The objective of the online diploma program in biomedical engineering is to train students for jobs at the intersection of technology and healthcare. Learners acquire proficiency in imaging systems, biomedical instrumentation, diagnostics, and medical device design through practical instruction and theoretical understanding. By combining biological sciences and engineering principles, this curriculum prepares graduates to contribute to the creation, upkeep, and invention of medical equipment utilized in clinics, hospitals, and research facilities across the world.
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A thorough introduction to biomedical systems, medical equipment, and health technology is provided by this program. Through advanced technical knowledge and real-world skills relevant to contemporary healthcare settings, it equips students to support patient care.
| Title | Duration | Description |
|---|---|---|
| Module 1: Introduction to Biomedical Engineering | 4 Hours | An overview of the field, its history, scope, and interdisciplinary nature combining engineering with medical sciences. |
| Module 2: Human Anatomy & Physiology for Engineers | 5 Hours | Fundamentals of human body systems tailored for engineering applications in healthcare and biomedical design. |
| Module 3: Biomechanics | 4 Hours | Study of mechanical principles in the human body, focusing on motion, forces, and musculoskeletal mechanics. |
| Module 4: Biomaterials | 4 Hours | Explores materials used in medical devices and implants, including their properties, biocompatibility, and applications. |
| Module 5: Biomedical Instrumentation | 5 Hours | Covers the design and function of instruments used to measure physiological parameters and support clinical diagnostics. |
| Module 6: Medical Imaging Systems | 5 Hours | Introduction to imaging technologies like X-ray, MRI, CT, and ultrasound, and their role in diagnosis and treatment. |
| Module 7: Bioinformatics and Computational Biology | 4 Hours | Application of computational tools for analyzing biological data, with a focus on genomics and systems biology. |
| Module 8: Rehabilitation Engineering | 3 Hours | Design and development of assistive technologies and therapeutic devices to aid physical rehabilitation. |
| Module 9: Tissue Engineering & Regenerative Medicine | 4 Hours | Principles and practices involved in creating biological substitutes to restore, maintain, or improve tissue function. |
| Module 10: Trends, Ethics & Research in Biomedical Engineering | 4 Hours | Discussion of current advancements, ethical considerations, and research methodologies in the field. |
| Qualification Title | Mode of Study | Duration | Assessment | Certification |
|---|---|---|---|---|
| Biomedical Engineering Program/td> | 100% Online | Flexible (3 months) | Assignments, hands-on projects | Internationally recognized qualification |
Biomedical Device Design & Functionality
Human Anatomy & Physiology for Engineers
Electronics in Medical Applications
Medical Imaging (X-ray, MRI, CT, Ultrasound)
Device Maintenance & Calibration
Signal Processing for Biomedical Data
Designed to meet current demands in healthcare technology and innovation.
Taught by professionals from biomedical and clinical engineering backgrounds.
Learn at your pace with practical, hands-on modules and virtual support.
Gain real-world skills for work in hospitals, med-tech firms, and diagnostics.
ASTI Academy offers government-approved vocational educational certification programs in Dubai and is recognized and accredited by the Government of Dubai, KHDA, TVET, Ofqual, and other international educational legal authorities.
Biomedical Engineering combines engineering principles with medical sciences to develop equipment and systems used in healthcare.
This course is open to engineering, science, IT, and healthcare professionals or students with an interest in technology and medicine.
You can work as a Biomedical Technician, Clinical Engineer, Medical Equipment Specialist, or Healthcare Technologist.
Yes, the course is delivered 100% online, with flexible access to course content, assessments, and project guidance.
No. This program starts from the basics and builds up to advanced concepts in device technology and system integration.
The course introduces tools for biomedical simulation, diagnostics analysis, and signal monitoring, based on industry use.
Gain cross-disciplinary skills in one of the fastest-growing fields.
Work in hospitals, med-tech companies, diagnostics, or research.
Learn using real-world scenarios and equipment case studies.
Study from anywhere and build a future-ready skillset.
As a mechanical engineer, this course helped me pivot into biomedical product design.
The modules were clear, practical, and relevant to modern hospital systems.
I’ve been working in healthcare and this helped formalize my technical skills.
I liked the structure. You get to learn and apply concepts immediately with mini projects.
I completed this while working full-time and got promoted to Biomedical Coordinator.