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Author SHA1 Message Date
76c5f61dda cleanup 2023-10-20 16:11:10 +02:00
bfe4a09f8d added skipped names 2023-10-20 16:11:02 +02:00
2 changed files with 65 additions and 51 deletions

View File

@ -1,14 +1,14 @@
from enum import Enum
# models
from sklearn import tree
from sklearn import metrics
from sklearn import preprocessing
from sklearn import neighbors
from sklearn import ensemble
from sklearn import svm
from matplotlib import pyplot as plt
import pandas as pd
# other
from enum import Enum
import numpy as np
import random
import time
import csv
import plots
@ -49,12 +49,15 @@ with open(PATH, 'r') as file:
normalized = preprocessing.normalize(data, axis=0, norm='max')
norm = list(normalized.tolist())
steps = np.linspace(0.1, 1.0, 10, dtype=np.float64)
steps = np.linspace(1e-4, 1, 20, dtype=np.float64)
print("Step \t seconds/step")
for step in steps:
actual = []
predicted = []
time_start = time.time()
for j in range(3):
for i in range(len(norm)):
temp_data = norm.pop(i)
temp_label = labels.pop(i)
@ -73,20 +76,27 @@ for step in steps:
# criterion='gini', # gini best
# )
# model = ensemble.ExtraTreesClassifier(
# n_estimators=150 # higher is better, but slower (def: 100)
# n_estimators=step # higher is better, but slower (def: 100)
# )
# model = neighbors.KNeighborsClassifier(
# algorithm='auto',
# leaf_size=2,
# n_neighbors=step,
# )
model = ensemble.BaggingClassifier(
n_estimators=5,
max_samples=.5,
max_features=.5,
bootstrap=False
)
# model = svm.SVC(decision_function_shape='ovr'
# model = ensemble.BaggingClassifier(
# n_estimators=5,
# max_samples=.5,
# max_features=.5,
# bootstrap=False
# )
# model = svm.SVC(
# C = 0.8,
# kernel = "poly",
# degree = 5,
# coef0 = 6,
# probability = False,
# break_ties=True,
# decision_function_shape = 'ovr'
# )
model = model.fit(norm, labels)
result = model.predict([temp_data])
@ -100,7 +110,7 @@ for step in steps:
actual_list.append(actual)
predicted_list.append(predicted)
print(step)
print("%.4f"%step, "\t", "%.2f"%(time.time()-time_start))
plots.plotMetrics(actual_list, predicted_list)
plots.plotConfusion(actual_list[0], predicted_list[0])

View File

@ -94,6 +94,7 @@ detector = cv2.aruco.ArucoDetector(dictionary, detector_params)
images_converted = 0
images_skipped = 0
names_skipped = []
### IMAGE CONVERSIE ###
for folder in os.listdir(input_directory):
@ -147,14 +148,10 @@ for folder in os.listdir(input_directory):
if VERBOSE:
print("IDs detected:\n", ids)
if ids is None:
print("Skipping: ", filename)
print("=============================================")
images_skipped += 1
continue
if len(ids) != 4:
if ids is None or len(ids) != 4:
print("Skipping: ", filename)
print("=============================================")
names_skipped.append(filename)
images_skipped += 1
continue
@ -257,4 +254,11 @@ if VERBOSE:
print("%d van de %d succesvol"
%(images_converted, (images_converted+images_skipped)))
if images_skipped != 0:
print("")
with open(os.path.join(input_directory, "skipped.txt"), 'w') as file:
for name in names_skipped:
file.write(name)
file.write("\n")
cv2.destroyAllWindows()