ENG4700 - Engineering technology for biomedical imaging and sensing

Leader(s): A Fouras

Offered

Clayton First semester 2009 (Day)

Synopsis

Introduction to biomedical engineering from the perspective of engineering based technologies of sensing and imaging. Topics include: basis of light and radiation, principles of synchrotron operation, practical study at the Australian synchrotron, human physiology for engineers, principles of detection and sensing of signals, biomedically relevant properties and phenomena.

The unit begins with an intensive lecture series culminating in a mid-semester examination. During this time project teams are formed and project proposals are developed. Project work continues with groups and individuals combining projects, allocated resources, knowledge and skills to develop a biomedical imaging device. The unit culminates in a test of this biomedical device at the Australian synchrotron.

Objectives

To instill:

• understanding of the basic physics of light and radiation
• working knowledge of synchrotrons
• familiarity with the basic human physiological systems
• an understanding of the physics and principles in the detection of radiation (including visible and X-ray light) and biomedical data

• project management skills in a technically complex environment
• the ability to independently conduct study that supports knowledge and skills gained in coursework
• the ability to apply knowledge and skills learned in coursework and independent study for the design of biomedical imgaing and sensing devices

Assessment

20% mid-semester Exam; 80% Project (student must pass both assessments to pass the subject)

Contact hours

Weeks 1-6: 4 hours lectures, 1 hour tutorials and 6 hours of private study
Weeks 7-12: 2 hours practical, 3 hours tutorials and 6 hours private study

Prerequisites

Completion of 144 credit points