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Structural components designed in Solidworks to be 3D printed and assembled by hand.Developed a custom PCB in Autodesk EAGLE to assist in the wiring of the sensors, indicators, displays, and communication devices.Simulation settings can be modified on-system through use of 5 button control panel.Collected data to include 6 DOF accelerometer, GPS, solar panel voltage, system current draw, temperature, and pressure.System will allow for data logging through a microSD card output, as well as wireless communication of all collected data.Model will feature numerous solar panels to charge internal battery and display data through three separate 4-digit displays, LEDs, and an 0.96" LCD.Currently in the development stages of a simulated sensor and communication system of a model 1U CubeSat controlled by an Arduino microcontroller.The PCB manufacturing is not currently feasible due to the COVID-19 pandemic. Project is currently on delay due to PCB revisions that require revised manufacturing of the boards.Micro USB port included on back for alternate method of 5V supply and for easy reprogramming of the device.ģD Printed Parts Arduino Control System Custom PCB Data Analysis Data Logging Diagnostics GPS MATLAB Orbital Dynamics/Mechanics Programming Space Simulation Testing User Interface Wireless Communication.Structural components designed in Solidworks are 3D printed and assembled by hand.Designed a prototype PCB in Autodesk EAGLE to assist in the wiring of the button, power input, displays, and RFID communication device.System is designed around an Arduino Nano Every in order to accommodate the larger RAM and memory requirements of the included libraries and functions.Included SD card design allows for custom image placement onto display when specified by user or relevant card is scanned.Red button on the top provides a reset to home function in order to ensure a repeatable process when using multiple RFID cards.Device provides a proof of concept for future use of RFID cards in multiple applications, including note sending, security, tracking, and material management.Depending on the UID of the card, a message can be displayed on the 1.8" TFT LCD Display or through the 8x8 LED matrices located on the sides of the device.Currently working on a device that can be used to read and program RFID unique ID (UID) smart cards.The heat flux computations also extended out to the three different domains to discuss the effect of the notches in the geometry for regenerative cooling to make steady-state operation possible within rocket combustionģD Printed Parts Arduino Control System Custom PCB Data Logging Diagnostics Memory Usage Programming RFID Scanner Simulation Testing User Interface Wireless Communication.
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The heat flux across the domains was also computed in order to study the effects of mesh size and geometry on the heat flux values, including a convergence study to determine the convergence rate of the baseline.
#Arduino simulator deliverable verification#
The numerical solution was compared to an analytical solution of a two-element verification domain in order to ensure the solutions generated by the finite-element solver were correct.Simulated the solution to the heat transfer equation using a finite-element solver on the three domains (baseline, hot-notched, cold-notched) in order to display heat transfer in a regeneratively cooled nozzle.Computational Methods Convergence Study Course Work Finite-Element Solver Heat Transfer MATLAB Nozzles Numerical Methods Partial Differential Equations Real-Life Application Rockets Simulation