Experience
&
Expertise.
My Skills
I am someone who is constantly learning and growing, always on the hunt for new skills and knowledge to apply. After all, knowledge that isn’t used is no knowledge at all.
3D Designing
Skilled in transforming ideas into digital models using software like Creo, Fusion 360, Inventor, Meshmixer, and Blender.
Prototyping
Experienced in quickly creating real products using tools like Lathe, Milling, CNC, Drill Press, Hand Tools, and 3D Printers.
Electronics & Microcontrollers
Hands-on experience with microcontrollers, sensors, and actuators for various applications.
3D Printing & Scanning
Specialized in prototyping and reverse engineering, with a focus on medical applications
Technical Drawing
Proficient in GD&T for precise communication with engineers and machinists.
Intermediate Skills
Rendering
Able to create animations and product renderings in Blender.
IT Networking
Basic setup of routers, switches, LAN, VLANs, subnetting, and IP addresses.
Simulation
Familiar with simulating stress, fluid dynamics, and heat transfer in Abaqus and ANSYS
PCB Designing
Knowledgeable in creating manufacturable circuits using KiCad.
Web Designing
Able to design websites using Figma and WordPress.
Work Experience
GaitLine AS
I worked closely with the founder of Gaitline AS, a shoe company focused on improving people’s lives.
On my own, I 3D designed a new shoe shank that needed to be both flexible and rigid, which required many design iterations. I used 3D printers to test various materials and refine the design.
In the end, my design was successful and advanced to injection molding; it’s now used in their latest shoe line. So, if you spot a Gaitline shoe in stores, just know—I designed it! Haha
I explored using Thermoelectric Generators (TEG) in cars. My case study tested if attaching a TEG to a high-temperature part, like the exhaust pipe, could generate electricity—and if so, how much. I found that TEGs can indeed produce electricity in combustion cars. Through this project, I gained hands-on experience with Ansys, learned how TEGs work, and tested their
I built a device to analyze foot pronation and supination. Working with OsloMet and Gaitline, I developed this physical device within one semester. Using 3D design and prototyping, I created a device capable of supporting human body weight while adjusting foot angles.
I developed a medical orthosis for physiotherapists to support patients’ wrists affected by medical conditions. I created two types: a static orthosis and a dynamic orthosis that assists movement. This project was done in collaboration with Sunnaas Hospital, where I gained a deeper understanding of 3D modeling, reverse engineering, and hands-on experience with 3D scanners and printers.
During my time with Formula Student, I became fascinated by race car suspension and geometry. I read Chassis Engineering by Herb Adams, which dives deep into race car design, and his research inspired me to design my own off-road karting chassis with tube frames, intended to be powered by a motorbike engine. Unfortunately, I didn’t have the budget to build it.
As a master's student, I worked on a project replicating human finger movement to control a robot. My focus was on 3D design and sensor integration, where I gained experience with resistance-based sensors and designing Op Amps for filtering and gain. I also worked with 3D printing and learned to operate 3D printers effectively.
I have learned to make drawings manually and using CAD software. I have also learned GD&T and creating exploded views.
