电气工程
Rene Arechiga
Rene Arechiga is an associate professor of electrical engineering at NMT. 他的研究 interests are in digital signal processing applied to speech recognition and thunderstorms. In the area of speech, his goal is to build a tutor of English pronunciation for Hispanics. In the area of thunderstorms, he is currently working on acoustical monitoring and analysis of thunder due to lightning in the infrasound, audible and higher frequency 范围.
他获得了学士学位 from the IPN in Mexico, his master’s from Stanford University, 和他的博士学位.D. from 新墨西哥大学, all in electrical engineering.
阿里El-Osery
阿里El-Osery is an associate professor of electrical engineering, with research interests in wireless communications, control systems, and soft computing. 初步研究 focus is in the area of micro-sensor networks that can be deployed for a variety of 实际应用. These small-but-smart sensor networks can be used for early fire detection in forests, traffic monitoring, structural health monitoring, and more. In his labs, students develop efficient methods for RF-based sensor localization, power conservation, system scalability, and optimization of sensor allocation.
El-Osery earned his bachelor’s, master’s, 和Ph值.D in electrical engineering from 新墨西哥大学.
Seda Senay
Seda Senay is an assistant professor of electrical engineering, with research interest in non-uniform sampling, time-frequency methods, channel estimation, and compressive 传感.
My research interests are based on the problem of signal reconstruction from non-uniform samples as a generalization of the compressive 传感 method. 我也做过研究 on time-frequency methods for wireless communication channel modeling and estimation. Currently, I am pursuing research on wavelets, nonlinear system identification methods and dimensionality reduction techniques for hyperspectral imaging.
She earned her bachelor’s and master’s in electrical and electronics engineering from Yeditope University in Istanbul, Turkey. 她获得了博士学位.D. 来自大学 匹兹堡.
斯科特Teare
Dr. 斯科特Teare is a professor of electrical engineering. 他获得了博士学位.D. 在 University of Guelph in Ontario, Canada. He is the co-author of the text books, “Introduction to Image Stabilization” and “Introduction to Liquid Crystals for Optical Design and 工程.”
Professor Teare is actively involved in the development of novel instrumentation that uses electronics, light, and sound to improve imaging, 传感 and measurement of 物理现象. Topics of interest include adaptive optics, spectroscopy, interferometry, optical thin films, shock physics, and ballistics. He is currently developing instrumentation to evaluate the breakdown voltage of energetic powder. He is also developing ballistic simulators and converting firearm pressure testing methods.
My research focus tends to revolve around improving the understanding of physical phenomena which more often than not requires that an instrument needs to be developed 收集所需的数据. This work is closely tied to optics and optical engineering. Much of the work is conducted at OPAL at ag亚游集团App下载 and covers a wide range of 主题.
研究 主题 of interest include:
- 高能材料、器件 & 3 d打印机
- Wave Front Sensing, Adaptive Optics and Lasers
- Ballistics: Internal, Transitional, External
- Optical Coatings and Interference Filters
- Astronomical Telescopes and Observatories
- 数值模拟
凯文Wedeward
Dr. 凯文Wedeward is a professor of electrical engineering. 他获得了学士学位 和Ph值.D. from New Mexico State University.
他的研究 interests include alternative energy, electric power systems, and robotics.
Alternative energy and distributed 一代
- Develop models of power systems to study the effects of increasing the amount of distributed 一代.
- Characterize alternative energy sources and assess their impact as a larger number of them are integrated into the power system. Effects at both the distribution- and transmission-level are of interest as are techniques for coordinating and controlling 他们的行为.
电力系统
- Develop methodologies based upon dynamic systems and control theory for application 电力系统. Primary areas of interest are in characterizing effects of control devices across the network and estimating unknown information (e.g.、负载 composition and equipment failures) using available measurements.
Mobile robots and manipulators
- Develop mobile robots capable of navigating through rugged, unstructured environments out of an operator's line-of-sight. Applications of interest include surveillance, and land-mine detection and remediation.
- Develop control strategies for robotic manipulators that provide desirable accuracy 以及稳定性.