CV
KEY TECHNICAL SKILL
- Medical Imaging (Ultrasound imaging, Positron Emission Tomography (PET) scanning, X-ray imaging, Magnetic Resonance Imaging (MRI), Computerized Tomography (CT) scanning)
- Radiation Dosimetry & Radiation Therapy
- Machine Learning and Programming (Root, MATLAB, C++)
EDUCATION
- University of Bergen, Norway
Masters in Medical Physics and Technology (2018)
- University of Dhaka, Bangladesh
MS in Biomedical Physics and Technology (2015)
- American International University Bangladesh (AIUB), Bangladesh
B. Sc. in Electrical and Electronic Engineering (2012)
RESEARCH EXPERIENCES
- University of Bergen, Norway (2017-2018)
Mentor: Professor Dieter Roehrich
Project: Noise and Cluster Size Studies of ALPIDE-CMOS Pixel Sensor for pCT
Major Findings: As Monolithic Active Pixel Sensor (MAPS) chips to build a Proton CT prototype, the ALPIDE chip showed enough radiation tolerance by displaying sustained functionality after being irradiated with high energy Helium-4 ion of 9 MeV. The acquired cluster size from irradiated ALPIDE chip (with 241Am, 90Sr, 55Fe, Variable Energy X-ray and Proton beam) showed expected outcome that indicated the suitability of ALPIDE chip for Proton CT data acquisition.
- University of Dhaka, Bangladesh (2013-2015)
Mentor: Professor Dr. Khondokar Siddique-e Rabbani
Project: Investigation of X-ray Image Quality in Telemedicine
Major Findings: The digitized image produced by an X-ray view box and Logitech webcam showed similar characteristics as real X-ray film grayscale image. Information about granular object was also extracted from the digitized image. An exponential relation between image pixel value and object thickness was established supporting the expected behaviour based on basic principles. In this research work, digitized X-ray image quality showed to be usable for tele-diagnosis and for making any medical decision.
- American International University Bangladesh (AIUB), Bangladesh (2011-2012)
Mentor: Md. Saniat Rahman Zishan, Associate Professor
Project: Harmonics elimination from power system using Hybrid active filter with PWM
Major Findings: By using MULTISIM simulation, a new generation power electronics converter namely hybrid active filters is found to mitigate undesirable effects due to harmonic voltages and currents such as overheating of power transformers and neutral wires and unpredictable performance of protection systems.
PROFESSIONAL EXPERIENCES
Lecturer (2019- Present)
Faculty of Engineering
American International University-Bangladesh
Sr. Executive Engineer (2011-2012)
for Biomedical Equipment and Medical Device Management
Versatile International Ltd., Dhaka, Bangladesh
Membership:
Member, Biomedical Engineers Association (BMEA), Bangladesh
Member, Bangladesh Medical Physics Association (BMPA)