SAMPLE PROJECTS

• Several dozens of damaged Tesla Model 3 vehicles have been acquired over the course of a year

• All vehicles have had various damages

• Market research has been concluded before purchases

• All vehicles have been purchased for a marginally decreased value

• In addition, several salvage titled Model 3 vehicles are acquired to be used for parts only

• Overall, out of 3 damaged vehicles, 2 repaired vehicles have been obtained

• The below before and after pictures are a sample of Tesla Model 3 vehicles as mentioned

• All of the vehicles below have been repaired, marketed and sold in record time with maximum profits resulting in 200% overall profitability

• The Tesla Model 3 vehicles are still being acquired

• Below is a repair that was performed on a flooded Tesla Model 3 battery pack

• From the experience gained through repairing these vehicles, all aspects of the vehicle from software to hardware to drivetrain to body repairs are mastered

• Apart from these projects, various vehicles have been purchased and sold resulting over 50 vehicle sales and over $1 million net sales over the course of a year with 0 starting capital utilizing vehicle dealership floor plans and lenders along with investors

Engaging in the multi-disciplinary Global Sustainability course, my team and I are committed to elevating the sustainability profile of the city of Manila through a comprehensive and strategic initiative. Our project entails a thorough analysis of the city's current environmental impact and resource consumption. Employing a holistic approach, we aim to implement sustainable practices across various sectors, including energy, transportation, waste management, and urban planning. Leveraging advanced sustainability metrics, we plan to identify key areas for improvement and propose innovative solutions to minimize the ecological footprint of the city. As part of this endeavor, we will integrate principles of circular economy, renewable energy sources, and green infrastructure to create a resilient and eco-friendly urban environment. This ambitious project not only showcases our dedication to global sustainability but also demonstrates our ability to apply a diverse range of skills, including environmental impact assessment, systems thinking, and collaborative problem-solving, to drive positive change on a citywide scale.

In my capstone project of my last year at my industrial engineering program, I led a multifaceted initiative to enhance the vehicle part sales store's operational efficiency and profitability. Employing advanced industrial engineering techniques, I meticulously analyzed the existing systems and leveraged Python programming to optimize the selection process for salvaged vehicles. This involved a data-driven approach encompassing over 100 vehicle models, incorporating elements such as profitability metrics, sales targets, and intricate inventory management strategies. My contributions extended to facilities design, where I engineered layouts for optimal worker efficiency and streamlined inventory storage. This comprehensive project showcased my proficiency in industrial engineering domains, including project management, optimization methodologies, operations research, and operations management. The successful implementation of these enhancements at Spring Auto underscored my ability to synthesize complex technical analyses into actionable strategies, delivering tangible improvements across diverse aspects of the organization. 

As a fourth-year industrial engineering student, I successfully spearheaded a comprehensive inventory and production systems assessment project in collaboration with my role as Co-Executive Officer at a prominent used vehicle dealership. Leveraging my academic knowledge and practical industry experience, I executed meticulous lot sizing strategies, conducted intricate calculations pertaining to advanced inventory systems, and implemented optimized production workflows. This multifaceted project showcased my adeptness in blending theoretical concepts with real-world applications, resulting in streamlined operations and enhanced efficiency within the dealership's supply chain. This experience not only fortified my grasp of industrial engineering principles but also underscored my capacity to integrate innovative solutions into practical business settings.

- Spearheaded the establishment and growth of the dealership from the ground up, showcasing entrepreneurial vision and strategic leadership.

- Achieved remarkable success in completing over 100 high-value vehicle projects, ranging from supercars to heavy-duty trucks, attaining a high level of customer satisfaction.

- Implemented innovative business strategies that contributed to the company's rapid ascent, resulting in notable profitability and exceeding revenue expectations.

- Established the company as a recognized player in the market for repairing, restoring, and selling diverse vehicles, underscoring a commitment to quality and excellence.

- Proactively identified and capitalized on market trends, aligning the company's offerings with evolving customer preferences, ensuring sustained business growth.

- Demonstrated financial acumen in managing budgets and cost-effectively executing projects, ultimately enhancing the company's bottom line.

- Effectively leveraged negotiation skills to secure favorable deals, optimizing procurement costs and driving profitability.

- Played a pivotal role in expanding the company's portfolio to include a wide variety of vehicles, catering to a broad customer base and diversifying revenue streams.

- Established a solid reputation for integrity and reliability, earning the trust of clients and partners within the automotive industry.

- The company's success story, marked by exceeding $1 million in gross sales within the first year, highlights a commitment to excellence and customer satisfaction.

- Led and orchestrated high-value projects involving the repair and restoration of diverse vehicles, including supercars, luxury cars, trucks, heavy-duty trucks, ATVs, UTVs, jet skis, dump trucks, and roll-off trucks.

- Successfully obtained rebuilt vehicle certificates, showcasing expertise in navigating regulatory processes and ensuring compliance.

In a separate academic undertaking, I led a dedicated team in the conceptualization, design, and redevelopment of a mobile fan spray system. Applying core industrial engineering principles, we meticulously integrated Design for Manufacturability (DFMA) and Design for Assembly (DFA) methodologies into our project. Our focus on optimizing manufacturability and ease of assembly resulted in the creation of a cost-efficient unit that not only surpassed the functionality of the original design but also showcased our prowess in balancing innovative engineering solutions with practical manufacturing considerations. This endeavor underscored my adeptness in seamlessly integrating industrial engineering skills, design thinking, and manufacturing design to deliver a superior and economically viable product.