This project involved converting a standard ISUZU FRR truck chassis—typically used for cargo—into a chassis suitable for passenger bus applications. Within the Design Engineering team, the role focused on developing functional prototypes by translating concepts into CAD designs, followed by component fitting and performance testing. Responsibilities also included creating detailed assembly procedure manuals to support technical teams during mass production. The components featured in this section illustrate strong proficiency in Design for Manufacturing and Assembly (DFMA), highlighting a balance between innovative design and practical implementation.

This project aimed to redesign a set of existing guard parts originally produced by a different supplier, with a focus on maintaining consistency in both pattern and structural design across all components. The task involved reverse engineering the previous designs, optimizing them for manufacturability, and ensuring that the revised parts met both aesthetic and functional requirements. Emphasis was placed on achieving uniformity, durability, and ease of assembly, while aligning with existing production standards and vehicle specifications.

This project involved converting an existing plastic motorbike storage tank into a version made from sheet metal, while preserving the original design language and functional integrity. The reverse engineering process presented unique challenges due to the differences in material behavior and manufacturing constraints. The role primarily involved leading a team of designers through the conceptual and development phases, providing direction, feedback, and oversight rather than engaging in direct design work. This experience strengthened leadership and project management capabilities, particularly in coordinating technical teams and aligning design objectives with manufacturability.

This project focused on upgrading the workshop’s fabrication area to meet international standards, with a key objective of improving workflow efficiency and safety. The scope involved redesigning welding tables and installing overhead cable support structures for welding machines, all while ensuring ease of use during fabrication tasks. The role centered on developing optimized floor layouts that maximized usable space and improved operational flow. The project spanned from conceptualization and design to fabrication and final fitting, requiring close collaboration with fabricators on the ground. This hands-on involvement helped strengthen communication, leadership, and project management skills, particularly in coordinating multidisciplinary teams and translating design intent into practical, on-site execution.