Overview
The Bachelor of Science in Artificial Intelligence and its Applications in Medical Science is designed to bridge the gap between artificial intelligence technologies and the evolving needs of the healthcare i. This interdisciplinary program combines the study of AI principles, machine learning algorithms, and data analytics with medical sciences, covering areas such as genetics, bioinformatics, medical imaging, and healthcare informatics. , the program aims to prepare students to innovate and improve diagnostic tools, treatment strategies, and healthcare .
The curriculum is designed to foster technical proficiency in AI and understanding of their practical applications in solving complex medical problems. By the completion of the program, graduates are well-equipped with the knowledge and skills necessary to lead the development of AI-driven solutions in healthcare field.
Goals
- Interdisciplinary Expertise: To provide the students with knowledge to understand of both artificial intelligence technologies and medical science, enabling students to apply AI solutions effectively in healthcare and medical research contexts.
- Innovation and Problem-Solving: To encourage innovative thinking and problem-solving skills, to develop and implement AI-driven solutions that address real-world healthcare challenges.
- Data Proficiency: To equip students with the skills to collect, analyze, and interpret large and complex healthcare datasets, utilize data science and analytics principles to inform clinical decisions and medical research.
- Ethical Responsibility: To instill a strong ethical standards that guides the responsible use of AI and data science in medical applications, emphasizing patient privacy, data security, and equitable healthcare outcomes.
- Collaborative Engagement: To prepare students to work effectively in multidisciplinary teams, facilitating collaboration between AI professionals, healthcare practitioners, and medical researchers to improve patient care and public health.
- Professional Development: To encourage lifelong learning and professional growth, ensuring that graduates remain adaptable and responsive to the rapidly evolving fields of AI, data science, and healthcare technologies.
Careers of Graduates
- Healthcare Data: Analyzing complex health data to ibe used for clinical decisions, policy-making, and healthcare innovations.
- Clinical Informatics: Designing and implementing AI-based tools and systems to improve clinical workflows, patient care, and healthcare operations.
- AI Medical Research: Conducting research to develop new AI algorithms and models that address specific challenges in medical diagnostics, treatment, and patient monitoring.
- Biomedical AI: Developing and maintaining AI-driven applications, such as diagnostic tools, predictive models, and personalized medicine solutions, that enhance healthcare delivery.
- Medical Imaging: Utilizing AI technologies to improve the analysis and interpretation of medical images, such as MRIs, CT scans, and X-rays, for more accurate diagnostics.
- Genomics Data: Applying AI and machine learning techniques to genomic data to understand genetic factors in diseases, contributing to the field of personalized medicine.
- AI Ethics and Compliance: Ensuring that AI applications in healthcare adhere to ethical standards, privacy regulations, and best practices in patient care.
- Pharmaceutical Data Analyst: using AI to analyze clinical trial data, improve drug development processes, and personalize treatment regimens.