Manual Scooter

Welcome to our site

Welcome to the official site of ScootPro! We are a passionate team of mechanical engineering students dedicated to design and develop a safe, efficient, and user-friendly manual scooter by integrating mechanical, ergonomic, and material design principles while balancing cost, functionality, durability, and sustainability. Explore our site to learn more about our project, the innovative technology behind ScootPro, and our mission to promote sustainability. Thank you for visiting!

Our Team.

Meet our dedicated team of five passionate individuals, each contributing unique skills. Together, we strive for excellence and innovation, ensuring we meet our clients' needs with professionalism. We look forward sharing our journey and achievements with you.

Muhammad Haykal Bin Mohd Khairul

Art Director

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Mohd Rafiqul Hanan Bin Mohd Firdaus

Art Director

Nur Laili Binti Mujarab

Tech Lead

Iffah Sakina Binti Burhanuddin

Product Manager

Shahira Ruhila Binti Zakaria Ansori

Product Designer

Supervisor

Dr. Faiz Redza Bin Ramli

"We would like to express our sincere gratitude to Dr. Faiz Redza Bin Ramli, our supervisor from the Faculty of Mechanical Engineering Technology (FTKM), for his unwavering support, wise counsel, and commitment during our Integrated Design Project (IDP) on the 'ScootPro.'" His knowledge and kind criticism were really helpful to us as we honed our idea and created workable, long-lasting solutions. We were inspired to overcome obstacles and accomplish our project goals by Dr. Faiz's support and tolerance. Learning under his guidance has been an honour, and we really appreciate his contributions to our project's success."

Objectives

To design and develop a lightweight, foldable manual scooter that meets ergonomic, safety, and durability standards suitable for urban or campus commuting.

To evaluate and optimize the scooter's performance, reliability, and user-friendliness through prototyping, human factor analysis, and risk assessment tools such as FMEA.

To apply engineering design principles including material selection, structural analysis, and DFMA to ensure the scooter is cost-effective, manufacturable, and easy to assemble.

To evaluate and optimize the scooter's performance, reliability, and user-friendliness through prototyping, human factor analysis, and risk assessment tools such as FMEA.

Content

Concept Generation

During the concept generation phase, we follow a systematic process that involves creating a functional structure, developing a morphological chart, brainstorming individual concepts, evaluating and selecting the most suitable ideas, and detailing the final chosen designs.

Virtual Prototype

In our virtual prototypes, we incorporate advanced techniques such as Finite Element Analysis (FEA), Design for Manufacturing and Assembly (DFMA), Failure Mode and Effects Analysis (FMEA), human-centered design principles, and functional optimization. These methods ensure that our designs are not only robust and reliable but also user-friendly, efficient, and tailored for practical implementation.

Physical Prototype Planning

In physical prototype planning, we meticulously consider material selection, fabrication processes, and development costs to optimize efficiency and achieve cost-effective production.