Mohammad Foroozeh

I'm a passionate biomedical engineer

Last Update: 7/1/2024

About

Learn more about me

Personal Information

Birthday: 1999/8/28
Phone: +98 933 566 9903

City: Shiraz, Iran
Email:m.foroozeh@gmail.com

Degree: Bachelor of Science in Biomedical Engineering

During High School, I witnessed one of my close family members suffering from cancer. After some visits to different areas of the hospital, I realized how the engineered medical equipment helped the doctors and medical team with the diagnosis and treatment of patients. This reality captured my consciousness, and since then, I have been interested in and acquainted with the biomedical engineering field. Thus, I selected my major courses in biomedical engineering during my BA degree. Currently, I am determined to study a master's degree in this field to improve my knowledge and technical skills.

Skills

Industrial Design & Modeling 90%

Programming

Python 70%

Machine Learning 50%

C# 30%

Soft Skills

Time Management

Teamwork

Critical Thinking

Creativity

Language

English 85%

Interests

Piano Playing

Reading Books

Teaching

Cooking

Bike Riding

Karate

Resume

Check My Resume

Education

Bachelor

2017 - 2022

Zand University

I studied Biomedical Engineering (Biomechanics orientation) with the of GPA: 3.4 /4

Professional Experience

Internship: Industrial Designing

2022

Deconik Company

2D, 3D designing of cervical collars and medical cushions (with the use of reverse engineering)
2D, 3D of acoustic panels designed and used for a few audiometry rooms and music studios)
Concept design a modular portable acoustic booth
Operating CNC Foam Cutting Machine

References

Dr. Alireza Faghihi Biomechanics

Dr. Somayeh Afrasiabi Bioelectrics

Farhad Ghadami Biomechanics

Projects

My Works

All
Medical collars
Acoustic Panels
Acoustic Booth
Walking stander
mimics
wardrobe
roll call device

This sample medical collar was designed in four different sizes (S,M,L,XL), and then manufactured by foam die cut.

These acoustic panels act either as sound absorbers or diffusers, which are widely used both in audiometry rooms, music studios, etc. in order to reduce noise levels and eliminate sound reverberation.

I designed the 2D and 3D plans of these panels in AutoCad and SolidWorks, respectively, and then rendered the whole studio in Luxion Keyshot. The panels are mostly made of polyurethane foam and wood, both of which was cut by CNC machines.

This modular acoustic booth enables the users who want to have a carriable small studio in their room or work environment.

I utilized reverse engineering techniques to conceptually design all of the parts for the booth, and in order to enhance its strength, while reducing manufacturing costs, I decided to change some of the materials.

This walking stander is designed to assist patients who have difficulty walking on their own with sit-to-stand motion. The caregiver can lock the wheels and open the supports, allowing the patient to stand up while holding the horizontal bar with their hands. Once the patient is standing, the caregiver can unlock the wheels and move the patient and the stander together. The design of this stander was done by SolidWorks.

I created a patient-specific 3D model of the spine by using DICOM files from a CT scan and modeling the vertebrae and cartilage with Mimics and 3Matic software. This model can be beneficial for any spinal surgeries.

3D design of a wardrobe for an office.

Our research group developed the concept of a roll call device during the Covid-19 pandemic specifically for use in offices. This device is capable of monitoring and reporting critical employee parameters, such as body temperature and blood oxygen saturation levels, while also providing hand sanitization through an automated spray of liquid sanitizer. The Arduino microprocessor board was used to compile the data from the sensors. Group mates: Farhad Najibi, Fatemeh Keshavarz, Rezvan Fardi