I build impactful products by blending analytical thinking, intuitive leadership, and creative execution—turning complex problems into imaginative, effective solutions through clear decisions, purposeful design, and unwavering commitment.
I work as a software engineer at NDTCTC, applying and exploring a diverse set of tools to build impactful, well-engineered solutions. Beyond technology, I am actively exploring business and sustainability, focusing on products that are both effective and responsible. I believe meaningful solutions are built with balance—between depth of work and clarity of life. What distinguishes my approach is purpose and full commitment: I deliberately connect the problem, the product, and the solution, and carry each forward with focus, precision, and care. I am actively working with and exploring a range of tools, including Figma, Swift, Android development, MATLAB, C++, and Python.
I built an intelligent personal planning system in C++ that prioritizes tasks by deadlines, duration, and importance to generate adaptive daily and weekly schedules. The system continuously re-optimizes as tasks change. I led the design of the core algorithms and architecture, focusing on clarity, efficiency, and adaptability, with a Python-based frontend for interaction.
Digital logic circuits can suffer static and dynamic hazards during input transitions, causing unintended output glitches. Manually detecting these issues is slow, error-prone, and impractical for complex logic. To address this, I developed a Python-based tool that analyzes Boolean expressions across input transitions, evaluates intermediate states, and automatically identifies potential static and dynamic hazards early in the design process.
I designed and built a two-player Tic-Tac-Toe game in Python, handling user input, move validation, turn-based gameplay, and accurate win/draw detection. I owned the complete game logic, structure, and testing to ensure a smooth, rule-correct experience.
I designed and built a two-player Tic-Tac-Toe game in Python, handling user input, move validation, turn-based gameplay, and accurate win/draw detection. I owned the complete game logic, structure, and testing to ensure a smooth, rule-correct experience.
I worked on an automatic engine-locking system that prevents vehicle ignition when alcohol levels exceed a set threshold. The solution integrates an alcohol sensor with a microcontroller for real-time detection and control, with my focus on system logic, sensor integration, and reliable response.
I designed and implemented a simple radar system that detects objects and calculates their distance using reflected electromagnetic waves. I integrated the transmitter, receiver, and processing logic to deliver accurate, reliable detection in a cost-effective setup.
Problem Solving, System Thinking, Product Strategy
MuleSoft, MATLAB, C++, Python, C, Arduino, Robotics, DSA
Technology, Sustainability
Designing and implementing AI functionalities, as well as developing and deploying dynamic websites..
MuleSoft Developer, designing and implementing API-led connectivity solutions.
Calm leadership. Purposeful creation. Meaningful impact.
Guided by steadiness, intuition, mindfulness, and sustainability— not as ideas, but as daily practice.
Every product must solve a real problem meaningfully.
calm analysis and firm decisions, even in uncertain systems.
From understanding the problem to delivering the solution.
Sustainable work creates sustainable impact.
Dependable execution, even when it goes unnoticed.
I value mindful problem-solving, clean design, and systems that are efficient yet human-centered. I’m drawn to aesthetics that simplify complexity, sustainability that respects long-term impact, and continuous learning that keeps my thinking sharp. These interests influence how I design, build, and refine products—quietly but consistently.