OpenHUTB/nn
Sep 2025 – Dec 2025
2 Months active
Languages Used
Python
Technical Skills
PythonPython programmingalgorithm designautonomous vehicle developmentbackend developmentbattery management
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PROFILE
Yuboyyy
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
7Total
Bugs
0
Commits
7
Features
6
Lines of code
839
Activity Months2
Your Network
159 people
Work History
December 2025
5 Commits • 5 Features
Dec 1, 2025Month: 2025-12 — OpenHUTB/nn delivered a focused set of safety-critical features for unmanned vehicles, with emphasis on real-time visibility, proactive alerts, and operator-focused simulation. Key work includes five features that improve safety, reliability, and operational readiness, each backed by traceable commits: - Battery Management System for Unmanned Vehicles: real-time voltage and percentage display with low-battery alerts. - Speed Warning System for Autonomous Vehicles: speed-limit detection with severity levels and serial alerts to external hardware. - Autonomous Vehicle Obstacle Avoidance: collision risk evaluation and control commands based on detected obstacles. - Overload Warning System for Unmanned Vehicles: load/weight threshold monitoring with safety alerts. - Keyboard Control for Autonomous Vehicle Simulation: keyboard-driven direction and movement with drawing, updates, and on-screen information. This work did not introduce standalone bug-fix tickets in the data provided; however, the feature commits include reliability and safety improvements across the stack. Impact: enhances safety, reduces operational risk, and enables safer integration with external hardware, while accelerating developer feedback cycles through interactive simulation and real-time monitoring. Technologies/skills demonstrated: embedded/real-time monitoring, serial communications with external hardware, safety-focused control algorithms, keyboard-driven user input handling, and UI/UX for on-screen vehicle status.
5 Commits • 5 Features
Dec 1, 2025Month: 2025-12 — OpenHUTB/nn delivered a focused set of safety-critical features for unmanned vehicles, with emphasis on real-time visibility, proactive alerts, and operator-focused simulation. Key work includes five features that improve safety, reliability, and operational readiness, each backed by traceable commits: - Battery Management System for Unmanned Vehicles: real-time voltage and percentage display with low-battery alerts. - Speed Warning System for Autonomous Vehicles: speed-limit detection with severity levels and serial alerts to external hardware. - Autonomous Vehicle Obstacle Avoidance: collision risk evaluation and control commands based on detected obstacles. - Overload Warning System for Unmanned Vehicles: load/weight threshold monitoring with safety alerts. - Keyboard Control for Autonomous Vehicle Simulation: keyboard-driven direction and movement with drawing, updates, and on-screen information. This work did not introduce standalone bug-fix tickets in the data provided; however, the feature commits include reliability and safety improvements across the stack. Impact: enhances safety, reduces operational risk, and enables safer integration with external hardware, while accelerating developer feedback cycles through interactive simulation and real-time monitoring. Technologies/skills demonstrated: embedded/real-time monitoring, serial communications with external hardware, safety-focused control algorithms, keyboard-driven user input handling, and UI/UX for on-screen vehicle status.
December 2025
September 2025
2 Commits • 1 Features
Sep 1, 2025September 2025: OpenHUTB/nn laid the groundwork for the Smart Car initiative by establishing repository setup, README, and planning materials for autonomous vehicle topics. No major bugs fixed this period; core focus was scaffolding and planning to enable rapid feature delivery.
September 2025
2 Commits • 1 Features
Sep 1, 2025September 2025: OpenHUTB/nn laid the groundwork for the Smart Car initiative by establishing repository setup, README, and planning materials for autonomous vehicle topics. No major bugs fixed this period; core focus was scaffolding and planning to enable rapid feature delivery.
Activity
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Quality Metrics
Correctness85.8%
Maintainability74.2%
Architecture77.2%
Performance74.2%
AI Usage22.8%
Skills & Technologies
Programming Languages
Python
Technical Skills
PythonPython programmingalgorithm designautonomous vehicle developmentbackend developmentbattery managementembedded systemsgame developmentobject-oriented programmingpygamereal-time systemssensor integrationsimulation programmingsimulation testingsystem design
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