Bachelor Degree in Biomedical Engineering in Malaysia

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Biomedical Engineering

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B. Eng. (Hons) in Medical Electronic Engineering

MAHSA UNIVERSITY
Campus Full time 4 years January 2017 Malaysia Kuala Lumpur

The above programmes are designed as per the requirements of the Board of Engineers Malaysia and strictly follows the guidelines according to their Engineering Accreditation Manual. The major requirements are the Programme Educational Objectives and the Programme Outcomes. [+]

Top Bachelors in Biomedical Engineering in Malaysia. The above programmes are designed as per the requirements of the Board of Engineers Malaysia and strictly follows the guidelines according to their Engineering Accreditation Manual. The major requirements are the Programme Educational Objectives and the Programme Outcomes. In line with this the curriculums have been designed to incorporate the required objectives and outcomes. OBJECTIVES OF THE ENGINEERING PROGRAMMES Graduates are able to apply the broaden and in-depth knowledge of Engineering to analyse the practical problems and think creatively to generate innovative solutions using appropriate technologies. Graduates are able to adapt to different roles and responsibilities and demonstrate leaderships in solving emerging engineering problems within the organization and society at national and international levels. Graduates sustain intellectual curiosity and know how to continue to learn not only in areas that are relevant to Engineering, but also that are important to society ENGINEERING PROGRAMME OUTCOMES Ability to apply knowledge of mathematics, science, and engineering fundamentals to engineering problems. Ability to identify and formulate engineering problems and solve by applying basic engineering principles Ability to identify and apply appropriate tools and techniques for engineering practical applications. Ability to apply research based knowledge for analyzing complex engineering problems. Ability to design solutions for complex engineering problems. Ability to prepare reports and communicate effectively and professionally through effective presentations. Ability to follow current good practices of engineering for sustainable development. Ability to demonstrate safety, health, social, cultural and environmental responsibilities relevant to professional engineering practices. Ability to execute the responsibilities of an Engineer professionally and ethically. Ability to function and manage effectively as an individual or in a team. Ability to recognise the need and be able to involve in independent and life-long learning according to technological changes. Ability to recognise the need and be able to involve in independent and life-long learning according to technological changes. Entry Requirements Bachelors (Hons) Degree Programme Good principal passes at STPM level in Mathematics and Physical Sciences and 4 credits at SPM; or Good passes at ‘A’ Levels in Mathematics and Physical Sciences and 4 grade C passes at ‘O’ levels / GCE; or The MAHSA Foundation or equivalent; or A qualification that MAHSA accepts as equivalent to the above Direct Entry to Year 2 of the Degree Students with Diploma or Higher National Diploma in Engineering from any college Successful completion of studies in another recognized institute with academic credits equivalent to Year 1 of an Honours degree (Subject to the approval of the MAHSA Academic Board) INTAKES January April July October Career Prospects Engineering is central to an exciting range of businesses and industries, including space, construction, transport, cosmetics, medicine, food, fashion and much more. With engineering, you can follow your interests – if you like sport, you can work as an engineer improving the performance of new tennis rackets. Engineers work in offices, laboratories, film studios, in the outdoors and underground. Engineering today is closely linked with technology, and plays a major role in many technological advances and new device production. You might be reading this on your phone, and that will be thanks to engineers. As an engineer you could be designing colour-matching technology to determine the best make-up for different skin tones or working as part of a team to improve the performance of artificial hip joints. This is about the application of engineering principles to the medical field. This area of engineering combines design and problem solving skills with biological sciences to find solutions to a variety of medical problems, such as improving the efficiency and effectiveness of a range of artificial limbs, the diagnostic equipment that is used in hospitals e.g. MRI scans and the latest drugs. It is a relatively new discipline but one that is constantly expanding to include new areas of research and recent medical advances. Medical engineers may work in hospitals or research and development companies. Medical engineering roles are varied and are likely to involve working with health professionals and a range of suppliers from pharmaceutical companies to the manufacturers of scalpels! [-]

Bachelor of Engineering (Bio-Medical)

Universiti Teknologi Malaysia
Campus Full time 4 years January 2017 Malaysia Johor Bahru

Application of engineering techniques in bio-medical sciences is gradually expanding. Today, with the ever increasing complexity of medical technology, there is a growing demand for technical professionals that could inter-relate the fields of bio-medical and engineering. Personnel that are capable of understanding a medical problem in terms of engineering sciences will be able to solve problems that are of interest to engineers and medical practitioners. This new field of Bio-Medical Engineering has made significant contributions in the technological advancement in the field of medicine, such as the creation and production of artificial human parts, communication aids and assisstive tools for the handicapped, new diagnostic and therapeutic tools that lead to new medical procedures, etc. [+]

Application of engineering techniques in bio-medical sciences is gradually expanding. Today, with the ever increasing complexity of medical technology, there is a growing demand for technical professionals that could inter-relate the fields of bio-medical and engineering. Personnel that are capable of understanding a medical problem in terms of engineering sciences will be able to solve problems that are of interest to engineers and medical practitioners. This new field of Bio-Medical Engineering has made significant contributions in the technological advancement in the field of medicine, such as the creation and production of artificial human parts, communication aids and assisstive tools for the handicapped, new diagnostic and therapeutic tools that lead to new medical procedures, etc. Programme Objectives Achieve competitive positions or entry into programme of advanced study in areas of their interest. Are competent and productive in Biomedical Engineering and related practice. Able to continue to develop professionally through both practical experience and life-long learning. Able to communicate and lead effectively. Practice high standards of ethical conduct and societal responsibilities. Programme Learning Outcomes Apply knowledge of science and engineering fundamentals to the solution of complex biomedical engineering problems. Identify, formulate and solve complex biomedical engineering problems through structured research literature and scientific approach using first principles of mathematics, natural sciences and engineering sciences. Design solutions for complex biomedical engineering problems with consideration for public health and safety, cultural, societal, and environmental needs. Conduct investigation into complex Biomedical Engineeering problems using research-based knowledge and methodology to provide scientific conclusions. Select and apply appropriate techniques, resources, and modern medical engineering and IT tools, to complex biomedical engineering activities, with an understanding of the limitations. Apply reasoning informed by contextual knowledge to assess societal, health, safety, legal and cultural issues to professional biomedical engineering practice. Understand the role of biomedical engineers in society regarding social, cultural, environmental and global responsibilities for sustainable development. Ability to evaluate and make appropriate profesional decision by taking into account ethical principles , social and environmental responsibilites. Communicate effectively on complex engineering activites through written, oral, visual and graphical forms to colleagues and society at large. Work in a team not only as a committed individual but also as a leader in achieving common goals in multi-disicplinary settings. Ability to adapt with the latest development within the biomedical engineering field for life long learning and continuous knowledge improvement. Demonstrate knowledge and understanding of management principles in biomedical engineering and be aware of the importance of entrepreneurship. Career Prospects Graduates of this course can find work opportunities in hospitals, companies involve in biomedical products, either manufacturing them, sales and service, or R&D, Ministry of Health, Malaysia, and any other party interested in health care. Among the job opportunities available to the biomedical engineer are: Government regulators to oversee the implementation of the Medical Devices Act when it is enacted. Engineers in hospitals or medical centers responsible for the procurement, maintenance and usage of medical devices. Sales engineer of biomedical devices. Engineers involve in R&D in biomedical engineering. Engineers to perform test and calibration services. Engineers involve in the manufacturing of medical devices. Engineers in the Ministry of Health,Malaysia,responsible for the planning,management and operation of the engineering services of the public health care sector. [-]