Dante Mujica Vargas scite author profile

We develop a swift, robust, and practical tool for detecting brain lesions with minimal user intervention to assist clinicians and researchers in the diagnosis process, radiosurgery planning, and assessment of the patient's response to the therapy. We propose a unified gravitational fuzzy clustering-based segmentation algorithm, which integrates the Newtonian concept of gravity into fuzzy clustering. We first perform fuzzy rule-based image enhancement on our database which is comprised of T1/T2 weighted magnetic resonance (MR) and fluid-attenuated inversion recovery (FLAIR) images to facilitate a smoother segmentation. The scalar output obtained is fed into a gravitational fuzzy clustering algorithm, which separates healthy structures from the unhealthy. Finally, the lesion contour is automatically outlined through the initialization-free level set evolution method. An advantage of this lesion detection algorithm is its precision and its simultaneous use of features computed from the intensity properties of the MR scan in a cascading pattern, which makes the computation fast, robust, and self-contained. Furthermore, we validate our algorithm with large-scale experiments using clinical and synthetic brain lesion datasets. As a result, an 84%–93% overlap performance is obtained, with an emphasis on robustness with respect to different and heterogeneous types of lesion and a swift computation time.

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Rule-Based Spanish Multiple Question Reformulation and their Classification using a Convolutional Neuronal Network

Sánchez¹,

Vargas²

2021

CyS

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Comparative Analysis of Interest Point Detectors Algorithms on Robotic Operative System

Rivera¹,

Vargas²,

Ruiz³

2019

RCS

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Applications of robotic vision have had great advances within the artificial intelligence through the processing of images, as well as the automated systems (robots). A comparative analysis of some interest point detector algorithms will be performed, the next analysis will be about a robotic operating system called ROS, by means of a 2D object detector system. For this purpose, a physical architecture will be carried out to carry out the experimentation within a controlled work environment, in order to demonstrate which algorithm will work best in the future for the development of object recognition systems, implementing this system on Robots.

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Embedded System for Inattention Detection in Driving Task

Castro

Vargas

Cruz³

2020

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