projects

My portfolio includes a diverse range of projects that reflect my passion for both Mechanical Engineering and Computer Science. From designing innovative mechanical systems to developing software applications, these projects demonstrate my problem-solving abilities and my dedication to pushing the boundaries of technology. Each project is a testament to my commitment to lifelong learning and my enthusiasm for creating solutions that make a difference.

18th International Conference on Vibration Engineering & Technology of Machinery (VETOMAC 2023) (with Prof. S.P. Harsha, Prof. Avinash Parashar, Prof. Anil Kumar, MIED, IIT Roorkee)

Development and maintenance of website (See Here), collaborating with the organizing committee, ensuring it's up to date. Managed website content & registration systems, enhancing user experience & facilitating effective communication between attendees, speakers, & organizers through website's interactive features.

Overall Product Optimization For Bhuamrit FPO (with Prof. Akshay Dwivedi, MIED, IIT Roorkee)

Optimizing production line by implementing various principles of Process Control and Quality Management. Identified the key process parameters and conducted a comprehensive analysis to pinpoint gaps in quality control. Aimed to provide solution that helps improve their yield by 2-3%, protects their product quality, and is cost-effective

Vegetation Management (with Prof. Kamal Jain, CoEDMM, IIT Roorkee)

UAV data of districts in Uttarakhand were utilized, leveraging its image processing, analysis & vegetation tasks. Built custom web application using WebODM where users can efficiently process aerial or satellite imagery. Generated detailed maps, identified areas of concern, and made decisions for effective vegetation management.

Development of Deep Learning-based Energy Minimization Approach for finite deformations in hyperelastic materials (with Prof. Manish Joglekar, MIED, IIT Roorkee)

Utilizing deep neural networks to approximate the energy function of the hyperelastic material, the DEM offered a more efficient and accurate solution than traditional finite element methods. Verified through various numerical experiments, including one-dimensional and two-dimensional beam problems. Results showed the capability of accurately solving problems, including large deformations and material nonlinearity.

One-Dimensional Compressible Flow Analysis Isentropic & Normal Shock (with Prof. Ankit Bansal, MIED, IIT Roorkee)

Built C++ program to compute and analyze one-dimensional isentropic compressible flow through variable crosssectional areas with or without a normal shock. It allows users to input initial conditions (inlet pressure and temperature) and an outlet pressure, and then calculates essential properties of the fluid flow in a one-dimensional duct. The program provides insights into two fundamental aspects of compressible flow: isentropic expansion or compression and the presence of a normal shock.