BHASKAR KC

• Conducted research on the Finite Element Analysis (FEA) of lattices, focusing on honeycomb lattice structures.
• Designed and performed experiments involving 3D-printed honeycomb lattices, evaluating their mechanical properties and behavior.
• Utilized software tools such as Abaqus, Ntop, Python, and Ansys to simulate and analyze lattice structures, investigating their structural integrity and performance under different conditions.
• Collected and analyzed experimental data, applying statistical methods to determine material characteristics and assess lattice performance.

• Collaborated closely with a multidisciplinary team of researchers, engineers, and scientists to develop innovative solutions and contribute to ongoing research projects.
• Participated in the design and optimization of honeycomb lattice structures for specific applications, considering factors such as weight reduction, strength, and energy absorption.
• Assisted in the development and improvement of experimental setups and testing protocols, ensuring the accuracy and reliability of results.
• Generated technical reports and documentation, presenting research findings, methodologies, and recommendations for further investigations.

· Conducted research on improving the aerodynamic performance of a transitional flow scale propulsive rotor with a bio-inspired microfiber coating.

· Implemented experimental setups and conducted tests on helicopter rotor blades, ensuring proper installation and functionality.

· Utilized Labview and Arduino programming to control the experimental setup, enabling precise control of rotor parameters and data acquisition.

· Developed and implemented Python scripts to automate data collection and analysis processes, improving efficiency and accuracy.

· Installed and calibrated load cells to measure and record forces and pressures exerted on the rotor blades during testing.

· Conducted data analysis using statistical methods and Python, deriving meaningful insights and identifying trends or patterns.

· Contributed to the publication of research findings by preparing and reviewing scientific manuscripts for submission to journals and conferences.

· Developed and implemented machine learning and deep learning algorithms for fall detection and prediction using reinforced learning techniques

· Preprocessed and analyzed data using Python libraries such as TensorFlow, Keras, pyTorch, and Monte Carlo Tree Search

· Extracted meaningful features from data using machine learning frameworks

· Conducted rigorous testing and evaluation of algorithms using performance metrics and statistical analysis

· Assessed the effectiveness and robustness of developed algorithms

· Managed and delivered projects within budget and timeline, achieving desired results.

· Led cross-functional teams, effectively coordinating resources and ensuring clear communication.

· Developed and implemented project plans, defining objectives, scope, deliverables, and milestones.

· Identified and mitigated risks, resolving issues and conflicts to maintain project progress.

· Monitored and reported project progress, providing regular updates to contractors and senior management.

· Created detailed mechanical designs and drawings for various products and components.

· Collaborated with manufacturers to develop innovative solutions and improve product performance.

· Performed analysis and testing to ensure designs met technical specifications and quality standards.

· Managed multiple projects simultaneously, ensuring timely completion and adherence to budget constraints.

· Implemented design improvements and cost-reduction initiatives to optimize product functionality and manufacturability.

Conducted thorough testing and performed precise calculations

· Played a key role in the design, fabrication, and testing of turbines, poles, electrical towers, laboratory experimental equipment for engineering colleges, and steel structure buildings.

· Utilized CAD/CAM software, such as SolidWorks and AutoCAD, to create detailed mechanical designs and engineering drawings.

· Collaborated closely with cross-functional teams to ensure accurate interpretation of client specifications and design requirements.

· Conducted feasibility studies and evaluated different materials for optimal performance, cost-effectiveness, and durability.

· Managed projects from concept to completion, ensuring adherence to timelines, budgets, and quality standards.

· Oversaw fabrication processes, coordinating with technicians, welders, and other skilled workers to ensure smooth operations and timely project delivery.

· Implemented quality control procedures, conducting inspections and tests to verify compliance with industry standards and client specifications.

· Generated technical documentation, including reports, manuals, and assembly instructions, to support the manufacturing and installation processes.

· Collaborated with clients and stakeholders to address engineering challenges, provide technical support, and ensure customer satisfaction.

· Maintained a strong focus on safety protocols and practices throughout all stages of fabrication and installation.