Software engineer focused on desktop application development, process automation, and local system solutions. Work is centered on performance, maintainability, and practical system design for Windows environments.

Current work includes the development of internal tools and productivity systems through Noctra Systems, with involvement in both software development and technical support contexts.

Experience spans application development, infrastructure support, and systems integration, with emphasis on building functional and maintainable software rather than isolated components.

• Desktop application development (Windows-based systems)
• Process automation and workflow optimization
• Modular software design and architecture
• Systems integration and internal tooling
• Technical support and infrastructure operations
• Local data handling and offline-first systems
• Full-stack development when required for supporting interfaces or services

Desktop & Backend

• Python (PySide, Tkinter)
• Node.js
• Windows-based automation and system integration

Web & APIs

• JavaScript / TypeScript
• React / Vue (supporting interfaces)
• RESTful APIs

Infrastructure & Tools

• Windows system scripting
• Git version control
• Automation tooling
• Local security and data handling concepts

Development of desktop tools and automation systems focused on productivity and operational workflows in Windows environments. Work includes system design, implementation, and maintenance of modular applications.

Formal education in software development, covering programming fundamentals, systems logic, and applied technical support.

• Technical support in Windows environments
• Internal tooling for automation and maintenance tasks
• Troubleshooting and systems diagnostics
• Integration of software solutions in operational environments

• Improving modularity and maintainability of desktop systems
• Automation of repetitive operational processes
• Stability and performance improvements in local applications
• Design of offline-first software systems
• Refactoring and modernization of existing codebases
• Reduction of system complexity in production tools

• Prefer simplicity over unnecessary complexity
• Systems should be predictable and maintainable
• Performance and reliability are primary constraints
• Automation should reduce operational overhead
• Software is evaluated by long-term usability, not initial implementation