Development of Early Stage Diabetes Prediction Model Based on Stacking Approach

Diabetes is a disease that may pose direct or indirect risks in terms of human health. Early diagnosis can minimize the potential harm of this disease to the body and reduce the probability of death. For this reason, laboratory tests are performed on diabetic patients. The analysis of these tests enables the diagnosis of diabetes. The aim of this study is so quickly diagnose diabetes by using data obtained from patients with machine learning methods. In order to diagnose the disease, k-nearest neighbor (k-NN), logistic regression (LR), random forest (RF) models and the stacking meta model which is created by combining these three models were used. The dataset used in the research includes test samples taken from 520 people. The dataset has 17 features, including 16 input features and 1 output feature. As a result of the classification through this dataset, different classification results were obtained from the models. The classification success of the models LR, k-NN, RF and stacking were found to be 91.3%, 91.7%, 97.9% and 99.6%, respectively. F-score, precision and recall performance metrics were utilized for a detailed analysis of the models\u27 classification results. The obtained results revealed that the stacking model has a sufficient level to be used as a decision support system in the early diagnosis of diabetes

FEATURE EXTRACTION AND RECOGNITION ON TRAFFIC SIGN IMAGES

FEATURE EXTRACTION AND RECOGNITION ON TRAFFIC SIGN IMAGESAbstractIt is vital that the traffic signs used to ensure the order of the traffic are perceived by the drivers. Traffic signs have international standards that allow the driver to learn about the road and the environment while driving. Traffic sign recognition systems have recently started to be used in vehicles in order to improve traffic safety. Machine learning methods are used in the field of image recognition. Deep learning methods increase the classification success by extracting the hidden and interesting features in the image. Images contain many features and this situation can affect success in classification problems. It can also reveal the need for high-capacity hardware. In order to solve these problems, convolutional neural networks can be used to extract meaningful features from the image. In this study, we created a dataset containing 1500 images of 14 different traffic signs that are frequently used on Turkey highways. The features of the images in this dataset were extracted using convolutional neural networks from deep learning architectures. The 1000 features obtained were classified using the Random Forest method from machine learning algorithms. 93.7% success was achieved as a result of this classification process.Keywords: Classification, Convolution neural network, Feature extraction, Random forest, Traffic signsTRAFİK İŞARETİ GÖRÜNTÜLERİNDE ÖZELLİK ÇIKARMA VE TANIMAÖzetTrafiğin düzenini sağlamak amacıyla kullanılan trafik levhalarını sürücülerin algılaması hayati önem taşımaktadır. Sürüş esnasında sürücünün yol ve çevre hakkında bilgi edinebilmesini sağlayan trafik levhaları uluslararası standartlara sahiptir. Trafik levhası tanıma sistemleri son zamanlarda trafik güvenliğini arttırmak amacıyla araçlarda kullanılmaya başlamıştır. Makine öğrenmesi yöntemleri görüntü tanıma alanında kullanılmaktadır.  Derin öğrenme yöntemleri, görüntüde yer alan gizli ve ilginç özellikleri çıkarak sınıflandırma başarısını arttırmaktadır. Görüntüler çok sayıda özellik içermektedir ve bu durum sınıflandırma problemlerinde başarıyı etkileyebilmektedir. Ayrıca yüksek kapasiteli donanım gereksinimini de ortaya çıkarabilmektedir. Bu sorunların çözülebilmesi için görüntüden anlamlı özelliklerin çıkarılmasında konvolüsyonel sinir ağları kullanılabilmektedir. Bu çalışmada Türkiye’deki karayollarında sıklıkla kullanılan 14 farklı trafik levhasına ait 1500 görüntü içeren bir veriseti tarafımızca oluşturulmuştur. Bu veriseti kullanılarak derin öğrenme mimarilerinden konvolüsyonel sinir ağları kullanılarak görüntülerin özellikleri çıkarılmıştır. Elde edilen 1000 özellik makine öğrenmesi algoritmalarından Random Forest yöntemi kullanılarak sınıflandırılmıştır. Bu sınıflandırma işlemi sonucunda %93.7 başarı elde edilmiştir.Anahtar Kelimeler: Konvolüsyonel sinir ağları, Özellik çıkarma, Random forest, Sınıflandırma, Trafik işaretleri

Determining the Extinguishing Status of Fuel Flames With Sound Wave by Machine Learning Methods

Fire is a natural disaster that can be caused by many different reasons. Recently, more environmentally friendly and innovative extinguishing methods have started to be tested, some of which are also used. For this purpose, a sound wave fire-extinguishing system was created and firefighting tests were performed. With the data obtained, as a result of 17,442 tests, a data set was created. In this study, five different machine learning methods were used by using the data set created. These are artificial neural network, k-nearest neighbor, random forest, stacking and deep neural network methods. Stacking method is an ensemble method created by using artificial neural network, k-nearest neighbor, random forest models together. Classification of extinction and non-extinction states of the flame was made with the models created with these methods. The accuracy of models in classification should be analyzed in detail in order to be used as a decision support system in the sound wave fire-extinguishing system. Hence, the classification processes were carried out through the 10-fold cross-validation method. As a result of these tests, the performance analysis of the models was carried out, and the results showed that the highest classification accuracy belongs to the stacking model with 97.06%. The classification accuracy was determined 96.58% in random forest method, 96.03% in artificial neural network model, 94.88% in deep neural network model and 92.62% in k-NN model. The performance of the methods was compared by analyzing the performance metrics of machine learning methods. Thanks to the decision support system to be obtained based on the results of the analyzes, the sound wave fire-extinguishing system can be used efficiently

Maize seeds forecasting with hybrid directional and bi-directional long short-term memory models

The purity of the seeds is one of the important factors that increase the yield. For this reason, the classification of maize cultivars constitutes a significant problem. Within the scope of this study, six different classification models were designed to solve this problem. A special dataset was created to be used in the models designed for the study. The dataset contains a total of 14,469 images in four classes. Images belong to four different maize types, BT6470, CALIPOS, ES_ARMANDI, and HIVA, taken from the BIOTEK company. AlexNet and ResNet50 architectures, with the transfer learning method, were used in the models created for the image classification. In order to improve the classification success, LSTM (Directional Long Short-Term Memory) and BiLSTM (Bi-directional Long Short-Term Memory) algorithms and AlexNet and ResNet50 architectures were hybridized. As a result of the classifications, the highest classification success was obtained from the ResNet50+BiLSTM model with 98.10%

Classification and Analysis of Pistachio Species with Pre-Trained Deep Learning Models

Pistachio is a shelled fruit from the anacardiaceae family. The homeland of pistachio is the Middle East. The Kirmizi pistachios and Siirt pistachios are the major types grown and exported in Turkey. Since the prices, tastes, and nutritional values of these types differs, the type of pistachio becomes important when it comes to trade. This study aims to identify these two types of pistachios, which are frequently grown in Turkey, by classifying them via convolutional neural networks. Within the scope of the study, images of Kirmizi and Siirt pistachio types were obtained through the computer vision system. The pre-trained dataset includes a total of 2148 images, 1232 of Kirmizi type and 916 of Siirt type. Three different convolutional neural network models were used to classify these images. Models were trained by using the transfer learning method, with AlexNet and the pre-trained models VGG16 and VGG19. The dataset is divided as 80% training and 20% test. As a result of the performed classifications, the success rates obtained from the AlexNet, VGG16, and VGG19 models are 94.42%, 98.84%, and 98.14%, respectively. Models’ performances were evaluated through sensitivity, specificity, precision, and F-1 score metrics. In addition, ROC curves and AUC values were used in the performance evaluation. The highest classification success was achieved with the VGG16 model. The obtained results reveal that these methods can be used successfully in the determination of pistachio types