Helped deploy a cybersecurity system used to protect user accounts and sensitive data.

Set up secure login and access controls to ensure only authorized users can access the platform.

Connected multiple external services so data could move safely between applications.

Gained hands-on experience working with cloud systems and real production environments.

Researching how combining different types of data can improve stock market predictions compared to using prices alone.

Designing a machine learning model that brings together historical market data, technical indicators, and text-based sentiment.

Experimenting with data sources, model structures, and evaluation methods to understand what improves accuracy and reliability.

Actively refining the approach through testing, analysis, and iterative development.

Built and ran multiple Minecraft servers across multiple Linux computers through Kubernetes.

Set up the servers so they could start, stop, and scale easily without manual setup each time.

Enabled secure internet access without directly exposing the home network.

Gained hands-on experience with Linux systems, server management, and scalable infrastructure.

Created an interactive text-based game using Python.

Designed game logic, player choices, and story progression from scratch.

Used programming logic to handle user input, game states, and outcomes.

Strengthened problem-solving and programming skills through iterative testing and improvements.

Designed and analyzed a brushless motor, optimizing stator geometry, pole count, and air gap spacing to improve magnetic flux utilization.

Applied electromagnetic theory (Lorentz force, back-EMF, flux linkage) to evaluate torque production, efficiency, and loss mechanisms.

Modeled and fabricated multiple prototypes using 3D-printed components and permanent magnets to validate theoretical predictions.

Tested and compared performance against single-rotor designs, yielding higher efficiency, smoother acceleration, and reduced thermal losses.

Designed a compact high-voltage electric generator based on Faraday’s Law of electromagnetic induction.

Optimized coil geometry, winding count, and core materials to maximize voltage output and energy transfer efficiency.

Analyzed insulation constraints, electrical breakdown limits, and system stability during high-voltage testing.

Iteratively tested and refined the system using measured data to improve reliability and output consistency.

Designed and built a high-pressure pneumatic projectile launcher using a pressurized air tank, solenoid valve, and precision barrel assembly.

Integrated a Schrader valve, adjustable pressure regulator, and gauge to control system pressure and firing conditions.

Implemented an electrically actuated solenoid valve for push-button firing, converting stored pneumatic energy into projectile acceleration.

Applied principles of pneumatics, kinematics, and fluid dynamics to analyze projectile motion and system performance.

Designed and built a centrifugal pump that transfers rotational energy from a motor-driven impeller to move water efficiently.

Investigated the role of impeller geometry and vane design on flow rate and energy transfer.

Demonstrated effective movement of large water volumes over short time intervals through experimental testing.

Designed and built a remote-controlled car with custom suspension and steering for better handling.

Used servo-controlled steering to improve turning accuracy and responsiveness.

Implemented a direct-drive system to reduce mechanical complexity and improve efficiency.

Focused on stability, control, and overall driving performance.

Designed a compact flower holder that evenly distributes water between multiple compartments.

Created a two-part design that securely interlocks to prevent leaks.

Used CAD software to ensure the design was simple, functional, and easy to assemble.

Focused on efficiency, reliability, and clean design.

Designed a multi-step mechanical system to complete a simple task in a creative way.

Used basic mechanical elements like levers and ramps to trigger a chain reaction.

Focused on timing, sequencing, and reliability between each step.

Demonstrated problem-solving and iterative testing to ensure consistent operation.

Designed a complete set of chess pieces using Onshape.

Focused on proportions, symmetry, and fine details to create a cohesive set.

Practiced precision modeling and attention to detail throughout the design process.