Designed and prototyped an offline voice-controlled system for embedded hardware applications, focusing on responsiveness, reliability, and user configurability.

Contributed to the development of real-time audio processing features and hardware interaction logic, supporting dynamic voice-command execution.

Conducted comparative research on voice recognition strategies and embedded platforms to guide product direction and improve system performance.

Gained experience across embedded Linux environments, hardware-software integration, and early-stage product development workflows.

Collaborated directly with the project founder, delivering live demos and adapting the system based on real-world feedback.

Designed and implemented embedded systems, working with microcontrollers and circuit design

Assembled and tested custom PCB boards for hardware integration, ensuring proper component placement, soldering, and electrical connectivity

Collaborated with a team to improve vehicle performance through embedded technology

Designed and fabricated a multi-axis robotic arm using DS3218 and MG996R servos, emphasizing torque optimization, structural reliability, and precise servo integration.

Developed a complete SolidWorks assembly of the arm and optimized components for 3D printing in Bambu Studio, improving print efficiency, support use, and material strength.

Conducted SolidWorks motion and stress simulations to evaluate kinematics and load distribution, refining geometry for durability under operational torque.

Implemented an Arduino-based control system with joystick input (HW-131 boards), programming responsive multi-axis motion in embedded C/C++ with software-defined movement limits, angle constraints, and safety checks to prevent overextension.

Developed a multi-user platform where students, faculty, and admins can manage courses, schedule events, and
view calendars

Implemented user authentication and role-based access control for secure access to different functionalities.

Designed an interactive UI with JavaFX to enhance usability and efficiency

Integrated Excel as a data storage solution, handling course details, user information, and event scheduling

Utilized Git and GitHub for version control, enabling smooth collaboration and feature integration within the team

Designed an efficient food truck layout to optimize workspace functionality and customer flow

Utilized AutoCAD to create detailed floor plans, complying with space constraints and operational needs

Utilized HomeStyler to create a 3D visualization, ensuring a functional and ergonomic design.

Considered factors such as equipment placement, storage efficiency, and safety regulations