This discipline is an integration of Engineering, Basic Sciences, Medicine and Biology. It attempts to bridge toward modern technology while studying the principles and functions of living systems and applying biological and physiological data on the human body, Biomedical Engineering plays a significant role in different areas such as Biomedical Instrumentation, Modeling and Controlling Biologic Systems, Processing of Biologic Signals and Medical Images, Robotics in Medical Design, Neural Networks, Modeling of the Structure and Human Brain Functions, Rehabilitation Engineering and Artificial Organs. of this discipline is to educate and train bioelectrical engineering specialists as a The main objective member of clinical research and education centers or hospitals and to enable them to evaluate, select and observe the implementation of the following for clinical research and optimal application of medical equipment in clinical diagnosis and therapy:
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Evaluation, selection and application of new technological systems
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Management of preventive maintenance and repair of medical equipment
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Applied education of medical staff in clinics and hospitals
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Administration of technical hospital information system and collaborating with physicians, technicians and nurses
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Standardization of applied medical engineering systems
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Advancing the qualitative and quantitative aspects of patients diagnosis and therapy
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Provision of related expert and consulting services for the medical staff in hospitals and health centers performing advanced research in medical and engineering fields in order to develop new methods and techniques for design and production of medical diagnostic and therapeutic devices