Python UMAFALL_Model示例

示例#1

文件： plot_balanced_data.py 项目： SensorNet-UFAL/NewActivityRecognition

def plot_umafall():
    umafall = UMAFALL_Model()
    p = 1
    relevant_features = s.load_var(
        "umafall_relevant_features_best_window{}relevant_features_{}.pkl".
        format(slash, p))
    y = s.load_var("umafall_relevant_features_best_window{}y_{}.pkl".format(
        slash, p))
    y = pd.DataFrame(y, columns=[umafall.label_tag])
    balanced_data = balance_data.balance_data(relevant_features, y,
                                              threshold_balance_data)
    #plot_hist(relevant_features, y, 'Base HMP desbalanceada.')
    plot_hist(balanced_data[0], balanced_data[1], 'Base HMP Balanceada.')

示例#2

文件： plot_confusion_matrix.py 项目： SensorNet-UFAL/NewActivityRecognition

def umafall():
    umafall = UMAFALL_Model()
    p = 1
    umafall_threshold_classification = 0.45
    relevant_features = s.load_var(
        "umafall_relevant_features_best_window{}relevant_features_{}.pkl".
        format(slash, p))
    y = s.load_var("umafall_relevant_features_best_window{}y_{}.pkl".format(
        slash, p))
    y = pd.DataFrame(y, columns=[umafall.label_tag])
    balanced_data = balance_data.balance_data(relevant_features, y,
                                              threshold_balance_data)
    plot_confusion_matrix(umafall, balanced_data[0], balanced_data[1],
                          umafall_threshold_classification)

示例#3

from sklearn.ensemble import RandomForestClassifier  # Random Forest
from sklearn.ensemble import ExtraTreesClassifier  # Extra Trees
from sklearn.naive_bayes import GaussianNB  #Naive Bayes
from sklearn import svm  #SVM
from sklearn.neural_network import MLPClassifier  #multi-layer percept
import pandas as pd
from sklearn.model_selection import train_test_split
from pre_processing.get_accuracy import Get_Accuracy
from scripts.save_workspace import save
import numpy as np
from pre_processing.balance_data import BalanceData
import statistics as st

#===INITIALIZATION===#
Debug.DEBUG = 0
umafall = UMAFALL_Model()
processing = Processing_DB_Files()
project = Project()
#tuple from MPL
t_aux = []
for i in range(0, 500):
    t_aux.append(500)
t = tuple(t_aux)
####
classifiers = {
    "MPL":
    MLPClassifier(random_state=1,
                  solver="adam",
                  activation="relu",
                  max_iter=100000,
                  alpha=1e-5,

示例#4

文件： 2_geral_get_best_algorithm_balanced_data.py 项目： SensorNet-UFAL/NewActivityRecognition

#===INIT BASES===#
hmp_persons = ["f1", "m1", "m2", "f2", "m3", "f3", "m4",
               "f4"]  # at least 5 activities
umafall_persons = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17]
arcma_persons = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]
models = []
#Round 01
models.append({
    "model_name": "hmp",
    "model": HMP_Model(),
    "persons": hmp_persons,
    "window": 16
})
models.append({
    "model_name": "umafall",
    "model": UMAFALL_Model(),
    "persons": umafall_persons,
    "window": 10
})
models.append({
    "model_name": "arcma",
    "model": ARCMA_Model(),
    "persons": arcma_persons,
    "window": 26
})
#Round 02
#models.append({"model_name":"hmp", "model":HMP_Model(), "persons":hmp_persons, "window":90})
#models.append({"model_name":"umafall", "model":UMAFALL_Model(), "persons":umafall_persons, "window":10})
#models.append({"model_name":"arcma", "model":ARCMA_Model(), "persons":arcma_persons, "window":40})

#tuple from MPL

示例#5

文件： umafall_get_all_relevant_features_each_person_all_sensors.py 项目： SensorNet-UFAL/NewActivityRecognition

# -*- coding: utf-8 -*-
# IMPORTS #
from utils.debug import Debug
from models.umafall_model import UMAFALL_Model
from tsfresh import extract_relevant_features
from pre_processing.processing_db_files import Processing_DB_Files
from utils.project import Project, slash
from scripts.save_workspace import save

#===INITIALIZATION===#
Debug.DEBUG = 0
umafall = UMAFALL_Model()
processing = Processing_DB_Files()
project = Project()
s = save()
#window = 10 # Janela Fixa
window = 30  # Melhor Janela
persons = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]
#persons = [7,8,9,10,11,12,13,14,15]

for p in persons:

    data = umafall.load_training_data_by_people(
        p, additional_where="")  #ALL SENSORS
    print("Slicing Window....")
    data_tsfresh, y = umafall.slice_by_window_tsfresh(data, window)
    if data_tsfresh is None:
        continue

    y.index += 1
    del data_tsfresh["activity"]

示例#6

# -*- coding: utf-8 -*-
from models.arcma_model import ARCMA_Model
from models.hmp_model import HMP_Model
from models.umafall_model import UMAFALL_Model

#ARCMA
arcma = ARCMA_Model()
arcma.load_training_data_by_window_by_people(1, 36)
sample_arcma = arcma.training[0]
sample_arcma_to_plot = sample_arcma.drop("activity", 1)
sample_arcma_to_plot.plot(subplots=True, legend=True, figsize=(20, 10))

#HMP
hmp = HMP_Model()
hmp.load_training_data_by_window_by_people("f1", 36)
sample_hmp = hmp.training[0]
sample_hmp_to_plot = sample_hmp.drop("activity", 1)
sample_hmp_to_plot.plot(subplots=True, legend=True, figsize=(20, 10))

#UMAFALL
umafall = UMAFALL_Model()
umafall.load_training_data_by_window_by_people(
    "1", 10, additional_where="and sensor=2 and body=3")
sample_umafall = umafall.training[0]
sample_umafall_to_plot = sample_umafall.drop("activity", 1)
sample_umafall_to_plot.plot(subplots=True, legend=True, figsize=(20, 10))

示例#7

# -*- coding: utf-8 -*-
# IMPORTS #
from utils.debug import Debug
from models.umafall_model import UMAFALL_Model
from tsfresh import extract_relevant_features
from pre_processing.processing_db_files import Processing_DB_Files
from utils.project import Project, slash
from scripts.save_workspace import save

#===INITIALIZATION===#
Debug.DEBUG = 0
umafall = UMAFALL_Model()
processing = Processing_DB_Files()
project = Project()
s = save()
#window = 10 # Janela Fixa
window = 30  # Melhor Janela
persons = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]
#persons = [7,8,9,10,11,12,13,14,15]

for p in persons:

    data = umafall.load_training_data_by_people(
        p, additional_where="and body=2 and sensor=2")  #MAGNETOMETER in WAIST
    print("Slicing Window....")
    data_tsfresh, y = umafall.slice_by_window_tsfresh(data, window)
    if data_tsfresh is None:
        continue

    y.index += 1
    del data_tsfresh["activity"]

示例#8

from models.arcma_model import ARCMA_Model


#===INITIALIZATION===#
Debug.DEBUG = 0
processing = Processing_DB_Files()
project = Project()
s = save()
get_accuracy = Get_Accuracy()
#===INIT BASES===#
hmp_persons = ["f1", "m1", "m2", "f2", "m3", "f3", "m4", "f4"] # at least 5 activities
umafall_persons = [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17]
arcma_persons = [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15]
models = []
#models.append({"model_name":"hmp", "model":HMP_Model(), "persons":hmp_persons, "window":90})
models.append({"model_name":"umafall", "model":UMAFALL_Model(), "persons":umafall_persons, "window":10})
models.append({"model_name":"arcma", "model":ARCMA_Model(), "persons":arcma_persons, "window":40})

#tuple from MPL
t_aux = []
for i in range(0,500):
    t_aux.append(500)
t = tuple(t_aux)
####
classifiers = {"Extratrees": ExtraTreesClassifier(n_estimators = 1000, random_state=1)}




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