Carlos Mex-Perera Headshot

Carlos Mex-Perera

Assistant Professor

Department of Electrical and Computer Engineering Technology
College of Engineering Technology
jmpiee@rit.edu
585-475-4276
Office Hours
(Online) Tuesday/Thursday 11 AM-12:30 PM. Wednesday 12:15-1:15 PM. Friday 11 AM-12 PM.
Office Location
ENT-2154

Carlos Mex-Perera

Assistant Professor

Department of Electrical and Computer Engineering Technology
College of Engineering Technology
jmpiee@rit.edu
585-475-4276

Select Scholarship

Recent Peer-reviewed Journal papers

Alberto F. Martínez-Herrera, Carlos Mex-Perera, Cuauhtemoc Mancillas-López, Carolina Del-Valle-Soto, Lilian Bossuete. The Use of Ellipse-based Estimator as a Sub-key Distinguisher for Side-Channel Analysis. Computers & Electrical Engineering, vol. 94, 2021, pp. 107311.

Carolina Del-Valle-Soto, Carlos Mex-Perera, Juan Arturo Nolazco-Flores, Alma Rodríguez, Julio C. Rosas-Caro, Alberto F. Martínez-Herrera. A low-cost Jamming detection approach using performance metrics in cluster-based Wireless Sensor Networks. Sensors 2021, 21(4):1179.

A.G. Orozco-Lugo, D.C. McLernon, M. Lara, S.A. Raza Zaidi, B. J. González, O. Illescas, C. Pérez-Macías, V. Nájera-Bello, J. Balderas, J. Pizano-Escalante, C. Mex-Perera, R. Rodríguez-Vázquez, Monitoring of water quality in a shrimp farm using a FANET, Internet of Things, 2020, 100170, ISSN 2542-6605.

Carolina Del-Valle-Soto, Carlos Mex-Perera, Juan Arturo Nolazco-Flores, Ramiro Velazquez, and Alberto Rossa-Sierra. Wireless Sensor Network Energy Model and Its Use in the Optimization of Routing Protocols. Energies 2020, 13 (3), 728.

Carolina Del-Valle-Soto, Carlos Mex-Perera, Ivan Aldaya, Fernando Lezama, Juan Arturo Nolazco-Flores and Raul Monroy. New Detection Paradigms to Improve Wireless Sensor Network Performance under Jamming Attacks. Sensors 2019, 19(11).

 

Currently Teaching

EEET-332
Signals, Systems & Transforms Lab
1 Credits
MATLAB is introduced and used extensively to analyze circuits on continuous-time and discrete-time systems. PSPICE is utilized for circuit simulation.
EEET-551
Wireless Communications
3 Credits
Wireless, digital point-to-point communication systems require a wide array of technologies, some analog (such as antennas, amplifiers, mixers) and some digital (filters, equalizers, decoders, etc.). The course emphasizes system-level and component-level analyses of a complete transceiver operating on a fading channel. Fundamental concepts, classical techniques, and some state-of-the-art advances are presented. These concepts are illustrated with hands-on activities using software-defined radio. Students may not take and receive credit for this course if they have already taken TCET-551.
TCET-651
Wireless Communications
3 Credits
Wireless, digital point-to-point communication systems require a wide array of technologies, some analog (such as antennas, amplifiers, mixers) and some digital (filters, equalizers, decoders, etc.). The course emphasizes system- and component-level analyses of a complete transceiver operating on a fading channel. Fundamental concepts, classical techniques, and some state-of-the-art advances are presented. These concepts are illustrated with hands-on activities using software-defined radio. Students may not take and receive credit for this course if they have already taken EEET-551.