Industrial Systems · Product Development · R&D
Great engineering is proven in the field,
where it matters most.
I am a Mechanical Design Engineer and R&D Engineering Leader with 4+ years of experience designing, developing, and deploying high-reliability mechanical and electro-hydraulic systems for safety-critical applications across oil & gas, sanitation robotics, defence, and medical sectors.
My work spans the full product development lifecycle — from feasibility and concept design through subsystem engineering, prototype development, testing, and field validation. I have contributed to and led development of multiple field-deployed robotic systems, with deep hands-on expertise in hydraulic system design, structural analysis and optimisation, electro-mechanical integration, and design for manufacturability.
I have coordinated and led cross-functional teams of engineers across design, fabrication, validation, and manufacturing — driving projects from early R&D through to deployment while maintaining focus on reliability, safety, and real-world performance.
My core engineering tools are SolidWorks, AutoCAD, and ANSYS Workbench, applied across 3D design, manufacturing documentation, FEA, and structural validation. I also hold a Lean Six Sigma Black Belt, which I apply to continuous improvement, root cause analysis, and engineering process optimisation.
Electro-mechanical integration, hydraulic systems, structural optimisation
FEA, DFMEA, engineering calculations, prototype testing
Real-world validation in oil & gas, sanitation, and hazardous environments
Leading cross-functional teams across design, fabrication, and testing
Genrobotics · Robotics & Industrial Systems
Led R&D delivery of industrial robotic cleaning systems (DRACO, G-Mammoth, Wilboar) — owning system-level mechanical architecture across hydraulics, structures, and materials to improve reliability, durability, and lifecycle performance.
Coordinated cross-functional teams of 10–15 engineers across engineering, procurement, and manufacturing. Defined validation plans, test protocols, and acceptance criteria. Drove design improvements through RCA, Lean, and value engineering — achieving zero major audit non-conformities and 96% on-time delivery.
Genrobotics · Robotics & Industrial Systems
Led end-to-end mechanical design and prototyping of DRACO, improving sludge extraction and buoyancy performance by 30%. Designed and deployed test rigs, cutting validation cost by 20% and cycle time by 25%.
Conducted 15+ linear and non-linear FEA studies in ANSYS Workbench across Genbot, Wilboar, and G-Gaiter. Performed design calculations, tolerance analysis, and material selection. Resolved 10+ design-to-production issues with manufacturing teams.
Genrobotics · Robotics & Industrial Systems
Designed mechanical subsystems for Bandicoot, Wilboar, G-Gaiter, and Mobility+ — creating 3D models, assemblies, and fabrication drawings in SolidWorks and AutoCAD. Prepared and controlled 300+ line-item BOMs for manufacturing, procurement, and quality.
Conducted feasibility studies and structural analysis to improve durability and reduce cost. Supported 20+ prototype builds and field trials, incorporating test feedback into iterative design improvements.
SolidWorks
AutoCAD
ANSYS
Excel
PowerPoint
Word
Specialized in product engineering, system-level design, mechatronics, FEA, and simulation-driven development. Highly project-oriented program enabling concept-to-prototype development.
Strong foundation in thermodynamics, mechanics, fluid systems, machine design, and manufacturing. Practical lab exposure translating theory into real-world applications.
Applied DMAIC methodology and statistical tools for process improvement, root cause analysis, quality enhancement, and efficiency optimization.
Detailed case studies of real-world system development — from hydraulics to field deployment.
View All Projects →Open to new opportunities, collaborations, and conversations about engineering challenges. Feel free to reach out through any of the channels below.