College

I am an Aerospace Engineer - Astronautics from the Embry-Riddle Aeronautical University-Prescott Campus with a minor in Systems Engineering. This page will discus the projects and the clubs that I was a part of during my college career.

(BAT)³ Capstone Project

Our team achieves to create a de-orbiting mechanism that will be attached to CubeSats. This will allow CubeSats to de-orbit faster than originally scheduled after their end-of-life mission. If you would like to learn more about this project click here to learn more.

Journey to VEX Worlds Championships 2022Embry-Riddle Aeronautical University Student Blogs / Journals

VEX Worlds Championships

After going to Worlds Championships with ERAU Gold Team, I wrote an article about my experience there. To read more click here.

VEX Robotics Team Gold

During my entire 4 and half years at Embry-Riddle, I have been a part of the Embry-Riddle VEX Robotics Gold Team. During my sophomore year at ERAU, I was Build Team lead, and during my Junior and Senior year I was team lead. To read and see more of what was accomplished during these 4 and half years click here.

Spacecraft Attitude Dynamics and Controls-Extra Credit

This is an extra credit project to make a CAD design for a Spaceship that will be inputted into a Simulink file to be simulated to fly around Earth. This CAD model is supposed to represent an Artificial Gravity Spaceship that was created in Autodesk Inventor.

artificalgravityspaceship.pdf

EP 394 HW 4.docx

Here you will find different calculations of orbits that the satellite holding the rover could take. With this the team found the best path and trajectory to taking using Hohmann Transfers, Pork-Chop Plots, orbital transfers, etc.

Space Systems Engineering Project

A 10 person team developed a project to create a rover that will land on Titan and collect samples of the regolith and ocean samples. Working on trade studies, Con-Ops, Functional Flow Block Diagrams, Pork-Chop Plots and more.

Below you will find the Con-Ops that I created for this project that shows the rover being deployed from the rover from the satellite to collecting samples of the regolith and ocean.

Here you will find the Functional Flow Block Diagram that two other team members and I created to fit our mission.

Below you will find the trajectory and timeline that the mission will take.

Space Mechanics

Creating Pork Chop plots to go from Earth to Mars. To help us determine the best time to launch from Earth to arrive to Mars in the fastest time possible while also saving money on fuel and payload.

homework12_spacemech.pdf

Systems Engineering Project

This was 5 member group project where team members came up with a group project that will have Trade Studies, House of Quality, N2 Diagrams, CONOPs, Functional Flow Block Diagrams, etc. by the end of the semester. Worked as the Documenting lead, my job consisted of editing the documents and making sure that the writing was consistent, cohesive, and that it meets the criteria. Below you will find some of the work I did for this project.

Above you see a use case for the first iteration of the project.

Above you will see a house of quality that I made for the project

Assignment 1.5

This was apart of a project management assignment to make a presentation to show how to manage a project of a made up project. How program management is related to a project. The systems engineering approach to a project. In a made up project.

Above you will see the system architecture of the project.

Above you will see the design and manufacturing risk matrix for the project.

Junkyard Project

A reverse engineering project where students choose from a pile of junkyard parts and re-create the part using CATIA. There were different levels of difficulty with the every part, in the end I worked on one of the most difficult pieces taking 43 hours to create. Below you will see the final outcome of the project as well as the final report that was made to accompany the CATIA model.

Mars Rover Project

With a team of three people we will make a mars rover that will be able to survive the surface of mars. The team created a PDR, CDR, and Final Report for the rover that was created in CATIA. This rover will navigate and collect samples around Mars.

CDR.pptx

Africa Greenhouse ProjectIn various parts of Africa, many communities are facing a food shortage as well as a poverty crisis. Both of these problems have their own set of factors which contribute to their roots in many communities; however, they are both deeply interconnected. With the help of EPI-USE and Elephants, Rhinos, and People (ERP), we plan on implementing two sustainable greenhouses at two different locations: the Madikwe Game Reserve and the Vaalwater Community. The Madikwe Game Reserve greenhouse aims to empower the local people by creating jobs that would help establish an income source for the local communities in the area. On the Vaalwater community, the greenhouse will serve to generate a large yield of crops that are high in carbs and protein for the Vaalwater community. With these two greenhouses, we hope to generate income for the local communities near the Madikwe Game Reserve, as well as produce a stable source of food for the Vaalwater community. On campus, we plan on implementing a prototype greenhouse in order to test different crop growing methods. Some of these methods include aquaponics as well as traditional soil growth. These results will be incorporated into our design for South Africa. POSTER PRESENTATION AIR FORCE ROTC UNDERGRADUATE RESEARCH AND LEADERSHIP PRESENTATION

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