n",
" <td>...</td>\n",
" <td>...</td>\n",
" <td>...</td>\n",
" <td>...</td>\n",
" </tr>\n",
" <tr>\n",
" <th>6812</th>\n",
" <td>UFC Fight Night: Cannonier vs. Strickland</td>\n",
" <td>Jared Cannonier vs. Sean Strickland</td>\n",
" <td>Sean Strickland</td>\n",
" <td>Jared Cannonier</td>\n",
" <td>Decision</td>\n",
" </tr>\n",
" <tr>\n",
" <th>6813</th>\n",
" <td>UFC Fight Night: Cannonier vs. Strickland</td>\n",
" <td>Said Nurmagomedov vs. Saidyokub Kakhramonov</td>\n",
" <td>Said Nurmagomedov</td>\n",
" <td>Saidyokub Kakhramonov</td>\n",
" <td>Submission</td>\n",
" </tr>\n",
" <tr>\n",
" <th>6814</th>\n",
" <td>UFC Fight Night: Cannonier vs. Strickland</td>\n",
" <td>Said Nurmagomedov vs. Saidyokub Kakhramonov</td>\n",
" <td>Saidyokub Kakhramonov</td>\n",
" <td>Said Nurmagomedov</td>\n",
" <td>Submission</td>\n",
" </tr>\n",
" <tr>\n",
" <th>6815</th>\n",
" <td>UFC Fight Night: Cannonier vs. Strickland</td>\n",
" <td>Sergey Morozov vs. Journey Newson</td>\n",
" <td>Journey Newson</td>\n",
" <td>Sergey Morozov</td>\n",
" <td>Decision</td>\n",
" </tr>\n",
" <tr>\n",
" <th>6816</th>\n",
" <td>UFC Fight Night: Cannonier vs. Strickland</td>\n",
" <td>Sergey Morozov vs. Journey Newson</td>\n",
" <td>Sergey Morozov</td>\n",
" <td>Journey Newson</td>\n",
" <td>Decision</td>\n",
" </tr>\n",
" </tbody>\n",
"</table>\n",
"<p>6817 rows × 5 columns</p>\n",
"</div>"
],
"text/plain": [
" EVENT \\\n",
"0 UFC 2: No Way Out \n",
"1 UFC 2: No Way Out \n",
"2 UFC 2: No Way Out \n",
"3 UFC 2: No Way Out \n",
"4 UFC 4: Revenge of the Warriors \n",
"... ... \n",
"6812 UFC Fight Night: Cannonier vs. Strickland \n",
"6813 UFC Fight Night: Cannonier vs. Strickland \n",
"6814 UFC Fight Night: Cannonier vs. Strickland \n",
"6815 UFC Fight Night: Cannonier vs. Strickland \n",
"6816 UFC Fight Night: Cannonier vs. Strickland \n",
"\n",
" BOUT FIGHTER_f1 \\\n",
"0 Royce Gracie vs. Patrick Smith Patrick Smith \n",
"1 Royce Gracie vs. Patrick Smith Royce Gracie \n",
"2 Royce Gracie vs. Remco Pardoel Remco Pardoel \n",
"3 Royce Gracie vs. Remco Pardoel Royce Gracie \n",
"4 Royce Gracie vs. Dan Severn Dan Severn \n",
"... ... ... \n",
"6812 Jared Cannonier vs. Sean Strickland Sean Strickland \n",
"6813 Said Nurmagomedov vs. Saidyokub Kakhramonov Said Nurmagomedov \n",
"6814 Said Nurmagomedov vs. Saidyokub Kakhramonov Saidyokub Kakhramonov \n",
"6815 Sergey Morozov vs. Journey Newson Journey Newson \n",
"6816 Sergey Morozov vs. Journey Newson Sergey Morozov \n",
"\n",
" OPPONENT METHOD \n",
"0 Royce Gracie KO/TKO - ground \n",
"1 Patrick Smith KO/TKO - ground \n",
"2 Royce Gracie Submission \n",
"3 Remco Pardoel Submission \n",
"4 Royce Gracie Submission \n",
"... ... ... \n",
"6812 Jared Cannonier Decision \n",
"6813 Saidyokub Kakhramonov Submission \n",
"6814 Said Nurmagomedov Submission \n",
"6815 Sergey Morozov Decision \n",
"6816 Journey Newson Decision \n",
"\n",
"[6817 rows x 5 columns]"
]
},
"execution_count": 15,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"df.iloc[:,:5]"
]
},
{
"cell_type": "code",
"execution_count": 16,
"id": "4e6956bf",
"metadata": {},
"outputs": [],
"source": [
"df = df.drop(sloupce, axis=1)"
]
},
{
"cell_type": "code",
"execution_count": 17,
"id": "eefa5d15",
"metadata": {},
"outputs": [],
"source": [
"df_model = df.drop(['EVENT','BOUT','FIGHTER_f1','OPPONENT','METHOD','Women_fight','ROUND','TotalTime_f1'],axis=1)\n",
"#df_model = df.drop(['EVENT','BOUT','FIGHTER_f1','OPPONENT','METHOD','Women_fight','TotalTime_f1'],axis=1)"
]
},
{
"cell_type": "code",
"execution_count": 18,
"id": "9b03af1f",
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"<class 'pandas.core.frame.DataFrame'>\n",
"Int64Index: 6817 entries, 0 to 6816\n",
"Data columns (total 90 columns):\n",
" # Column Non-Null Count Dtype \n",
"--- ------ -------------- ----- \n",
" 0 Win 6817 non-null int64 \n",
" 1 HEIGHT_diff 6817 non-null float64\n",
" 2 REACH_diff 6817 non-null float64\n",
" 3 AGE_diff 6817 non-null float64\n",
" 4 form_skore_fighter 6817 non-null float64\n",
" 5 form_skore_opponent 6817 non-null float64\n",
" 6 fightNo_fighter 6817 non-null int64 \n",
" 7 fightNo_opponent 6817 non-null float64\n",
" 8 Win_tot_f1 6817 non-null float64\n",
" 9 DRAW_f1 6817 non-null float64\n",
" 10 No_contest_f1 6817 non-null float64\n",
" 11 Win_tot_f2 6817 non-null float64\n",
" 12 DRAW_f2 6817 non-null float64\n",
" 13 No_contest_f2 6817 non-null float64\n",
" 14 CTRL_pct_fighterf1 6817 non-null float64\n",
" 15 SIG.STR._acc_fighterf1 6817 non-null float64\n",
" 16 SIG.STR._perRound_fighterf1 6817 non-null float64\n",
" 17 TOTAL STR._acc_fighterf1 6817 non-null float64\n",
" 18 TOTAL STR._perRound_fighterf1 6817 non-null float64\n",
" 19 TD_acc_fighterf1 6817 non-null float64\n",
" 20 TD_perRound_fighterf1 6817 non-null float64\n",
" 21 HEAD_acc_fighterf1 6817 non-null float64\n",
" 22 HEAD_perRound_fighterf1 6817 non-null float64\n",
" 23 BODY_acc_fighterf1 6817 non-null float64\n",
" 24 BODY_perRound_fighterf1 6817 non-null float64\n",
" 25 LEG_acc_fighterf1 6817 non-null float64\n",
" 26 LEG_perRound_fighterf1 6817 non-null float64\n",
" 27 DISTANCE_acc_fighterf1 6817 non-null float64\n",
" 28 DISTANCE_perRound_fighterf1 6817 non-null float64\n",
" 29 CLINCH_acc_fighterf1 6817 non-null float64\n",
" 30 CLINCH_perRound_fighterf1 6817 non-null float64\n",
" 31 GROUND_acc_fighterf1 6817 non-null float64\n",
" 32 GROUND_perRound_fighterf1 6817 non-null float64\n",
" 33 CTRL_pct_opponentf1 6817 non-null float64\n",
" 34 SIG.STR._acc_opponentf1 6817 non-null float64\n",
" 35 SIG.STR._perRound_opponentf1 6817 non-null float64\n",
" 36 TOTAL STR._acc_opponentf1 6817 non-null float64\n",
" 37 TOTAL STR._perRound_opponentf1 6817 non-null float64\n",
" 38 TD_acc_opponentf1 6817 non-null float64\n",
" 39 TD_perRound_opponentf1 6817 non-null float64\n",
" 40 HEAD_acc_opponentf1 6817 non-null float64\n",
" 41 HEAD_perRound_opponentf1 6817 non-null float64\n",
" 42 BODY_acc_opponentf1 6817 non-null float64\n",
" 43 BODY_perRound_opponentf1 6817 non-null float64\n",
" 44 LEG_acc_opponentf1 6817 non-null float64\n",
" 45 LEG_perRound_opponentf1 6817 non-null float64\n",
" 46 DISTANCE_acc_opponentf1 6817 non-null float64\n",
" 47 DISTANCE_perRound_opponentf1 6817 non-null float64\n",
" 48 CLINCH_acc_opponentf1 6817 non-null float64\n",
" 49 CLINCH_perRound_opponentf1 6817 non-null float64\n",
" 50 GROUND_acc_opponentf1 6817 non-null float64\n",
" 51 GROUND_perRound_opponentf1 6817 non-null float64\n",
" 52 CTRL_pct_fighterf2 6817 non-null float64\n",
" 53 SIG.STR._acc_fighterf2 6817 non-null float64\n",
" 54 SIG.STR._perRound_fighterf2 6817 non-null float64\n",
" 55 TOTAL STR._acc_fighterf2 6817 non-null float64\n",
" 56 TOTAL STR._perRound_fighterf2 6817 non-null float64\n",
" 57 TD_acc_fighterf2 6817 non-null float64\n",
" 58 TD_perRound_fighterf2 6817 non-null float64\n",
" 59 HEAD_acc_fighterf2 6817 non-null float64\n",
" 60 HEAD_perRound_fighterf2 6817 non-null float64\n",
" 61 BODY_acc_fighterf2 6817 non-null float64\n",
" 62 BODY_perRound_fighterf2 6817 non-null float64\n",
" 63 LEG_acc_fighterf2 6817 non-null float64\n",
" 64 LEG_perRound_fighterf2 6817 non-null float64\n",
" 65 DISTANCE_acc_fighterf2 6817 non-null float64\n",
" 66 DISTANCE_perRound_fighterf2 6817 non-null float64\n",
" 67 CLINCH_acc_fighterf2 6817 non-null float64\n",
" 68 CLINCH_perRound_fighterf2 6817 non-null float64\n",
" 69 GROUND_acc_fighterf2 6817 non-null float64\n",
" 70 GROUND_perRound_fighterf2 6817 non-null float64\n",
" 71 CTRL_pct_opponentf2 6817 non-null float64\n",
" 72 SIG.STR._acc_opponentf2 6817 non-null float64\n",
" 73 SIG.STR._perRound_opponentf2 6817 non-null float64\n",
" 74 TOTAL STR._acc_opponentf2 6817 non-null float64\n",
" 75 TOTAL STR._perRound_opponentf2 6817 non-null float64\n",
" 76 TD_acc_opponentf2 6817 non-null float64\n",
" 77 TD_perRound_opponentf2 6817 non-null float64\n",
" 78 HEAD_acc_opponentf2 6817 non-null float64\n",
" 79 HEAD_perRound_opponentf2 6817 non-null float64\n",
" 80 BODY_acc_opponentf2 6817 non-null float64\n",
" 81 BODY_perRound_opponentf2 6817 non-null float64\n",
" 82 LEG_acc_opponentf2 6817 non-null float64\n",
" 83 LEG_perRound_opponentf2 6817 non-null float64\n",
" 84 DISTANCE_acc_opponentf2 6817 non-null float64\n",
" 85 DISTANCE_perRound_opponentf2 6817 non-null float64\n",
" 86 CLINCH_acc_opponentf2 6817 non-null float64\n",
" 87 CLINCH_perRound_opponentf2 6817 non-null float64\n",
" 88 GROUND_acc_opponentf2 6817 non-null float64\n",
" 89 GROUND_perRound_opponentf2 6817 non-null float64\n",
"dtypes: float64(88), int64(2)\n",
"memory usage: 4.7 MB\n"
]
}
],
"source": [
"df_model = df_model.fillna(0)\n",
"df_model.info()"
]
},
{
"cell_type": "code",
"execution_count": 19,
"id": "8ddca72b",
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"0.5941348973607038 0.5941348973607038\n"
]
}
],
"source": [
"X=df_model.loc[:, ~df_model.columns.isin(['Win'])]\n",
"y=df_model['Win']\n",
"scaler = StandardScaler()\n",
"X_scaled = scaler.fit_transform(X)\n",
"X_train, X_test, y_train, y_test = train_test_split(X_scaled, y, random_state = 0)\n",
"from sklearn.linear_model import LogisticRegression\n",
"logreg=LogisticRegression(max_iter=50000)\n",
"logreg.fit(X_train,y_train)\n",
"predictions = logreg.predict(X_test)\n",
"acc = accuracy_score(y_test, predictions) \n",
"f1 = f1_score(y_test, predictions,average='micro')\n",
"print(f1, acc)"
]
},
{
"cell_type": "code",
"execution_count": 20,
"id": "003fe608",
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"(6817, 89)"
]
},
"execution_count": 20,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"X.shape"
]
},
{
"cell_type": "code",
"execution_count": 21,
"id": "f6fc0f16",
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"(6617, 200, 89)\n",
"Epoch 1/120\n",
"166/166 [==============================] - 19s 100ms/step - loss: 0.6994 - accuracy: 0.5052 - val_loss: 0.7025 - val_accuracy: 0.5015\n",
"Epoch 2/120\n",
"166/166 [==============================] - 16s 99ms/step - loss: 0.6938 - accuracy: 0.5077 - val_loss: 0.6977 - val_accuracy: 0.4985\n",
"Epoch 3/120\n",
"166/166 [==============================] - 17s 101ms/step - loss: 0.6920 - accuracy: 0.5245 - val_loss: 0.6904 - val_accuracy: 0.5415\n",
"Epoch 4/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.6908 - accuracy: 0.5347 - val_loss: 0.6895 - val_accuracy: 0.5521\n",
"Epoch 5/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.6896 - accuracy: 0.5362 - val_loss: 0.6888 - val_accuracy: 0.5408\n",
"Epoch 6/120\n",
"166/166 [==============================] - 16s 94ms/step - loss: 0.6875 - accuracy: 0.5362 - val_loss: 0.6877 - val_accuracy: 0.5506\n",
"Epoch 7/120\n",
"166/166 [==============================] - 15s 93ms/step - loss: 0.6863 - accuracy: 0.5475 - val_loss: 0.6906 - val_accuracy: 0.5279\n",
"Epoch 8/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.6851 - accuracy: 0.5468 - val_loss: 0.6868 - val_accuracy: 0.5574\n",
"Epoch 9/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.6839 - accuracy: 0.5539 - val_loss: 0.6928 - val_accuracy: 0.5219\n",
"Epoch 10/120\n",
"166/166 [==============================] - 17s 103ms/step - loss: 0.6845 - accuracy: 0.5568 - val_loss: 0.6878 - val_accuracy: 0.5453\n",
"Epoch 11/120\n",
"166/166 [==============================] - 17s 100ms/step - loss: 0.6824 - accuracy: 0.5624 - val_loss: 0.6940 - val_accuracy: 0.5204\n",
"Epoch 12/120\n",
"166/166 [==============================] - 16s 97ms/step - loss: 0.6807 - accuracy: 0.5651 - val_loss: 0.6879 - val_accuracy: 0.5476\n",
"Epoch 13/120\n",
"166/166 [==============================] - 17s 101ms/step - loss: 0.6813 - accuracy: 0.5609 - val_loss: 0.6884 - val_accuracy: 0.5483\n",
"Epoch 14/120\n",
"166/166 [==============================] - 16s 97ms/step - loss: 0.6809 - accuracy: 0.5583 - val_loss: 0.6953 - val_accuracy: 0.5249\n",
"Epoch 15/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.6807 - accuracy: 0.5609 - val_loss: 0.6893 - val_accuracy: 0.5446\n",
"Epoch 16/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.6795 - accuracy: 0.5577 - val_loss: 0.6908 - val_accuracy: 0.5355\n",
"Epoch 17/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.6778 - accuracy: 0.5755 - val_loss: 0.6945 - val_accuracy: 0.5332\n",
"Epoch 18/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.6777 - accuracy: 0.5787 - val_loss: 0.6928 - val_accuracy: 0.5302\n",
"Epoch 19/120\n",
"166/166 [==============================] - 17s 102ms/step - loss: 0.6768 - accuracy: 0.5651 - val_loss: 0.6930 - val_accuracy: 0.5431\n",
"Epoch 20/120\n",
"166/166 [==============================] - 16s 99ms/step - loss: 0.6743 - accuracy: 0.5777 - val_loss: 0.6952 - val_accuracy: 0.5302\n",
"Epoch 21/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.6730 - accuracy: 0.5813 - val_loss: 0.6955 - val_accuracy: 0.5347\n",
"Epoch 22/120\n",
"166/166 [==============================] - 16s 99ms/step - loss: 0.6753 - accuracy: 0.5734 - val_loss: 0.6928 - val_accuracy: 0.5378\n",
"Epoch 23/120\n",
"166/166 [==============================] - 16s 98ms/step - loss: 0.6730 - accuracy: 0.5832 - val_loss: 0.6932 - val_accuracy: 0.5272\n",
"Epoch 24/120\n",
"166/166 [==============================] - 16s 97ms/step - loss: 0.6713 - accuracy: 0.5764 - val_loss: 0.6932 - val_accuracy: 0.5408\n",
"Epoch 25/120\n",
"166/166 [==============================] - 16s 97ms/step - loss: 0.6703 - accuracy: 0.5834 - val_loss: 0.6931 - val_accuracy: 0.5529\n",
"Epoch 26/120\n",
"166/166 [==============================] - 17s 104ms/step - loss: 0.6702 - accuracy: 0.5866 - val_loss: 0.6953 - val_accuracy: 0.5536\n",
"Epoch 27/120\n",
"166/166 [==============================] - 16s 94ms/step - loss: 0.6666 - accuracy: 0.5868 - val_loss: 0.6942 - val_accuracy: 0.5483\n",
"Epoch 28/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.6627 - accuracy: 0.5981 - val_loss: 0.6999 - val_accuracy: 0.5536\n",
"Epoch 29/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.6613 - accuracy: 0.5981 - val_loss: 0.6961 - val_accuracy: 0.5453\n",
"Epoch 30/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.6557 - accuracy: 0.6119 - val_loss: 0.7033 - val_accuracy: 0.5582\n",
"Epoch 31/120\n",
"166/166 [==============================] - 15s 93ms/step - loss: 0.6520 - accuracy: 0.6161 - val_loss: 0.7062 - val_accuracy: 0.5453\n",
"Epoch 32/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.6396 - accuracy: 0.6271 - val_loss: 0.7384 - val_accuracy: 0.5461\n",
"Epoch 33/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.6389 - accuracy: 0.6348 - val_loss: 0.7043 - val_accuracy: 0.5559\n",
"Epoch 34/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.6253 - accuracy: 0.6446 - val_loss: 0.7146 - val_accuracy: 0.5672\n",
"Epoch 35/120\n",
"166/166 [==============================] - 15s 93ms/step - loss: 0.6202 - accuracy: 0.6486 - val_loss: 0.7025 - val_accuracy: 0.5733\n",
"Epoch 36/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.6106 - accuracy: 0.6616 - val_loss: 0.7103 - val_accuracy: 0.5695\n",
"Epoch 37/120\n",
"166/166 [==============================] - 17s 103ms/step - loss: 0.5969 - accuracy: 0.6726 - val_loss: 0.7329 - val_accuracy: 0.5604\n",
"Epoch 38/120\n",
"166/166 [==============================] - 17s 102ms/step - loss: 0.5917 - accuracy: 0.6798 - val_loss: 0.7251 - val_accuracy: 0.5740\n",
"Epoch 39/120\n",
"166/166 [==============================] - 16s 97ms/step - loss: 0.5710 - accuracy: 0.6998 - val_loss: 0.7837 - val_accuracy: 0.5536\n",
"Epoch 40/120\n",
"166/166 [==============================] - 15s 93ms/step - loss: 0.5703 - accuracy: 0.6966 - val_loss: 0.7193 - val_accuracy: 0.5846\n",
"Epoch 41/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.5518 - accuracy: 0.7138 - val_loss: 0.7475 - val_accuracy: 0.5816\n",
"Epoch 42/120\n",
"166/166 [==============================] - 16s 97ms/step - loss: 0.5458 - accuracy: 0.7189 - val_loss: 0.7412 - val_accuracy: 0.5755\n",
"Epoch 43/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.5380 - accuracy: 0.7296 - val_loss: 0.7273 - val_accuracy: 0.5823\n",
"Epoch 44/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.5247 - accuracy: 0.7361 - val_loss: 0.7466 - val_accuracy: 0.5921\n",
"Epoch 45/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.5122 - accuracy: 0.7480 - val_loss: 0.7996 - val_accuracy: 0.5899\n",
"Epoch 46/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.4956 - accuracy: 0.7625 - val_loss: 0.7597 - val_accuracy: 0.5921\n",
"Epoch 47/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.4897 - accuracy: 0.7640 - val_loss: 0.7452 - val_accuracy: 0.6057\n",
"Epoch 48/120\n",
"166/166 [==============================] - 15s 93ms/step - loss: 0.4775 - accuracy: 0.7793 - val_loss: 0.7477 - val_accuracy: 0.6088\n",
"Epoch 49/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.4511 - accuracy: 0.7882 - val_loss: 0.8015 - val_accuracy: 0.5921\n",
"Epoch 50/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.4598 - accuracy: 0.7739 - val_loss: 0.7928 - val_accuracy: 0.5997\n",
"Epoch 51/120\n",
"166/166 [==============================] - 15s 93ms/step - loss: 0.4376 - accuracy: 0.7986 - val_loss: 0.8313 - val_accuracy: 0.6208\n",
"Epoch 52/120\n",
"166/166 [==============================] - 15s 93ms/step - loss: 0.4256 - accuracy: 0.8001 - val_loss: 0.8052 - val_accuracy: 0.6110\n",
"Epoch 53/120\n",
"166/166 [==============================] - 15s 93ms/step - loss: 0.4094 - accuracy: 0.8169 - val_loss: 0.7868 - val_accuracy: 0.6314\n",
"Epoch 54/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.4022 - accuracy: 0.8188 - val_loss: 0.7724 - val_accuracy: 0.6178\n",
"Epoch 55/120\n",
"166/166 [==============================] - 16s 99ms/step - loss: 0.3836 - accuracy: 0.8296 - val_loss: 0.7973 - val_accuracy: 0.6299\n",
"Epoch 56/120\n",
"166/166 [==============================] - 16s 98ms/step - loss: 0.3643 - accuracy: 0.8436 - val_loss: 0.8193 - val_accuracy: 0.6382\n",
"Epoch 57/120\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
"166/166 [==============================] - 15s 92ms/step - loss: 0.3570 - accuracy: 0.8468 - val_loss: 0.8335 - val_accuracy: 0.6390\n",
"Epoch 58/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.3475 - accuracy: 0.8481 - val_loss: 0.8122 - val_accuracy: 0.6254\n",
"Epoch 59/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.3320 - accuracy: 0.8568 - val_loss: 0.8246 - val_accuracy: 0.6254\n",
"Epoch 60/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.3279 - accuracy: 0.8596 - val_loss: 0.8379 - val_accuracy: 0.6382\n",
"Epoch 61/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.3066 - accuracy: 0.8679 - val_loss: 0.8712 - val_accuracy: 0.6322\n",
"Epoch 62/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.2972 - accuracy: 0.8778 - val_loss: 0.8765 - val_accuracy: 0.6556\n",
"Epoch 63/120\n",
"166/166 [==============================] - 15s 90ms/step - loss: 0.2794 - accuracy: 0.8855 - val_loss: 0.8888 - val_accuracy: 0.6412\n",
"Epoch 64/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.2717 - accuracy: 0.8870 - val_loss: 0.8707 - val_accuracy: 0.6616\n",
"Epoch 65/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.2481 - accuracy: 0.9027 - val_loss: 0.9451 - val_accuracy: 0.6443\n",
"Epoch 66/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.2438 - accuracy: 0.8985 - val_loss: 0.9310 - val_accuracy: 0.6601\n",
"Epoch 67/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.2429 - accuracy: 0.9019 - val_loss: 0.9513 - val_accuracy: 0.6488\n",
"Epoch 68/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.2180 - accuracy: 0.9123 - val_loss: 0.9224 - val_accuracy: 0.6639\n",
"Epoch 69/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.2053 - accuracy: 0.9210 - val_loss: 0.9745 - val_accuracy: 0.6586\n",
"Epoch 70/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.1937 - accuracy: 0.9259 - val_loss: 0.9804 - val_accuracy: 0.6609\n",
"Epoch 71/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.1911 - accuracy: 0.9259 - val_loss: 1.0090 - val_accuracy: 0.6692\n",
"Epoch 72/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.1683 - accuracy: 0.9343 - val_loss: 0.9756 - val_accuracy: 0.6760\n",
"Epoch 73/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.1602 - accuracy: 0.9384 - val_loss: 1.0009 - val_accuracy: 0.6654\n",
"Epoch 74/120\n",
"166/166 [==============================] - 15s 92ms/step - loss: 0.1499 - accuracy: 0.9411 - val_loss: 1.0601 - val_accuracy: 0.6752\n",
"Epoch 75/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.1386 - accuracy: 0.9511 - val_loss: 1.0837 - val_accuracy: 0.6964\n",
"Epoch 76/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.1504 - accuracy: 0.9395 - val_loss: 1.0422 - val_accuracy: 0.6828\n",
"Epoch 77/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.1298 - accuracy: 0.9494 - val_loss: 1.1151 - val_accuracy: 0.6926\n",
"Epoch 78/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.1363 - accuracy: 0.9469 - val_loss: 1.1188 - val_accuracy: 0.6934\n",
"Epoch 79/120\n",
"166/166 [==============================] - 15s 91ms/step - loss: 0.1087 - accuracy: 0.9613 - val_loss: 1.1764 - val_accuracy: 0.6881\n",
"Epoch 80/120\n",
"166/166 [==============================] - 15s 90ms/step - loss: 0.1111 - accuracy: 0.9579 - val_loss: 1.1839 - val_accuracy: 0.7047\n",
"Epoch 81/120\n",
"166/166 [==============================] - 17s 100ms/step - loss: 0.1099 - accuracy: 0.9554 - val_loss: 1.1656 - val_accuracy: 0.6903\n",
"Epoch 82/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.0954 - accuracy: 0.9664 - val_loss: 1.2296 - val_accuracy: 0.6956\n",
"Epoch 83/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.0960 - accuracy: 0.9641 - val_loss: 1.1802 - val_accuracy: 0.6911\n",
"Epoch 84/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.0827 - accuracy: 0.9709 - val_loss: 1.2027 - val_accuracy: 0.6971\n",
"Epoch 85/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.0733 - accuracy: 0.9734 - val_loss: 1.2311 - val_accuracy: 0.7047\n",
"Epoch 86/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.0695 - accuracy: 0.9754 - val_loss: 1.3710 - val_accuracy: 0.7032\n",
"Epoch 87/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.0785 - accuracy: 0.9728 - val_loss: 1.2191 - val_accuracy: 0.7130\n",
"Epoch 88/120\n",
"166/166 [==============================] - 16s 94ms/step - loss: 0.0643 - accuracy: 0.9762 - val_loss: 1.3200 - val_accuracy: 0.7107\n",
"Epoch 89/120\n",
"166/166 [==============================] - 16s 94ms/step - loss: 0.0777 - accuracy: 0.9728 - val_loss: 1.3024 - val_accuracy: 0.6986\n",
"Epoch 90/120\n",
"166/166 [==============================] - 16s 94ms/step - loss: 0.0823 - accuracy: 0.9698 - val_loss: 1.3243 - val_accuracy: 0.6850\n",
"Epoch 91/120\n",
"166/166 [==============================] - 16s 94ms/step - loss: 0.0748 - accuracy: 0.9715 - val_loss: 1.2222 - val_accuracy: 0.7190\n",
"Epoch 92/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.0412 - accuracy: 0.9894 - val_loss: 1.3428 - val_accuracy: 0.7183\n",
"Epoch 93/120\n",
"166/166 [==============================] - 16s 97ms/step - loss: 0.0419 - accuracy: 0.9873 - val_loss: 1.4071 - val_accuracy: 0.7122\n",
"Epoch 94/120\n",
"166/166 [==============================] - 16s 98ms/step - loss: 0.0707 - accuracy: 0.9728 - val_loss: 1.3140 - val_accuracy: 0.7032\n",
"Epoch 95/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.0709 - accuracy: 0.9728 - val_loss: 1.3007 - val_accuracy: 0.7115\n",
"Epoch 96/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.0559 - accuracy: 0.9813 - val_loss: 1.3645 - val_accuracy: 0.7107\n",
"Epoch 97/120\n",
"166/166 [==============================] - 16s 97ms/step - loss: 0.0526 - accuracy: 0.9821 - val_loss: 1.4318 - val_accuracy: 0.6911\n",
"Epoch 98/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.0528 - accuracy: 0.9811 - val_loss: 1.3890 - val_accuracy: 0.7077\n",
"Epoch 99/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.0410 - accuracy: 0.9873 - val_loss: 1.4500 - val_accuracy: 0.7228\n",
"Epoch 100/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.0439 - accuracy: 0.9853 - val_loss: 1.3942 - val_accuracy: 0.7069\n",
"Epoch 101/120\n",
"166/166 [==============================] - 16s 97ms/step - loss: 0.0471 - accuracy: 0.9851 - val_loss: 1.4105 - val_accuracy: 0.7092\n",
"Epoch 102/120\n",
"166/166 [==============================] - 16s 98ms/step - loss: 0.0560 - accuracy: 0.9779 - val_loss: 1.4342 - val_accuracy: 0.7092\n",
"Epoch 103/120\n",
"166/166 [==============================] - 17s 100ms/step - loss: 0.0505 - accuracy: 0.9807 - val_loss: 1.5104 - val_accuracy: 0.7002\n",
"Epoch 104/120\n",
"166/166 [==============================] - 16s 97ms/step - loss: 0.0625 - accuracy: 0.9781 - val_loss: 1.4378 - val_accuracy: 0.7281\n",
"Epoch 105/120\n",
"166/166 [==============================] - 16s 97ms/step - loss: 0.0482 - accuracy: 0.9838 - val_loss: 1.4477 - val_accuracy: 0.7069\n",
"Epoch 106/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.0296 - accuracy: 0.9915 - val_loss: 1.5017 - val_accuracy: 0.7190\n",
"Epoch 107/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.0357 - accuracy: 0.9887 - val_loss: 1.4341 - val_accuracy: 0.7281\n",
"Epoch 108/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.0374 - accuracy: 0.9856 - val_loss: 1.5128 - val_accuracy: 0.7221\n",
"Epoch 109/120\n",
"166/166 [==============================] - 16s 96ms/step - loss: 0.0449 - accuracy: 0.9838 - val_loss: 1.4628 - val_accuracy: 0.7205\n",
"Epoch 110/120\n",
"166/166 [==============================] - 16s 94ms/step - loss: 0.0415 - accuracy: 0.9851 - val_loss: 1.4585 - val_accuracy: 0.7205\n",
"Epoch 111/120\n",
"166/166 [==============================] - 16s 97ms/step - loss: 0.0453 - accuracy: 0.9824 - val_loss: 1.5194 - val_accuracy: 0.7160\n",
"Epoch 112/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.0428 - accuracy: 0.9845 - val_loss: 1.4295 - val_accuracy: 0.7198\n",
"Epoch 113/120\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
"166/166 [==============================] - 16s 95ms/step - loss: 0.0172 - accuracy: 0.9953 - val_loss: 1.5194 - val_accuracy: 0.7326\n",
"Epoch 114/120\n",
"166/166 [==============================] - 16s 94ms/step - loss: 0.0406 - accuracy: 0.9868 - val_loss: 1.4640 - val_accuracy: 0.7304\n",
"Epoch 115/120\n",
"166/166 [==============================] - 17s 102ms/step - loss: 0.0381 - accuracy: 0.9866 - val_loss: 1.4871 - val_accuracy: 0.7100\n",
"Epoch 116/120\n",
"166/166 [==============================] - 16s 95ms/step - loss: 0.0469 - accuracy: 0.9832 - val_loss: 1.5798 - val_accuracy: 0.7221\n",
"Epoch 117/120\n",
"166/166 [==============================] - 16s 94ms/step - loss: 0.0316 - accuracy: 0.9887 - val_loss: 1.4768 - val_accuracy: 0.7319\n",
"Epoch 118/120\n",
"166/166 [==============================] - 16s 94ms/step - loss: 0.0366 - accuracy: 0.9879 - val_loss: 1.4511 - val_accuracy: 0.7251\n",
"Epoch 119/120\n",
"166/166 [==============================] - 16s 94ms/step - loss: 0.0230 - accuracy: 0.9945 - val_loss: 1.4546 - val_accuracy: 0.7304\n",
"Epoch 120/120\n",
"166/166 [==============================] - 16s 94ms/step - loss: 0.0131 - accuracy: 0.9960 - val_loss: 1.5568 - val_accuracy: 0.7341\n",
"42/42 [==============================] - 1s 34ms/step - loss: 1.5568 - accuracy: 0.7341\n",
"Test accuracy: 0.7341389656066895\n"
]
}
],
"source": [
"import pandas as pd\n",
"from keras.layers import LSTM, Dense\n",
"from keras.models import Sequential\n",
"from sklearn.preprocessing import MinMaxScaler\n",
"from sklearn.model_selection import train_test_split\n",
"\n",
"# načtení dat\n",
"\n",
"# definice lookback\n",
"lookback = 200\n",
"\n",
"# převod dat na numpy array\n",
"data = df_model.values\n",
"scaler = MinMaxScaler(feature_range=(0, 1))\n",
"data_scaled = scaler.fit_transform(data)\n",
"\n",
"# rozdělení dat na trénovací a testovací\n",
"X = []\n",
"y = []\n",
"for i in range(lookback, len(data)):\n",
" X.append(data_scaled[i-lookback:i, 1:])\n",
" y.append(data_scaled[i, 0])\n",
"X = np.array(X)\n",
"y = np.array(y)\n",
"print(X.shape)\n",
"X_train, X_test, y_train, y_test = train_test_split(X, y, test_size=0.2)\n",
"\n",
"# vytvoření modelu\n",
"model = Sequential()\n",
"model.add(LSTM(units=100, input_shape=(lookback, data.shape[1]-1)))\n",
"model.add(Dropout(0.3))\n",
"model.add(Dense(1, activation='sigmoid'))\n",
"model.compile(loss=\"binary_crossentropy\", optimizer=\"adam\", metrics=['accuracy'])\n",
"\n",
"# natrénování modelu na trénovacích datech\n",
"history = model.fit(X_train, y_train, epochs=120, batch_size=32,validation_data=(X_test, y_test))\n",
"\n",
"# hodnocení modelu na testovacích datech\n",
"test_loss, test_acc = model.evaluate(X_test, y_test)\n",
"print('Test accuracy:', test_acc)\n"
]
},
{
"cell_type": "code",
"execution_count": 51,
"id": "96bc4d52",
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"Model: \"sequential\"\n",
"_________________________________________________________________\n",
" Layer (type) Output Shape Param # \n",
"=================================================================\n",
" lstm (LSTM) (None, 100) 76000 \n",
" \n",
" dropout (Dropout) (None, 100) 0 \n",
" \n",
" dense (Dense) (None, 1) 101 \n",
" \n",
"=================================================================\n",
"Total params: 76,101\n",
"Trainable params: 76,101\n",
"Non-trainable params: 0\n",
"_________________________________________________________________\n"
]
}
],
"source": [
"model.summary()"
]
},
{
"cell_type": "code",
"execution_count": 52,
"id": "44f54321",
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"42/42 [==============================] - 1s 34ms/step\n"
]
},
{
"data": {
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\n",
"text/plain": [
"<Figure size 640x480 with 1 Axes>"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"from sklearn.metrics import roc_curve\n",
"import matplotlib.pyplot as plt\n",
"y_pred_proba =model.predict(X_test)\n",
"fpr, tpr, _ = roc_curve(y_test, y_pred_proba)\n",
"auc = roc_auc_score(y_test, y_pred_proba)\n",
"plt.plot(fpr,tpr,label=\"data 1, auc=\"+str(auc))\n",
"plt.legend(loc=4)\n",
"plt.title(\"AUC ROC Curve\")\n",
"plt.show()"
]
},
{
"cell_type": "code",
"execution_count": 53,
"id": "cabdd1e1",
"metadata": {},
"outputs": [
{
"data": {
"image/png": 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\n",
"text/plain": [
"<Figure size 640x480 with 1 Axes>"
]
},
"metadata": {},
"output_type": "display_data"
},
{
"data": {
"image/png": 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\n",
"text/plain": [
"<Figure size 640x480 with 1 Axes>"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"acc = history.history['accuracy']\n",
"val_acc = history.history['val_accuracy']\n",
"loss = history.history['loss']\n",
"val_loss = history.history['val_loss']\n",
"\n",
"# Plot the accuracy\n",
"plt.plot(acc, label='Training Accuracy')\n",
"plt.plot(val_acc, label='Validation Accuracy')\n",
"plt.legend(loc='lower right')\n",
"plt.title('Accuracy')\n",
"plt.show()\n",
"\n",
"# Plot the loss\n",
"plt.plot(loss, label='Training Loss')\n",
"plt.plot(val_loss, label='Validation Loss')\n",
"plt.legend(loc='upper right')\n",
"plt.title('Loss')\n",
"plt.show()"
]
},
{
"cell_type": "code",
"execution_count": 54,
"id": "0c206b68",
"metadata": {
"scrolled": true
},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
" precision recall f1-score support\n",
"\n",
" 0.0 0.72 0.77 0.74 664\n",
" 1.0 0.75 0.70 0.72 660\n",
"\n",
" accuracy 0.73 1324\n",
" macro avg 0.74 0.73 0.73 1324\n",
"weighted avg 0.74 0.73 0.73 1324\n",
"\n",
"AUC-ROC score: 0.7980490142387733\n"
]
}
],
"source": [
"from sklearn.metrics import classification_report\n",
"auc = roc_auc_score(y_test, y_pred_proba) \n",
"y_pred_binary = (y_pred_proba > 0.5).astype(int)\n",
"print(classification_report(y_test, y_pred_binary))\n",
"print('AUC-ROC score: ', auc)"
]
},
{
"cell_type": "code",
"execution_count": 26,
"id": "f8f65bf1",
"metadata": {
"scrolled": true
},
"outputs": [
{
"data": {
"text/plain": [
"0.46871647"
]
},
"execution_count": 26,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"np.mean(y_pred_proba)"
]
},
{
"cell_type": "code",
"execution_count": 105,
"id": "4897ec9a",
"metadata": {},
"outputs": [],
"source": [
"model.save('model3.h5')\n",
"model.save_weights('my_model_weights3.h5') # to store\n"
]
},
{
"cell_type": "code",
"execution_count": 28,
"id": "450f5d2e",
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"array([0.53846154, 0.5 , 0.5 , 0.56666667, 0.36666667,\n",
" 0.05405405, 0.05405405, 0.08695652, 0. , 0. ,\n",
" 0.04347826, 0. , 0.5 , 0.35308133, 0.52333333,\n",
" 0.17319974, 0.60022574, 0.23687633, 0.26470588, 0.13549416,\n",
" 0.44876325, 0.15818221, 0.67857143, 0.06671903, 0.78571429,\n",
" 0.06057386, 0.45804196, 0.28032127, 0.66666667, 0.01817007,\n",
" 0.66666667, 0.0401169 , 0.09756867, 0.42702703, 0.31443598,\n",
" 0.50230415, 0.21293055, 0.35294118, 0.1381509 , 0.33707865,\n",
" 0.22234234, 0.55882353, 0.17702297, 0.85714286, 0.1892933 ,\n",
" 0.40634006, 0.32031142, 0.84210526, 0.0670209 , 0.25 ,\n",
" 0.00328931, 0.03192888, 0.39323843, 0.16905649, 0.39221179,\n",
" 0.15879984, 0.5 , 0.04523683, 0.20967742, 0.07297979,\n",
" 0.6122449 , 0.15827105, 0.7173913 , 0.27301756, 0.33703704,\n",
" 0.29255683, 1. , 0.00682466, 1. , 0.03013571,\n",
" 0.1017132 , 0.35193133, 0.24517326, 0.3744856 , 0.13353865,\n",
" 1. , 0.10377861, 0.27868852, 0.18929273, 0.5 ,\n",
" 0.10498358, 0.8 , 0.15167642, 0.33928571, 0.25938867,\n",
" 0.4 , 0.01258648, 1. , 0.01976735])"
]
},
"execution_count": 28,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"new_data =data_scaled[-1,:]\n",
"new_data = new_data[1:]\n",
"new_data"
]
},
{
"cell_type": "code",
"execution_count": 29,
"id": "2b919261",
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"array([[[0.53846154, 0.5 , 0.5 , 0.56666667, 0.36666667,\n",
" 0.05405405, 0.05405405, 0.08695652, 0. , 0. ,\n",
" 0.04347826, 0. , 0.5 , 0.35308133, 0.52333333,\n",
" 0.17319974, 0.60022574, 0.23687633, 0.26470588, 0.13549416,\n",
" 0.44876325, 0.15818221, 0.67857143, 0.06671903, 0.78571429,\n",
" 0.06057386, 0.45804196, 0.28032127, 0.66666667, 0.01817007,\n",
" 0.66666667, 0.0401169 , 0.09756867, 0.42702703, 0.31443598,\n",
" 0.50230415, 0.21293055, 0.35294118, 0.1381509 , 0.33707865,\n",
" 0.22234234, 0.55882353, 0.17702297, 0.85714286, 0.1892933 ,\n",
" 0.40634006, 0.32031142, 0.84210526, 0.0670209 , 0.25 ,\n",
" 0.00328931, 0.03192888, 0.39323843, 0.16905649, 0.39221179,\n",
" 0.15879984, 0.5 , 0.04523683, 0.20967742, 0.07297979,\n",
" 0.6122449 , 0.15827105, 0.7173913 , 0.27301756, 0.33703704,\n",
" 0.29255683, 1. , 0.00682466, 1. , 0.03013571,\n",
" 0.1017132 , 0.35193133, 0.24517326, 0.3744856 , 0.13353865,\n",
" 1. , 0.10377861, 0.27868852, 0.18929273, 0.5 ,\n",
" 0.10498358, 0.8 , 0.15167642, 0.33928571, 0.25938867,\n",
" 0.4 , 0.01258648, 1. , 0.01976735]]])"
]
},
"execution_count": 29,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"\n",
"new_data = np.reshape(new_data, (1,1,new_data.shape[0]))\n",
"new_data"
]
},
{
"cell_type": "code",
"execution_count": 30,
"id": "977d1f7a",
"metadata": {
"scrolled": true
},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"1/1 [==============================] - 0s 369ms/step\n"
]
}
],
"source": [
"y_pred = model.predict(new_data)"
]
},
{
"cell_type": "code",
"execution_count": 31,
"id": "1cc06bbf",
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"array([[0.2638105]], dtype=float32)"
]
},
"execution_count": 31,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"y_pred"
]
},
{
"cell_type": "code",
"execution_count": 83,
"id": "427be37d",
"metadata": {},
"outputs": [],
"source": [
"from datetime import date\n",
"\n",
"today = date.today()\n",
"df_fighters_details['AGE'] = (pd.to_datetime(today) - pd.to_datetime(df_fighters_details['DOB'])).astype('<m8[Y]')"
]
},
{
"cell_type": "code",
"execution_count": 84,
"id": "5975f89e",
"metadata": {},
"outputs": [],
"source": [
"fighter2 = \"Derrick Lewis\"\n",
"fighter1= \"Serghei Spivac\"\n"
]
},
{
"cell_type": "code",
"execution_count": 85,
"id": "cd180742",
"metadata": {},
"outputs": [],
"source": [
"f1_df = df_fighters.loc[df_fighters['FIGHTER']==fighter1]\n",
"f2_df = df_fighters.loc[df_fighters['FIGHTER']==fighter2]"
]
},
{
"cell_type": "code",
"execution_count": 86,
"id": "74302f5f",
"metadata": {},
"outputs": [
{
"data": {
"text/html": [
"<div>\n",
"<style scoped>\n",
" .dataframe tbody tr th:only-of-type {\n",
" vertical-align: middle;\n",
" }\n",
"\n",
" .dataframe tbody tr th {\n",
" vertical-align: top;\n",
" }\n",
"\n",
" .dataframe thead th {\n",
" text-align: right;\n",
" }\n",
"</style>\n",
"<table border=\"1\" class=\"dataframe\">\n",
" <thead>\n",
" <tr style=\"text-align: right;\">\n",
" <th></th>\n",
" <th>FIGHTER</th>\n",
" <th>HEIGHT_fighter</th>\n",
" <th>WEIGHT_fighter</th>\n",
" <th>REACH_fighter</th>\n",
" <th>STANCE_fighter</th>\n",
" <th>Fights</th>\n",
" <th>Win</th>\n",
" <th>DRAW</th>\n",
" <th>Lost</th>\n",
" <th>No_contest</th>\n",
" <th>...</th>\n",
" <th>BODY_attemps_opponent</th>\n",
" <th>LEG_landed_opponent</th>\n",
" <th>LEG_attemps_opponent</th>\n",
" <th>DISTANCE_landed_opponent</th>\n",
" <th>DISTANCE_attemps_opponent</th>\n",
" <th>CLINCH_landed_opponent</th>\n",
" <th>CLINCH_attemps_opponent</th>\n",
" <th>GROUND_landed_opponent</th>\n",
" <th>GROUND_attemps_opponent</th>\n",
" <th>form_skore_fighter</th>\n",
" </tr>\n",
" </thead>\n",
" <tbody>\n",
" <tr>\n",
" <th>2003</th>\n",
" <td>Serghei Spivac</td>\n",
" <td>75.0</td>\n",
" <td>260.0</td>\n",
" <td>78.0</td>\n",
" <td>Orthodox</td>\n",
" <td>9</td>\n",
" <td>6</td>\n",
" <td>0</td>\n",
" <td>3</td>\n",
" <td>0</td>\n",
" <td>...</td>\n",
" <td>71.0</td>\n",
" <td>28.0</td>\n",
" <td>29.0</td>\n",
" <td>164.0</td>\n",
" <td>415.0</td>\n",
" <td>27.0</td>\n",
" <td>38.0</td>\n",
" <td>37.0</td>\n",
" <td>58.0</td>\n",
" <td>0.9</td>\n",
" </tr>\n",
" </tbody>\n",
"</table>\n",
"<p>1 rows × 56 columns</p>\n",
"</div>"
],
"text/plain": [
" FIGHTER HEIGHT_fighter WEIGHT_fighter REACH_fighter \\\n",
"2003 Serghei Spivac 75.0 260.0 78.0 \n",
"\n",
" STANCE_fighter Fights Win DRAW Lost No_contest ... \\\n",
"2003 Orthodox 9 6 0 3 0 ... \n",
"\n",
" BODY_attemps_opponent LEG_landed_opponent LEG_attemps_opponent \\\n",
"2003 71.0 28.0 29.0 \n",
"\n",
" DISTANCE_landed_opponent DISTANCE_attemps_opponent \\\n",
"2003 164.0 415.0 \n",
"\n",
" CLINCH_landed_opponent CLINCH_attemps_opponent GROUND_landed_opponent \\\n",
"2003 27.0 38.0 37.0 \n",
"\n",
" GROUND_attemps_opponent form_skore_fighter \n",
"2003 58.0 0.9 \n",
"\n",
"[1 rows x 56 columns]"
]
},
"execution_count": 86,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"f1_df"
]
},
{
"cell_type": "code",
"execution_count": 87,
"id": "2b4a9810",
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"Index(['Win', 'HEIGHT_diff', 'REACH_diff', 'AGE_diff', 'form_skore_fighter',\n",
" 'form_skore_opponent', 'fightNo_fighter', 'fightNo_opponent',\n",
" 'Win_tot_f1', 'DRAW_f1', 'No_contest_f1', 'Win_tot_f2', 'DRAW_f2',\n",
" 'No_contest_f2', 'CTRL_pct_fighterf1', 'SIG.STR._acc_fighterf1',\n",
" 'SIG.STR._perRound_fighterf1', 'TOTAL STR._acc_fighterf1',\n",
" 'TOTAL STR._perRound_fighterf1', 'TD_acc_fighterf1',\n",
" 'TD_perRound_fighterf1', 'HEAD_acc_fighterf1',\n",
" 'HEAD_perRound_fighterf1', 'BODY_acc_fighterf1',\n",
" 'BODY_perRound_fighterf1', 'LEG_acc_fighterf1',\n",
" 'LEG_perRound_fighterf1', 'DISTANCE_acc_fighterf1',\n",
" 'DISTANCE_perRound_fighterf1', 'CLINCH_acc_fighterf1',\n",
" 'CLINCH_perRound_fighterf1', 'GROUND_acc_fighterf1',\n",
" 'GROUND_perRound_fighterf1', 'CTRL_pct_opponentf1',\n",
" 'SIG.STR._acc_opponentf1', 'SIG.STR._perRound_opponentf1',\n",
" 'TOTAL STR._acc_opponentf1', 'TOTAL STR._perRound_opponentf1',\n",
" 'TD_acc_opponentf1', 'TD_perRound_opponentf1', 'HEAD_acc_opponentf1',\n",
" 'HEAD_perRound_opponentf1', 'BODY_acc_opponentf1',\n",
" 'BODY_perRound_opponentf1', 'LEG_acc_opponentf1',\n",
" 'LEG_perRound_opponentf1', 'DISTANCE_acc_opponentf1',\n",
" 'DISTANCE_perRound_opponentf1', 'CLINCH_acc_opponentf1',\n",
" 'CLINCH_perRound_opponentf1', 'GROUND_acc_opponentf1',\n",
" 'GROUND_perRound_opponentf1', 'CTRL_pct_fighterf2',\n",
" 'SIG.STR._acc_fighterf2', 'SIG.STR._perRound_fighterf2',\n",
" 'TOTAL STR._acc_fighterf2', 'TOTAL STR._perRound_fighterf2',\n",
" 'TD_acc_fighterf2', 'TD_perRound_fighterf2', 'HEAD_acc_fighterf2',\n",
" 'HEAD_perRound_fighterf2', 'BODY_acc_fighterf2',\n",
" 'BODY_perRound_fighterf2', 'LEG_acc_fighterf2',\n",
" 'LEG_perRound_fighterf2', 'DISTANCE_acc_fighterf2',\n",
" 'DISTANCE_perRound_fighterf2', 'CLINCH_acc_fighterf2',\n",
" 'CLINCH_perRound_fighterf2', 'GROUND_acc_fighterf2',\n",
" 'GROUND_perRound_fighterf2', 'CTRL_pct_opponentf2',\n",
" 'SIG.STR._acc_opponentf2', 'SIG.STR._perRound_opponentf2',\n",
" 'TOTAL STR._acc_opponentf2', 'TOTAL STR._perRound_opponentf2',\n",
" 'TD_acc_opponentf2', 'TD_perRound_opponentf2', 'HEAD_acc_opponentf2',\n",
" 'HEAD_perRound_opponentf2', 'BODY_acc_opponentf2',\n",
" 'BODY_perRound_opponentf2', 'LEG_acc_opponentf2',\n",
" 'LEG_perRound_opponentf2', 'DISTANCE_acc_opponentf2',\n",
" 'DISTANCE_perRound_opponentf2', 'CLINCH_acc_opponentf2',\n",
" 'CLINCH_perRound_opponentf2', 'GROUND_acc_opponentf2',\n",
" 'GROUND_perRound_opponentf2'],\n",
" dtype='object')"
]
},
"execution_count": 87,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"df_model.columns"
]
},
{
"cell_type": "code",
"execution_count": 88,
"id": "2f5a3e74",
"metadata": {},
"outputs": [],
"source": [
"agediff = df_fighters_details[df_fighters_details['FIGHTER']==fighter1]['AGE'].values[0] - df_fighters_details[df_fighters_details['FIGHTER']==fighter2]['AGE'].values[0]\n",
"formy = [f1_df['form_skore_fighter'].values[0], f2_df['form_skore_fighter'].values[0]]\n",
"no_of_fights = [f1_df['Fights'].values[0],f2_df['Fights'].values[0]]\n",
"W_D_NC = f1_df[['Win','DRAW', 'No_contest']].values.tolist()[0] + f2_df[['Win','DRAW', 'No_contest']].values.tolist()[0]"
]
},
{
"cell_type": "code",
"execution_count": 89,
"id": "5473bec1",
"metadata": {},
"outputs": [],
"source": [
"sloupce2 = df_fighters.columns.tolist()[10:]\n",
"stats_f1 = []\n",
"stats_f2 = []\n",
"for sloupec in sloupce2: \n",
" splited = sloupec.split('_')\n",
" if 'CTRL' in splited:\n",
" stats_f1.append((f1_df[sloupec]/f1_df['TotalTime']).values[0])\n",
" stats_f2.append((f2_df[sloupec]/f2_df['TotalTime']).values[0])\n",
" if 'attemps' in splited:\n",
" stats_f1.append((f1_df[sloupec.replace('attemps', 'landed')]/f1_df[sloupec]).values[0])\n",
" stats_f1.append((f1_df[sloupec.replace('attemps', 'landed')]/f1_df['TotalTime']).values[0]*300)\n",
" \n",
" stats_f2.append((f2_df[sloupec.replace('attemps', 'landed')]/f2_df[sloupec]).values[0])\n",
" stats_f2.append((f2_df[sloupec.replace('attemps', 'landed')]/f2_df['TotalTime']).values[0]*300)\n",
"stats_list = stats_f1 + stats_f2"
]
},
{
"cell_type": "code",
"execution_count": 90,
"id": "bdff40e4",
"metadata": {},
"outputs": [],
"source": [
"vstup = np.array([1]+[f1_df.iloc[0][col] - f2_df.iloc[0][col] for col in ['HEIGHT_fighter','REACH_fighter']] + [agediff] + formy + no_of_fights + W_D_NC + stats_list)"
]
},
{
"cell_type": "code",
"execution_count": 91,
"id": "1fdd596e",
"metadata": {},
"outputs": [
{
"name": "stderr",
"output_type": "stream",
"text": [
"C:\\Users\\spravce\\AppData\\Local\\Temp\\ipykernel_30416\\2024273010.py:2: FutureWarning: The frame.append method is deprecated and will be removed from pandas in a future version. Use pandas.concat instead.\n",
" vstup_scaled = scaler.fit_transform(df_model.append(pd.DataFrame(vstup.reshape(1,-1), columns=list(df_model)), ignore_index=True))[-200:,1:]\n"
]
}
],
"source": [
"scaler = MinMaxScaler(feature_range=(0, 1))\n",
"vstup_scaled = scaler.fit_transform(df_model.append(pd.DataFrame(vstup.reshape(1,-1), columns=list(df_model)), ignore_index=True))[-200:,1:]"
]
},
{
"cell_type": "code",
"execution_count": 92,
"id": "1f3ec277",
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"(200, 89)"
]
},
"execution_count": 92,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"vstup_scaled.shape"
]
},
{
"cell_type": "code",
"execution_count": 93,
"id": "96eda032",
"metadata": {},
"outputs": [],
"source": [
"from numpy import *\n",
"where_are_NaNs = isnan(vstup_scaled)\n",
"vstup_scaled[where_are_NaNs] = 0"
]
},
{
"cell_type": "code",
"execution_count": 94,
"id": "b4ed6497",
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"array([], shape=(0, 2), dtype=int64)"
]
},
"execution_count": 94,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"np.argwhere(np.isnan(vstup_scaled))"
]
},
{
"cell_type": "code",
"execution_count": 95,
"id": "a5702284",
"metadata": {},
"outputs": [],
"source": [
"new_data = np.reshape(vstup_scaled, (1,200,vstup_scaled.shape[1]))"
]
},
{
"cell_type": "code",
"execution_count": 96,
"id": "ff2a2884",
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"array([[[0.46153846, 0.375 , 0.47058824, ..., 0. ,\n",
" 0. , 0. ],\n",
" [0.73076923, 0.79166667, 0.41176471, ..., 0.05888578,\n",
" 0.66153846, 0.06213597],\n",
" [0.26923077, 0.20833333, 0.58823529, ..., 0.02074561,\n",
" 0.7826087 , 0.58646617],\n",
" ...,\n",
" [0.46153846, 0.5 , 0.5 , ..., 0.0670209 ,\n",
" 0.25 , 0.00328931],\n",
" [0.53846154, 0.5 , 0.5 , ..., 0.01258648,\n",
" 1. , 0.01976735],\n",
" [0.5 , 0.45833333, 0.23529412, ..., 0.0916802 ,\n",
" 0.75342466, 0.07542115]]])"
]
},
"execution_count": 96,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"new_data"
]
},
{
"cell_type": "code",
"execution_count": null,
"id": "66110573",
"metadata": {},
"outputs": [],
"source": [
"\n"
]
},
{
"cell_type": "code",
"execution_count": 97,
"id": "b71d6fd0",
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"(1, 89)"
]
},
"execution_count": 97,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"np.array(new_data[-1][-1]).reshape(1,-1).shape"
]
},
{
"cell_type": "code",
"execution_count": 102,
"id": "23f96f1d",
"metadata": {},
"outputs": [],
"source": [
"from keras.models import load_model\n",
"model = load_model('model3.h5')\n",
"model.load_weights('my_model_weights.h5') # to load"
]
},
{
"cell_type": "code",
"execution_count": 103,
"id": "b5fa7a9f",
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"array([[0.51083056, 0.48916944]])"
]
},
"execution_count": 103,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"logreg.predict_proba(np.array(new_data[-1][-1]).reshape(1,-1))"
]
},
{
"cell_type": "code",
"execution_count": 104,
"id": "7bc04b75",
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"WARNING:tensorflow:5 out of the last 48 calls to <function Model.make_predict_function.<locals>.predict_function at 0x000001889A896670> triggered tf.function retracing. Tracing is expensive and the excessive number of tracings could be due to (1) creating @tf.function repeatedly in a loop, (2) passing tensors with different shapes, (3) passing Python objects instead of tensors. For (1), please define your @tf.function outside of the loop. For (2), @tf.function has reduce_retracing=True option that can avoid unnecessary retracing. For (3), please refer to https://www.tensorflow.org/guide/function#controlling_retracing and https://www.tensorflow.org/api_docs/python/tf/function for more details.\n",
"1/1 [==============================] - 0s 351ms/step\n"
]
},
{
"data": {
"text/plain": [
"array([[0.2637663]], dtype=float32)"
]
},
"execution_count": 104,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"y_pred = model.predict(new_data)\n",
"y_pred"
]
},
{
"cell_type": "code",
"execution_count": 50,
"id": "348db2cf",
"metadata": {},
"outputs": [],
"source": [
"df_model.to_csv('df_model.csv',index=False)"
]
},
{
"cell_type": "code",
"execution_count": null,
"id": "0a3db91c",
"metadata": {},
"outputs": [],
"source": []
},
{
"cell_type": "code",
"execution_count": null,
"id": "a60c443e",
"metadata": {},
"outputs": [],
"source": []
},
{
"cell_type": "code",
"execution_count": null,
"id": "155452b6",
"metadata": {},
"outputs": [],
"source": []
}
],
"metadata": {
"kernelspec": {
"display_name": "Python 3 (ipykernel)",
"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": "3.9.13"
}
},
"nbformat": 4,
"nbformat_minor": 5
}
|