B.S. BIOMEDICAL ENGINEERING TECHNOLOGY

SCOPE & OPPORTUNITIES:

With a degree in Biomedical Engineering Technology, students are prepared for entry-level jobs trouble shooting, diagnosing, repairing and calibrating biomedical equipment. The evening program allows them to continue their education without compromising with their job responsibilities. This will not only provide them with ease of mind but also enable them for self-sustainability.

Graduates of Biomedical Engineering Technology will be able to work in the Pharmaceutical industries, Hospitals, Patient care facilitation center, health practitioner offices, and Doctor’s offices with medical testing equipment.

PROGRAM EDUCATIONAL OBJECTIVES (PEOs)

Consistent with the Department of BME Vision and Mission, the Program Educational Objectives of the study program BS Biomedical Engineering  Technology are:

PEO 1: To produce graduates who will be equipped with the knowledge of Science, Technology, mathematics, modern tools and skills to propose ideas and solutions, culminating into a technology or equipment in health care system.

PEO 2: To produce graduates able to monitor, repair and calibrate the products using modern tools for the maintenance in biomedical engineering technology and generate employment through entrepreneurship.

PEO3: To produce graduates who will be able to manage and communicate multidisciplinary teams and assist in research and development.

PLOs BS BIOMEDICAL ENGINEERING TECHNOLOGY:

PLO 1: Knowledge: Graduates will gain and apply knowledge of biomedical engineering technology, Science and technology concepts to solve problems related to field of biomedical engineering technology.

PLO 2: Problem Analysis: Graduates will be able to identify, analyze and understand problems related to biomedical engineering technology and finding valid conclusions with basic knowledge in biomedical engineering technology.

PLO3: Design/Development of Solutions: Graduates will be able to design and develop solution to biomedical engineering technology problems by applying appropriate tools while keeping in mind safety factor for environmental & society.

PLO 4: Investigation: Graduates will be able design, perform experiments, analyse and interpret data for investigating complex problems in biomedical engineering technology and related fields.

PLO 5: Modern Tool Usage: Graduates will be able to decide and apply appropriate tools and techniques in biomedical engineering technological manipulation.

PLO 6: Technologist and Society: Graduates will be able to justify societal, health, safety and legal issues and understand his responsibilities in biomedical engineering technological practices.

PLO 7: Environment and Sustainability: Graduates will be able to understand the need and impact of biomedical engineering technology solutions on environment and societal context keeping in view need for sustainable solution.

PLO 8: Ethics: Graduates will have knowledge and understanding of related norms and ethics in biomedical engineering technology technique development.

PLO 9: Individual and Team Work: Graduates will be able to undertake any responsibility as an individual and as a team in a multidisciplinary environment.

PLO 10: Communication: Able to communicate effectively and broadly defined technical activities. Also, able to comprehend and write effective reports and documentation to give and receive clear instructions.

PLO 11: Project Management: Graduates will have thorough knowledge in biomedical engineering technology and will also be ready to engage themselves in lifelong learning.

PLO 12: Lifelong Learning: Graduates will be motivated and have the preparation ability to engage in lifelong learning for technological change.

PROGRAM STRUCTURE

Semester – I
CodeCourseCr. Hr.
NS-108Applied Mathematics-I3+0
NS-106Applied Physics2+1
NS-111Basic Biology3+0
ET—114Linear circuit analysis2+2
ET-133Computer applications1+2
Total16
Semester – II
CodeCourseCr. Hr.
HS108Islamic studies1+0
HS-109Pakistan studies1+0
BM-202Biochemistry2+1
MT-153Basic Mechanical Technology2+1
HS-112Communication Skills2+0
ET-114Electronics2+2
Total14
Semester – III
CodeCourseCr. Hr.
NS213Applied Mathematics-II3+0
ET234Digital Electronics2+2
ET225Network Analysis2+2
ET123Engineering Drawing0+2
BM112Human Anatomy2+1
Total16
Semester – IV
CodeCourseCr. Hr.
BE220Clinical Equipment3+1
BE213Physiology2+1
ET240Introduction to Embedded System2+1
ET246Electrical Machine Transformer2+2
BM213Biomedical Electronics3+1
Total18
Semester – V
CodeCourseCr. Hr.
BE311Laboratory Equipment3+1
BE302Bio-Ethics and Bio safety3+0
HS221Technical Report writing3+0
BE312Biomedical signal analysis2+1
BE387Rehabilitation Sciences3+0
Total15
Semester – VI
CodeCourseCr. Hr.
BE313Radiology Equipment and Instrumentation3+1
BE315Biomaterial2+1
BE382Medical Image Processing2+1
ET364Data and Computer Communications2+2
HS106Psychology2+0
Total16
Semester – VII
CodeCourseCr. Hr.
BT482Supervisor Industrial Training0+15
BT414Project0+3
Total18
Semester – VIII
CodeCourseCr. Hr.
BT482Supervisor Industrial Training0+15
BT414Project0+3
Total15

ELIGIBILITY:

  • At least 50% marks in DAE/Intermediate (Pre-engineering/ Pre-medical) or an equivalent examination
  • Applicants are required to appear for a written test and interview.

FEE STRUCTURE

Application feeAdmission FeesUniversity Fee 1st YearUniversity Fee 2-5 YearSecurity DepositOther ChargesThesis Fee1st Year2nd Year3rd Year4th Year5th Year
Rs.Rs.Rs.Rs.Rs.Rs.
Existing           2,500      15,000       5,000               –    74,000
Proposed2,500      15,000       5,000               –    74,000
Increase %0%0%0%0%
Chancellor