MRS233 Digital Image Processing And Informatics (8)
Abstract
This subject deals with computer applications in medical radiation science including digital image quality improvement and image data information handling. It covers the human observer in the chain of diagnostic imaging, image quality assessment, digital imaging processing and analysis, computerised tomographic image reconstruction and visualisation, image data storage and communication and imaging informatics. |
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+ Subject Availability Modes and Location
Session 1 | Internal | Port Macquarie | Internal | Wagga Wagga Campus | Distance | Wagga Wagga Campus |
Continuing students should consult the SAL for current offering details: MRS233
Where differences exist between the Handbook and the SAL, the SAL should be taken as containing the correct subject offering details.
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Subject informationDuration | Grading System | School: |
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One session | HD/FL | School of Dentistry and Health Sciences |
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Learning OutcomesUpon successful completion of this subject, students should:
- be able to explain the basic relationship between the image form and the perceptual and physiological characteristics of the human observer.
- be able to analyse and explain the impact of both physical and human factors on the important concepts of digital image quality.
- be able to evaluate the architecture and components of a digital computer and the logical nature and function of software.
- be able to compare and contrast the basic principles underpinning the various forms of digital image processing techniques available in diagnostic imaging and be able to manipulate images to improve image quality.
- be able to explain the processes of image acquisition, enhancement, display, storage, transmission, and retrieval systems.
- be able to evaluate various tomographic image reconstruction and visualisation algorithms in diagnostic imaging.
- be able to explain the concepts of imaging informatics including computer assisted diagnosis.
- be able to apply a range of practical skills in image processing techniques found in diagnostic imaging systems.
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SyllabusThe subject will cover the following topics:
- The human observer: characteristics, limitations, basic psychophysics of human vision; colours in human vision and colour models; diagnostic imaging perception.
- Image quality: physical factors and measurements of image quality; signal to noise ratio (SNR); image display device and human influence on image quality; image quality assessment methodologies.
- Digital image fundamentals: computer hardware and software; digital image fundamentals; medical image formats; digital imaging systems.
- Digital image processing: contrast stretch; edge enhancement; noise reduction; smoothing; various spatial domain transforms and image enhancement techniques in frequency space.
- Image Analysis: simple feature detection; histograms; statistical analysis; region of interest; parametric imaging.
- Digital Tomographic image reconstruction and visualisation: Fourier transformation image reconstruction; filtered back projection image reconstruction; iterative image reconstruction; tomographic image visualisation; co-registration / fusion techniques.
- Digital image storage and communications: image storage media; image compression techniques; picture archiving and communication systems (PACS); digital image communication in medicine (DICOM).
- Imaging informatics: hospital and radiological information systems (HIS and RIS); diagnostic imaging workflow and integrated health empire (IHE); computer assisted diagnosis (CAD).
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The information contained in the 2016 CSU Handbook was accurate at the date of publication: 06 September 2016. The University reserves the right to vary the information at any time without notice.