jannodegroot/buurmalse_HU
Jan 2025 – Jan 2025
1 Month active
Languages Used
Structured TextStructured Text (ST)TwinCATTwinCAT PLCXML
Technical Skills
AutomationControl SystemsEmbedded SystemsPLC ProgrammingTwinCATTwinCAT Configuration
cansi
PROFILE
Cansi
During January 2025, Cansi developed the FB_Regelingen Automated Water Regulation System in the jannodegroot/buurmalse_HU repository, focusing on automating flow rate and polder level management with integrated pump control and mode-based operation. The solution was architected using modular function blocks in Structured Text and TwinCAT PLC, with a clear project structure and updated configuration to support 64-bit TwinCAT environments. Cansi’s approach emphasized maintainability and scalability, iteratively refining the codebase through targeted commits and test-driven improvements. The resulting system reduces manual oversight in polder regulation, delivering a stable, automated foundation for future enhancements in embedded and control systems.
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
16Total
Bugs
0
Commits
16
Features
1
Lines of code
1,054
Activity Months1
Your Network
11 people
Work History
January 2025
16 Commits • 1 Features
Jan 1, 2025January 2025 (2025-01) — jannodegroot/buurmalse_HU Key accomplishments: - Implemented FB_Regelingen Automated Water Regulation System, delivering automated Debiet (flow) and Polderpeil (polder level) management, pump control, and mode-based operation. - Architected modular function blocks with new properties and folders; updated project configuration to support 64-bit targets and TwinCAT environments, enabling future hardware scalability. - Iterative commits focused on regleringen, debiet, polderpeil, tests, and properties, resulting in a stable baseline and maintainable codebase. Impact: - Delivers measurable business value through automation, reducing manual oversight and improving reliability of polder regulation. - Establishes groundwork for scalable deployments in 64-bit TwinCAT environments and easier long-term maintenance due to modular design and clearer project organization. Technologies/skills demonstrated: - TwinCAT 64-bit target readiness, modular function block design, mode-based control, flow (Debiet) and level (Polderpeil) management, pump control, configuration management, and test-driven improvements.
16 Commits • 1 Features
Jan 1, 2025January 2025 (2025-01) — jannodegroot/buurmalse_HU Key accomplishments: - Implemented FB_Regelingen Automated Water Regulation System, delivering automated Debiet (flow) and Polderpeil (polder level) management, pump control, and mode-based operation. - Architected modular function blocks with new properties and folders; updated project configuration to support 64-bit targets and TwinCAT environments, enabling future hardware scalability. - Iterative commits focused on regleringen, debiet, polderpeil, tests, and properties, resulting in a stable baseline and maintainable codebase. Impact: - Delivers measurable business value through automation, reducing manual oversight and improving reliability of polder regulation. - Establishes groundwork for scalable deployments in 64-bit TwinCAT environments and easier long-term maintenance due to modular design and clearer project organization. Technologies/skills demonstrated: - TwinCAT 64-bit target readiness, modular function block design, mode-based control, flow (Debiet) and level (Polderpeil) management, pump control, configuration management, and test-driven improvements.
January 2025
Activity
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Quality Metrics
Correctness75.0%
Maintainability76.2%
Architecture73.8%
Performance66.2%
AI Usage20.0%
Skills & Technologies
Programming Languages
Structured TextStructured Text (ST)TwinCATTwinCAT PLCXML
Technical Skills
AutomationControl SystemsEmbedded SystemsPLC ProgrammingTwinCATTwinCAT Configuration
Repositories Contributed To
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