J. Cortes-Galicia scite author profile

J. Cortes-Galicia

5Publications

11Citation Statements Received

53Citation Statements Given

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Instituto Politécnico Nacional

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Melanoma Detection in Dermoscopic Images Using a Cellular Automata Classifier

et al. 2022

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Any cancer type is one of the leading death causes around the world. Skin cancer is a condition where malignant cells are formed in the tissues of the skin, such as melanoma, known as the most aggressive and deadly skin cancer type. The mortality rates of melanoma are associated with its high potential for metastasis in later stages, spreading to other body sites such as the lungs, bones, or the brain. Thus, early detection and diagnosis are closely related to survival rates. Computer Aided Design (CAD) systems carry out a pre-diagnosis of a skin lesion based on clinical criteria or global patterns associated with its structure. A CAD system is essentially composed by three modules: (i) lesion segmentation, (ii) feature extraction, and (iii) classification. In this work, a methodology is proposed for a CAD system development that detects global patterns using texture descriptors based on statistical measurements that allow melanoma detection from dermoscopic images. Image analysis was carried out using spatial domain methods, statistical measurements were used for feature extraction, and a classifier based on cellular automata (ACA) was used for classification. The proposed model was applied to dermoscopic images obtained from the PH2 database, and it was compared with other models using accuracy, sensitivity, and specificity as metrics. With the proposed model, values of 0.978, 0.944, and 0.987 of accuracy, sensitivity and specificity, respectively, were obtained. The results of the evaluated metrics show that the proposed method is more effective than other state-of-the-art methods for melanoma detection in dermoscopic images.

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Detection of Diseases in Tomato Leaves by Color Analysis

et al. 2021

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Agricultural productivity is an important factor for the economic development of a country. Therefore, the diagnosis of plant diseases is a field of research of utmost importance for the agricultural sector as it allows us to help recommend strategies to avoid the spread of diseases, thus reducing economic losses. Currently, with the rise of computer systems, computer systems have been developed that allow computer-assisted diagnosis in different research fields, including the agricultural sector. This work proposes the development of a methodology that allows the detection of three types of diseases in tomato leaves (late blight, tomato mosaic virus and Septoria leaf spot) by image analysis and pattern recognition. The methodology is divided into three stages: (1) segmentation of the leaf and of the lesion, (2) feature extraction using color moments and Gray Level Co-occurrence Matrix (GLCM) and (3) classification. For the segmentation process, it is proposed to use a range of pixel colors that represent healthy and diseased areas in tomato leaves using values proposed by an expert in the area of phytopathology. For the classification it is proposed to use a decision rule in which if two of the Support Vector Machines (SVM) classifiers, K Nearest Neighbors (K-NN) and Multilayer Perceptron (MLP) give the same result, then this is taken for the final decision. The result of the methodology is compared with other classifiers using the value of its accuracy and validated with cross validation.

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Tomato disease detection by means of pattern recognition

Luna-Benoso¹,

Martinez-Perales²,

Cortes-Galicia³

2020

ijco

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Identification of the main factors affecting the increase of productivity in Mexican companies

Cortes-Gonzalez¹,

Martinez-Perales²,

Cortes-Galicia³

2020

ces

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Recognition of breast tissue density by mammographic images

Luna-Benoso¹,

Martinez-Perales²,

Cortes-Galicia³

2018

ces

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The density of breast tissue is an extremely important risk factor for the development of breast cancer. Women who have a significant amount of dense breast tissue are more likely to have cancer than those whose tissues are less dense. This paper presents an automated method for the recognition of breast tissue density. For this purpose, images obtained from the mini-MIAS data base database (Mammogram Image Analysis Society database (UK)) were used. The process that leads to recognition is divided into three phases: 1) segmentation of the breast, 2) extraction of characteristics and 3) classification. The segmentation of the breast was carried out using methods in the spatial domain, after which 11 statistical features were extracted, and finally a neural network was applied for the classification process. The performance of the model was measured 720 B. Luna-Benoso et al. using the k-fold cross validation method and the results were compared with those obtained in other works.

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J. Cortes-Galicia

Melanoma Detection in Dermoscopic Images Using a Cellular Automata Classifier

Detection of Diseases in Tomato Leaves by Color Analysis

Tomato disease detection by means of pattern recognition

Identification of the main factors affecting the increase of productivity in Mexican companies

Recognition of breast tissue density by mammographic images

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