RESEARCH FIELDI graduated from Northumbria University with a B.S. in Biomedical Science. I am currently pursuing an integrated MS-PhD program with a focus on neuropathic pain and computational modeling. My academic journey is centered around delving into the intricacies of neuronal signaling, with a specific emphasis on understanding the pivotal role of Dorsal Root Ganglion (DRG) in pain processing
RESEARCH FIELDI am currently pursuing an integrated program in AI graduate school. And I focus on applying AI techniques to all research projects in my lab. My primary research centers on utilizing cardiac PET and MRI data to develop deep learning-based solutions for medical imaging analysis.
RESEARCH INTERESTI majored in undergraduate of mechanical engineering at GIST. My primary research field is optimized light control for in vivo application. In order to observe the structure and functionality of the bio sample at microscopic level, optimized light distribution at the target area is very important. Currently, I am developing a light sheet microscope with high-speed large area brain imaging.
RESEARCH FIELDI graduated in biomedical engineering and have a strong interest in the interdisciplinary fusion of biology and engineering. Currently, I am conducting experiments focusing on imaging and signal analysis based on biological research. Furthermore, I am interested in addressing the limitations of existing imaging techniques and exploring innovative approaches in the field of optics.
EDUCATIONIntegrated MS-PhD Candidate, Department of Biomedical Science and Engineering, GIST
Research Assistant (2019-2021) in Electronic applications for Biomedical Electronics Center, HUST
B.S. (2021) Biomedical Engineering, Hanoi University of Science and Technology (HUST), Vietnam
RESEARCH INTERESTI had my undergraduate (B.Sc.) at the University of Asia Pacific, Dhaka, Bangladesh in March 2017, majoring in Computer Science. In 2020, I graduated with masters (MS) from Chonnam National University, Gwangju, Rep. Of Korea. My master's research was on neural network optimization and the development of faster and low-computation deep learning model development. After my graduation from Chonnam, I took a job as an AI R&D researcher in a company in Daejeon, focusing my research on AI-based Image Processing and optics setup for image accusation.
EDUCATION- 2021-2022, Junior Researcher, R&D Section, Xisom Inc, Deajeon, Rep. of Korea.
- 2020, Masters (MS) Dept. of ICT Convergence, Chonnam National University, Rep. of Korea
- (2016-2017) Assistant Teacher, University of Asia Pacific, Dhaka, Bangladesh
- 2016, Bachelors in CS (B.Sc),Department of CSE, University of Asia Pacific, Dhaka, Bangladesh
RESEARCH INTERESTI got my B.S. graduated from the Department of Biomedical engineering at Konkuk University in 2021. I have always been interested in optics related to biomedical engineering. During my undergraduate years, I spend time as a student researcher in the Biooptics lab.
Now I am a master’s student in Neurophotonics lab and I am currently working on laser
speckle contrast imaging. I specifically focus on the setting up LSCI and in vivo imaging. Also I am interested in Intrinsic optical signal imaging. I want to be exposed to various imaging systems during the master’s.
RESEARCH INTERESTAs a biomedical engineer, I seek better ways to enhance medical devices and software. The neuroscience course I took as an undergrad ignited my interest in this field. I see light as the solution to many diseases and disorders. I am eager to research what more optics can offer in in-vivo imaging and acquire a deep understanding of how the brain functions.
“There is always enough light for the one who wishes to see.”
EDUCATIONBSc. Biomedical Engineering (Bioelectrics minor) at Amirkabir University of Technology (Tehran Polytechnic)
MSc. Student at GIST (Gwangju Institute of Science and Technology)
RESEARCH FIELDDorsal root ganglion (DRG) has been instrumental in advancing research related to pain. Scientists leverage the DRG as a key focus in their investigations to gain deeper insights into the mechanisms, signaling pathways, and various factors contributing to the complex phenomenon of pain. By utilizing the DRG, researchers aim to unravel the intricacies of pain perception, transmission, and modulation, ultimately paving the way for a better understanding of pain-related disorders and the development of targeted therapeutic interventions.
DRG, PAIN, REGULATION
