Here are some of the projects I've worked on recently. Feel free to explore:
THis portfolio was created to show case my projects in a varifiable and easy way, you can find my projects below along with their respictive files and docs⚡
Under Professor Bijan K. Mondal (IIESTs)
Dived into the future of green transportation by modeling financial viability for Hydrogen Fuel Cell Vehicles (FCVs) and Electric Vehicles (EVs). Our in-depth research and simulations provided valuable insights into the long-term feasibility and technological advancements in these sustainable options.
Under Professor Shamal Kumar Chaterjee (IIESTs)
Engineered precision with our kinematic analysis and simulation of an industrial robotic arm. From coding DH parameters to creating detailed animations, we brought this project to life in Fusion 360 and CoppeliaSim, showcasing advanced robotics at its best.
Self-Motivated
Revolutionized aerial robotics with our autonomous quad rotor drone. Utilizing Fusion 360, CoppeliaSim, and Raspberry Pi, we designed cutting-edge algorithms for seamless trajectory planning and depth detection, pushing the boundaries of UAV technology.
Self-Motivated
Created a high-performance turbofan engine using Creo Pramatic for design efficiency and Ansys Fluent for comprehensive CFD analysis. Our Python scripts automated the process, ensuring precise and thorough results.
Self-Motivated
Engineered a robust wind turbine blade using Solidworks and aerofoil data, followed by a detailed thermo-mechanical analysis in Ansys Workbench. This project highlights the intersection of renewable energy and advanced engineering techniques.
Self-Motivated
Innovated in robotics with our gripper robot project, modeled in Fusion 360 and simulated in CoppeliaSim. Utilizing ROS 2 for automation, we achieved precise trajectory planning and seamless operation.
Self-Motivated
Designing a sophisticated humanoid robotic arm in Fusion 360, equipped with gear-based motion control. The project included Python-driven control scripts and advanced finite element analysis in Ansys Workbench, demonstrating excellence in robotic engineering.
Throughout my academic journey, I have engaged in several research projects that demonstrate my ability to apply theoretical knowledge to practical problems and contribute to engineering advancements. Here is a summary of my key research experiences:
Institution: Indian Institute of Engineering Science and Technology, Shibpur
Advisor: Prof. Amit Roy Chaudhary
Developed advanced auxetic materials for dental implants using carbon nanotubes and PEEK. Created software for generating lattice structures from various unit cells and analyzed data to compile the final report.
Institution: National Science Laboratory
Designed and optimized quantum algorithms to solve the Navier-Stokes equations within finite time constraints. Configured new boundary conditions for improved estimation and monitored network security measures.
Institution: Indian Summer School of Cellular Automata
Developed advanced cellular automaton rules to simulate methane emissions in underground mines. Tested models with real data from various coal mines in Bengal, enhancing the accuracy of emission forecasts.
Hello there!I’m Supriyo Pal, a Mechanical Engineering student at the Indian Institute of Engineering Science and Technology, Shibpur, with a knack for Automobile Engineering, Robotics, Automation, and Machine Learning. Armed with MATLAB, Python, Solidworks, Fusion 360, and Ansys, I like to think of myself as a one-man engineering toolkit. My academic journey has been a wild ride of gears, algorithms, and a healthy dose of late-night coding sessions.
My research experience has taken me on some fascinating adventures. I've delved into the world of advanced auxetic materials for dental implants, designed quantum algorithms to solve the notoriously tricky Navier-Stokes equations, and forecasted methane emissions in underground mines using cellular automata (because who doesn't love a good environmental challenge?). I've also analyzed the lifecycle of hydrogen fuel cell vehicles (FCV) and electric vehicles (EV) and tackled the kinematic analysis of industrial robotic manipulators. These projects have not only honed my problem-solving skills but also fueled my passion for turning theoretical concepts into practical solutions.
When I’m not buried in research papers or tweaking CAD models, you’ll find me actively participating in organizations like CodeIIEST and GDSC IIEST. I believe in balancing technical rigor with a touch of professional humor—after all, engineering is serious business, but that doesn't mean we can’t have a little fun along the way. My diverse experiences have shaped me into a well-rounded individual, ready to tackle the challenges of the engineering world with both expertise and a smile.
MATLAB, Python, Solidworks, Fusion 360, Ansys, quantum algorithm design, data analysis, lattice structure development, computational fluid dynamics, environmental engineering, automotive engineering, robotics,