soomrack/MR2025
Sep 2025 – Jan 2026
5 Months active
Languages Used
C++Unknown
Technical Skills
Financial ModelingObject-Oriented ProgrammingSimulationSoftware DevelopmentC++Software Design
kiery21
PROFILE
Kiery21
Over five months, Kolek developed simulation and robotics features for the soomrack/MR2025 repository, focusing on C++ and Arduino programming. He built a modular financial life simulation, modeling individual cash flows, salary, expenses, and event-driven scenarios, with extensible data models and validation for simulation correctness. Kolek refactored the simulation core for maintainability and realistic economic behavior, integrating inflation and deposit interest logic. Shifting to embedded systems, he delivered an Arduino-based OmegaBot platform with movement primitives, sensor-driven navigation, and a greenhouse control system for environmental monitoring and actuator management. His work demonstrated depth in simulation, robotics, and IoT development.
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
12Total
Bugs
0
Commits
12
Features
7
Lines of code
980
Activity Months5
Your Network
50 peopleWork History
January 2026
2 Commits • 2 Features
Jan 1, 2026January 2026 performance summary for soomrack/MR2025 focused on delivering autonomous greenhouse control and monitoring capabilities to improve environmental conditions, reduce manual intervention, and enable data-driven decision making.
2 Commits • 2 Features
Jan 1, 2026January 2026 performance summary for soomrack/MR2025 focused on delivering autonomous greenhouse control and monitoring capabilities to improve environmental conditions, reduce manual intervention, and enable data-driven decision making.
January 2026
December 2025
4 Commits • 2 Features
Dec 1, 2025December 2025 – MR2025: Delivered a foundational OmegaBot platform and early autonomous navigation capabilities. Key outcomes include a modular core module with movement controls and a dedicated hardware abstraction header, plus a line-following/navigation Arduino sketch for sensor-driven behavior. The work establishes a repeatable testing path and a solid base for higher-level autonomy and integration with future decision logic. The changes lay groundwork for faster prototyping and more reliable hardware-software collaboration.
December 2025
4 Commits • 2 Features
Dec 1, 2025December 2025 – MR2025: Delivered a foundational OmegaBot platform and early autonomous navigation capabilities. Key outcomes include a modular core module with movement controls and a dedicated hardware abstraction header, plus a line-following/navigation Arduino sketch for sensor-driven behavior. The work establishes a repeatable testing path and a solid base for higher-level autonomy and integration with future decision logic. The changes lay groundwork for faster prototyping and more reliable hardware-software collaboration.
November 2025
1 Commits • 1 Features
Nov 1, 2025Month: 2025-11 — Delivered a Financial Simulation Model for Characters in soomrack/MR2025, introducing salary management, expense tracking, inflation adjustments, and deposit interest calculations to stabilize character economics. Integrated into the core lifecycle with a focused update to life.cpp (commit 10d7be6000167706413b375bec75bc4fc1f86723). No major bugs logged this month; foundation set for future enhancements and QA.
1 Commits • 1 Features
Nov 1, 2025Month: 2025-11 — Delivered a Financial Simulation Model for Characters in soomrack/MR2025, introducing salary management, expense tracking, inflation adjustments, and deposit interest calculations to stabilize character economics. Integrated into the core lifecycle with a focused update to life.cpp (commit 10d7be6000167706413b375bec75bc4fc1f86723). No major bugs logged this month; foundation set for future enhancements and QA.
November 2025
October 2025
2 Commits • 1 Features
Oct 1, 2025Month 2025-10: Delivered a targeted refactor of the Financial Simulation Core in MR2025, introducing explicit income and expense methods for Alice and Bob, enhancing the monthly processing loop, and reordering the operation sequence to align with cash-flow rules. Implemented validation to prevent invalid date arguments, reducing the risk of incorrect simulation runs. Focus on reliability and maintainability with clear domain modeling and testability.
October 2025
2 Commits • 1 Features
Oct 1, 2025Month 2025-10: Delivered a targeted refactor of the Financial Simulation Core in MR2025, introducing explicit income and expense methods for Alice and Bob, enhancing the monthly processing loop, and reordering the operation sequence to align with cash-flow rules. Implemented validation to prevent invalid date arguments, reducing the risk of incorrect simulation runs. Focus on reliability and maintainability with clear domain modeling and testability.
September 2025
3 Commits • 1 Features
Sep 1, 2025September 2025: Delivered foundational life-simulation feature for MR2025 (soomrack/MR2025). Implemented life.cpp to model two individuals' financial trajectories over time, including salaries, expenses, and capital, with events such as selling a picture and paying a fine. Mortgage calculations are documented in main() with a comment detailing the monthly payment used for Alice's initialization. This work establishes a reusable framework for personal-finance scenario analysis and policy testing. Development emphasized data modeling, a simple simulation loop, and in-code documentation. Commit history: 84b3aa8de96ee373097a82a99b7c15500e43e482, 4334d52c07d031166ef0665ec0a541690db2cbbe, 11478d3cb7c251b3d702a30a646ad20295122e11.
3 Commits • 1 Features
Sep 1, 2025September 2025: Delivered foundational life-simulation feature for MR2025 (soomrack/MR2025). Implemented life.cpp to model two individuals' financial trajectories over time, including salaries, expenses, and capital, with events such as selling a picture and paying a fine. Mortgage calculations are documented in main() with a comment detailing the monthly payment used for Alice's initialization. This work establishes a reusable framework for personal-finance scenario analysis and policy testing. Development emphasized data modeling, a simple simulation loop, and in-code documentation. Commit history: 84b3aa8de96ee373097a82a99b7c15500e43e482, 4334d52c07d031166ef0665ec0a541690db2cbbe, 11478d3cb7c251b3d702a30a646ad20295122e11.
September 2025
Activity
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Quality Metrics
Correctness80.0%
Maintainability78.4%
Architecture78.4%
Performance76.6%
AI Usage20.0%
Skills & Technologies
Programming Languages
C++Unknown
Technical Skills
Arduino programmingC++C++ programmingFinancial ModelingIoT developmentObject-Oriented ProgrammingSimulationSoftware DesignSoftware DevelopmentUnknownembedded systemsfinancial modelingobject-oriented programmingroboticsrobotics control
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