Bachelor Projects (List)

Engineering Projects

I have a deep passion for using technology to solve business challenges, which led me to pursue a bachelor’s degree in Engineering, Innovation, and Business. Throughout my studies, I had the opportunity to work on diverse projects where we applied various technologies to address business problems of different scales. Below, you can explore some of the exciting group semester projects I participated in and see the contributions I made.

Bachelor Thesis

Development of a data analytics thesis in collaboration with VibroAcoustics, focusing on comparing their music therapy to competitors. Over four months, I managed the project, designed data collection setups, analyzed biodata with statistical methods, and wrote the final thesis, providing key insights for product development.

In our fifth semester, we focused on large-scale project management, learning about innovation management and advanced project management techniques. Our task was to manage a project that addressed a business problem, involving collaboration with students from electronics and mechatronics programs, totaling around 10-15 students per project group.

Our project involved designing a solar-powered product to address specific needs. We developed an affordable solar-powered router and charger for travellers in remote areas, providing a combined solution for both power and internet connectivity during their journeys.

Solar Tracking Device

Development of a solar-powered router and charger for travelers in remote areas. Managed a large-scale project with 10-15 students, overseeing ideation, design, and business analysis. Facilitated stakeholder communication, user research, and created a go-to-market strategy, ensuring the product met market needs.

During our fourth semester, our education focused on manufacturing, particularly the future of manufacturing, known as Industry 4.0. We learned about smart manufacturing methodologies, operation management, and Lean Six Sigma.

For the semester project, we were tasked with designing a conveyor belt, developing the associated manufacturing processes, and using plant simulation to optimize production efficiency.

We designed and developed a conveyor belt that offers a competitive advantage in terms of quality and flexibility. Our conveyor belt was engineered to serve diverse industries, with automation integrated into certain parts of the production line to enhance efficiency.

Conveyor Belt

Design and development of a flexible, high-quality conveyor belt for diverse industries was our fourth-semester project focused on Industry 4.0. Using NX Siemens for 3D modeling and Siemens Plant Simulation for production optimization, I managed tasks, programmed automation in SIMTALK, and documented our research and processes.

In the first semester of our education, we were introduced to various aspects of product development, including mechanical design, embedded design, and material science. Additionally, we explored the business side of product development, focusing on business analyses such as identifying and developing user personas, gathering user feedback through interviews, and conducting comprehensive business analyses like SWOT analysis and Porter’s Five Forces. For our semester project, we were tasked with developing a product and establishing its market position.

We designed an affordable tool to help cyclists adjust their knee positions for a safer cycling experience. The "BikeFitTing" is a product curated to assist cyclists in positioning the saddles of their race bikes to the correct height. This tool aims to mitigate the risk of knee pain and injury among cyclists who ride for long hours, often caused by inappropriate knee angles resulting from poor saddle position.The tool detects whether the saddle needs an upward or downward adjustment or if any adjustment is necessary. Once the cyclist achieves the optimal saddle position, they can enjoy a smoother, longer, and more comfortable riding experience.

Bike Fit Ting

Development of "BikeFitTing," an affordable tool to help cyclists adjust saddle heights for optimal knee positioning and injury prevention. The project encompassed ideation, 3D modeling, mechanical and electronic design, business analysis, user testing, and go-to-market strategy creation. My contributions included conducting user surveys, analyzing data, performing market research, coding, and editing the final report.

During our second semester, the focus of our education was on innovation. We learned various innovation methodologies, ideation processes, and techniques for facilitating innovation workshops.

For the semester project, we were tasked with following an ideation process to identify a problem and then develop a product to address that problem.

Our team designed a device to detect noise levels in classrooms and provide visual feedback to encourage children to lower their noise levels.

Classroom Noise Tracking Device

Development of a device to detect classroom noise levels and provide visual feedback to encourage quieter behavior. Managed ideation, product development, and business aspects, including creating a 3D prototype and conducting market research. Contributed to infographic design, survey creation, and report editing to ensure effective communication and user-centered design.

During our third semester, the focus of our education was on innovation and prototyping. We learned about product design methodologies, such as design thinking, and how to manage the innovation of tech products.

For the semester project, our task was to follow an ideation process to identify a problem and develop a Virtual Reality product to address it.

We designed a Unity application that allows users to remotely connect to and control a UR3 robot using a Virtual Reality headset, enabling safe-distance operation.

VRobot

Development of a Unity application that enables remote control of a UR3 robot via a VR headset. Managed ideation, prototyping, and business development phases, including creating a high-level prototype and gathering user feedback. Contributed to programming, market research, and report editing, enhancing VR application functionality and user experience.