ISPC-PI-II-2024/Proyecto_hidroponico
Apr 2025 – Apr 2025
1 Month active
Languages Used
C++CSSHTMLMarkdown
Technical Skills
DocumentationESP32Embedded SystemsIoTMicrocontrollersWeb Development
Nicolás Barrionuevo
PROFILE
Nicolás Barrionuevo
Nicolás Barrionuevo developed an ESP32-based water pump control web interface for the ISPC-PI-II-2024/Proyecto_hidroponico repository, enabling remote irrigation management for a hydroponics project. He implemented a modular, multi-file architecture in C++ and HTML, integrating WiFi setup, on/off pump controls, and LED status indicators through an embedded web server. To enhance reliability, he added a unit test for pump control and improved documentation with setup diagrams and contributor recognition. His work addressed automation and operational efficiency, providing a scalable IoT foundation while supporting onboarding and maintenance through clear README-driven documentation and robust embedded systems development practices.
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
2Total
Bugs
0
Commits
2
Features
1
Lines of code
428
Activity Months1
Your Network
12 people
Work History
April 2025
2 Commits • 1 Features
Apr 1, 2025April 2025: Delivered ESP32-based Water Pump Control Web Interface for the hydroponics project, enabling WiFi setup and remote pump control via a web server with on/off controls and LED status indicators. Established a modular multi-file architecture and provided setup diagrams in the README; updated contributor information to recognize Nicolás Barrionuevo. Added a unit test for pump control to improve reliability and maintainability. README and documentation improvements supported smoother onboarding for new contributors and easier maintenance. Impact: Enables remote irrigation management, improves automation and operational efficiency, and provides a scalable IoT foundation for future features. This work demonstrates strong embedded systems development, web-enabled control, and robust documentation practices. Technologies/skills demonstrated: ESP32/IoT development, embedded web server, WiFi networking, modular software architecture, unit testing, and clear README-driven documentation.
2 Commits • 1 Features
Apr 1, 2025April 2025: Delivered ESP32-based Water Pump Control Web Interface for the hydroponics project, enabling WiFi setup and remote pump control via a web server with on/off controls and LED status indicators. Established a modular multi-file architecture and provided setup diagrams in the README; updated contributor information to recognize Nicolás Barrionuevo. Added a unit test for pump control to improve reliability and maintainability. README and documentation improvements supported smoother onboarding for new contributors and easier maintenance. Impact: Enables remote irrigation management, improves automation and operational efficiency, and provides a scalable IoT foundation for future features. This work demonstrates strong embedded systems development, web-enabled control, and robust documentation practices. Technologies/skills demonstrated: ESP32/IoT development, embedded web server, WiFi networking, modular software architecture, unit testing, and clear README-driven documentation.
April 2025
Activity
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Quality Metrics
Correctness95.0%
Maintainability90.0%
Architecture90.0%
Performance90.0%
AI Usage20.0%
Skills & Technologies
Programming Languages
C++CSSHTMLMarkdown
Technical Skills
DocumentationESP32Embedded SystemsIoTMicrocontrollersWeb Development
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