I am a third year student at Oregon State University pursuing a Bachelor of Science in Electrical and Computer Engineering as well as a minor in Computer Science. As such, I have taken classes that focus on Computer Networks, Computer Organization and Assembly Language, Data Structures, Digital Logic Design, Electronics, Signals and Systems, and Electric and Magnetic Fields. Throughout my time at OSU, I have learned how to efficiently utilize several programming languages, including C++, C, Python, SystemVerilog, and Assembly. I have also gained experience directly programming an ATmega128, Arduino Nano, and FPGAs. The projects that I engaged in familiarized me with Quartus Prime, ModelSim, and LTSpice. As such, I have a great deal of experience in both software and hardware implementation. My project and professional experience reaches back through high school, and spans several different fields of engineering. Over the summer of 2016, I worked on a team to complete several project, including a windmill, trebuchet, and underwater ROV for several competitions. In the summer of 2017, I also interned at Oregon State University where I was given the opportunity to work in the chemistry department researching application of color pigments such as MasBlue. Finally, over the summer of 2018, I interned at OBEC Consulting Engineers, where I learned to sort and understand bridge structure design files. Through college, I have worked on mainly electrical engineering and computer science focused projects. This includes designing and implementing a 3 channel audio amplifier; an FPGA system that supports communication between an NES controller, 7-seg display, RGB lights, and DC motor; and most recently, a smart coop system that monitors the environment and resource consumption of a chicken coop, and outputs this information on multiple interfaces. All of my project and professional experiences taught me professional integrity, including punctuality, commitment, teamwork, and competence of what is expected of me in the professional field. I expect to continue adding breath and depth to my experience and understanding of my major.
The purpose of this project is to provide a foraging puzzle that will measure the force produced by the red crossbill (Loxia curvirostra) while it forages for seed. The force produced will be then examined to determine differen...
This system is built for use within an urban chicken coop, monitoring environmental elements and resource consumption while displaying information to the user through multiple interfaces. This includes monitoring the temperatur...
This project was designed to facilitate communication between an NES controller, 7-segment display, RGB LED lights, and a DC motor. The inputs used in this project are not normally used in conjunction with the outputs chosen, b...