Department of Biologics and Engineering
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address
(14662) D212, Dasol Hall, 43, Jibong-ro, Bucheon-si, Gyeonggi-do, Republic of Korea -
hours of operation
8:30 am-5:30 pm -
tel
+82 2 2164 4991 -
e-mail
cukbmsw@catholic.ac.kr
About the Department
The Department of Biologics and Engineering cultivates practical experts in biopharmaceutical development, production, and quliaty control. Students learn techologies for desingning and producing cutting-edge biopharmaceuticals, including antibody drugs, protein therapeutics, cells, and gene thrapies. Through a curriculum that combines biotechnology, engineering, amd digital plarforms, students acquire both theoretical knowledge and practical skills essential for the global biopharmaceutical industry. The program emphasize on-site trainig linked to leading pharmaceutical companies and fosters creative, industry-ready professionals.
Curriculum
| Year 1 | Understanding Computers and Programming, The Math Behind AI and Biotechnology, Introduction to Biomedical Engineering |
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| Year 2 | Artificial Intelligence Programming, Probability and Statistics, Linear Algebra, Introduction to Healthcare Instrumentation |
| Year 3 | Machine Learning, Deep Learning, Healthcare Artificial Intelligence, Healthcare Data Analytics, Biosignal Processing, Capstone Design, Introduction to Clinical Research Methodology |
| Year 4 | Medical Imaging, Precision Medicine, BMS Development & Design, BMS Research Projects, Clinical Research Design |
Major Course Guide
| Year 1 | Computers & Programming | In this course, you will develop programming skills in Python, C, and other languages to work with healthcare big data before moving on to AI programming. |
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| Year 2 | Artificial Intelligence Programming | Learn basic machine learning theory to design artificial intelligence models and programming skills to design AI models based on the Python language. |
| Year 3 | Healthcare Artificial Intelligence | Develop artificial intelligence programs to process healthcare data using clinical big data. Develop problem-solving skills. |
| Year 4 | Clinical Research Design | Learn a variety of clinical research design techniques to solve real-world challenges and apply them to healthcare problems. |
Educational Goal
The prpgram aims to nurture high-level professionals equipped with practical expertise, problem-solving abilities, and global competitiveness in the biopharmaceutical field. Specifically, students will:
1) Acquire comprehensive knowledge og biopharmaceutical production, and quality control.
2) Develop capabilities in innovative bioprocess techologies that utilize AI and digital platforms.
3) Gain hands-on experience through industry-oriented education and internships.
4) Develop Interdisciplinary thinking and innovative problem-soving skills essential for leading the future of biopharmaceuticals
Career Pathways After Graduation
Graduates of the Department of Biologics and Engineering advance to diverse professional fields, including:
- Biopharmaceutical production engineering and process development
- Quality control (QC) and quality assurance (QA) roles
- Regulatory affairs (RA) and drug approval sectors
- AI-driven drug discovery and digital bioinformatics
- Bioproduction optimization and innovative GMP system management
- Research institutes, national laboratories, and academic graduate programs