JOSÉ TRINIDAD GUILLÉN BONILLA
Resumen curricular:
El Dr. José Trinidad Guillen Bonilla es profesor del Centro Universitario de Ciencias Exactas e Ingenierías, universidad de Guadalajara. El dr. Guil... Ver más
El Dr. José Trinidad Guillen Bonilla es profesor del Centro Universitario de Ciencias Exactas e Ingenierías, universidad de Guadalajara. El dr. Guillen es autor de 29 artículos de investigación, 4 capítulos de libro y 3 libros educacionales para estudiantes universitarios. Cuenta con más de 150 citas de sus trabajos de investigación y ha co-dirigido y dirigido tesis de estudiantes a nivel doctoral, maestría y licenciatura. Además, cuenta con experiencia industrial en desarrollo para empresas de automatización de procesos industriales. Ver menos
Perfil de Investigador SNII:
Perfil PRODEP:
Bases de datos bibliográficas:
Scopus
Publicaciones del académico:
- Photocatalytic Evaluation and Application as a Sensor for the Toxic Atmospheres (Propane and Carbon Monoxide) of Nickel Antimonate (NiSb2O6) Powders
- A New Texture Spectrum Based on Parallel Encoded Texture Unit and Its Application on Image Classification: A Potential Prospect for Vision Sensing
- Identification of Lacerations Caused by Cervical Cancer through a Comparative Study among Texture-Extraction Techniques
- A novel technique for texture description and image classification based in RGB compositions
- Representación Gráfica de Perturbaciones en el Plano Complejo “s”
- Zinc aluminate (ZnAl<inf>2</inf>O<inf>4</inf>) applied in the development of a propane gas sensor and in the design of a digital gas detector
- Trajectories Generation for Unmanned Aerial Vehicles Based on Obstacle Avoidance Located by a Visual Sensing System
- A disturbed optical interferometric sensor analyzed on complex s-plane: A new novel vectorial detection technique for the interference patterns
- A theoretical-practical study on poles and zeros calculated from a filtered modulated function of an interference pattern
- A Gas Sensor for Application as a Propane Leak Detector
- Low-finesse fabry–pérot interferometers applied in the study of the relation between the optical path difference and poles location
- Low-finesse fabry–pérot interferometers applied in the study of the relation between the optical path difference and poles location
- Carbone monoxide (CO) detection device based on the nickel antimonate oxide and a DC electronic circuit
- Signal analysis, signal demodulation and numerical simulation of a quasi-distributed optical fiber sensor based on FDM/WDM techniques and fabry-pérot interferometers