Semblance
Dr. Moisés García Martínez holds a Ph.D. in Applied Sciences with a specialization in Control and Dynamic Systems, obtained in 2015 from the Instituto Potosino de Investigación Científica y Tecnológica (IPICYT), and a Master’s degree in Applied Sciences with a specialization in Optoelectronics and Virtual Instrumentation, earned in 2010 from the Instituto de Investigación en Comunicación Óptica (IICO). He is currently a member of the National System of Researchers (SNI) of CONACYT and actively participates in research projects, primarily in the field of cryptography based on chaotic systems. He has published numerous research articles in prestigious international journals and conferences, as well as outreach articles. Additionally, he has developed technological innovations and holds two international patents. Over his career, Dr. García has contributed to various industries and institutions, including working at DAF S.A. de C.V. in real-time process automation, at IPICYT on research projects, and at the Mexican Space Agency (AEM) in collaboration with El Colegio de la Frontera Sur (Chetumal Campus) on satellite image digital processing.
Expertise and Skills
- Nonlinear Dynamics
- Applied and Computational Engineering and Mathematics
- Circuits
- Applied Cryptography
- Dynamic Systems
- Cryptography
- Applied Mathematics
- Electronic Engineering
- Encryption
- Nonlinear Systems
- Chaotic Systems
Consulting and Industry Projects
DAF S.A. de C.V., real-time process automation.
Potosino Institute of Scientific Research, project development Mexican Space Agency (AEM) in collaboration with Colegio de la Frontera Sur, digital processing of satellite images.
Academic Publications
- NAO robots as context to teach numerical methods
- An Early Introduction to Cryptography with Engineering Students
- Sensors for sustainable smart cities: A review
- Encryption activity to improve higher-order thinking in engineering students
- Electronic implementation of a dynamical network with nearly identical hybrid nodes via unstable dissipative systems
- Pseudo-random bit generator based on multim-modal maps