soomrack/MR2025
Sep 2025 – Jan 2026
3 Months active
Languages Used
C++
Technical Skills
C++ ProgrammingFinancial ModelingSimulationC++Data StructuresSoftware Development
MaksimBorisov05
PROFILE
Maksimborisov05
Max Borisov developed a suite of automation and financial modeling tools in the soomrack/MR2025 repository, focusing on C++ and embedded systems. He engineered a 20-year personal finance simulator that models income, expenses, and ownership scenarios, using custom data structures and integer-based currency calculations for precision. Max also delivered a PID-based line-following robot control system and a greenhouse automation platform, both leveraging sensor-driven logic for autonomous operation. His modular approach, clear commit history, and disciplined use of C++ and IoT development practices resulted in maintainable, scalable solutions that address real-world decision support and automation challenges without introducing bugs.
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
7Total
Bugs
0
Commits
7
Features
4
Lines of code
1,356
Activity Months3
Your Network
50 peopleWork History
January 2026
3 Commits • 2 Features
Jan 1, 2026January 2026 – soomrack/MR2025: Delivered two high-impact features that drive automation and operational efficiency. The PID-based line-following robot control system provides autonomous navigation with line loss handling and re-acquisition, while the greenhouse automation system manages climate and irrigation based on sensor data to optimize plant growth and resource use. These efforts reduce manual intervention, improve reliability, and enable scalable experimentation. Skills demonstrated include PID control, sensor-driven automation, embedded/system design, and disciplined version control with clear task-based commits (task2, omegabot, greenhouse).
3 Commits • 2 Features
Jan 1, 2026January 2026 – soomrack/MR2025: Delivered two high-impact features that drive automation and operational efficiency. The PID-based line-following robot control system provides autonomous navigation with line loss handling and re-acquisition, while the greenhouse automation system manages climate and irrigation based on sensor data to optimize plant growth and resource use. These efforts reduce manual intervention, improve reliability, and enable scalable experimentation. Skills demonstrated include PID control, sensor-driven automation, embedded/system design, and disciplined version control with clear task-based commits (task2, omegabot, greenhouse).
January 2026
October 2025
3 Commits • 1 Features
Oct 1, 2025October 2025 monthly summary for MR2025: Delivered a major refactor and enhancement of the financial simulation in the MR2025 repository, focusing on precision, clarity, and maintainability. The work introduces integer-based currency calculations, new data structures (Home and Work), per-person income/expense transfers, and monthly financial modeling including rent, mortgage, interest, inflation, and salary increases. Actions were reorganized into distinct functions, logging was improved, and output formatting was clarified by renaming print_results for better usability.
October 2025
3 Commits • 1 Features
Oct 1, 2025October 2025 monthly summary for MR2025: Delivered a major refactor and enhancement of the financial simulation in the MR2025 repository, focusing on precision, clarity, and maintainability. The work introduces integer-based currency calculations, new data structures (Home and Work), per-person income/expense transfers, and monthly financial modeling including rent, mortgage, interest, inflation, and salary increases. Actions were reorganized into distinct functions, logging was improved, and output formatting was clarified by renaming print_results for better usability.
September 2025
1 Commits • 1 Features
Sep 1, 2025Monthly summary for 2025-09: Delivered a Personal Finance Scenario Simulator in C++ that models a 20-year financial horizon for two individuals (Alice and Bob), including income, expenses, rent, mortgage payments, bank interest, and inflation to compare ownership vs renting. Implemented main.cpp in the soomrack/MR2025 repository, establishing a foundation for scenario analysis, sensitivity testing, and long-term decision support.
1 Commits • 1 Features
Sep 1, 2025Monthly summary for 2025-09: Delivered a Personal Finance Scenario Simulator in C++ that models a 20-year financial horizon for two individuals (Alice and Bob), including income, expenses, rent, mortgage payments, bank interest, and inflation to compare ownership vs renting. Implemented main.cpp in the soomrack/MR2025 repository, establishing a foundation for scenario analysis, sensitivity testing, and long-term decision support.
September 2025
Activity
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Quality Metrics
Correctness81.4%
Maintainability80.0%
Architecture81.4%
Performance77.2%
AI Usage20.0%
Skills & Technologies
Programming Languages
C++
Technical Skills
C++C++ ProgrammingC++ programmingData StructuresFinancial ModelingIoT developmentPID controlSimulationSoftware Developmentembedded systemsrobotics
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