Informatics and Image Processing G (10037.2)

Please note these are the 2022 details for this unit
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Informatics and Image Processing G
Available teaching periods Delivery mode Location
View teaching periods
EFTSL Credit points Faculty
0.125 3 Faculty Of Health
Discipline Study level HECS Bands
Discipline Of Medical Radiation Graduate Level Band 2 2021 (Commenced After 1 Jan 2021)
Band 3 2021 (Commenced Before 1 Jan 2021)
This unit introduces the computer applications in medical radiation science of digital image changes, digital image quality improvement and image data information, handling and storage. It covers the human observer in the chain of diagnostic imaging, image quality assessment, digital imaging processing and analysis, image reconstruction and visualisation, image data storage and communication and imaging informatics.

Learning outcomes

On successful completion of this unit, students will be able to:
1. Critically reflect physiological characteristics of the human observer and of human perception and the relationship of these in image observation and determination of image quality;
2. Identify principles underpinning the various forms of digital image processing techniques available in diagnostic imaging and demonstrate technical skills to manipulate images to improve image quality;
3. Apply a range of established practical skills in image processing techniques found in diagnostic imaging systems;
4. Compare and contrast image processing methods used in medical imaging to those used on other digital image processing areas;
5. Demonstrate an advanced understanding of digital images and the processes of image enhancement, display, storage, transmission, and retrieval systems; and
6. Critically analyse concepts of imaging informatics including computer assisted diagnosis.


Graduate attributes

1. UC graduates are professional - employ up-to-date and relevant knowledge and skills
1. UC graduates are professional - use creativity, critical thinking, analysis and research skills to solve theoretical and real-world problems
2. UC graduates are global citizens - make creative use of technology in their learning and professional lives
3. UC graduates are lifelong learners - evaluate and adopt new technology
3. UC graduates are lifelong learners - reflect on their own practice, updating and adapting their knowledge and skills for continual professional and academic development


Prerequisites

10046 Physical Principles of MRS G AND 10048 Radiographic Imaging 1 G

Corequisites

None.

Incompatible units

None.

Equivalent units

None.

Assumed knowledge

None.
Year Location Teaching period Teaching start date Delivery mode Unit convener
Not available

Required texts

No Specific text is set or required. There are many texts, including online texts, and web pages that will provide aditional reading on the topics.

Recommended reading

Baxes, GA, (1994) Digital image processing: Principles and applications, John Wiley and Son, Toronto (This is a 1994 text however this is the most approariate text for this level. The text that is available through the library online, check links on the Canvas site,)

Carter, C & Veale, B, (2018) Digital Radiography and PACS, 3rd Edn. Mosby, St. Louis

Huang, HK, (2009) PACS and Imaging Informatics: Basic Principles and Applications, 2nd Edn., Wiley-Blackwell, Toronto 

Word of caution when reading widely:
There is no set terminology in DIP. Many different authors have differing names for the same / similar DIP process. I will use what I think is the more common terminology, especially in medical radiations. Make sure you understand the underlying principle of the DIP process before you think it is different from another.

Learner engagement

Note: This unit is offered in a shortened study period, Winter Term (WT). WT is 7 weeks in duration compared to a standard semester of 12 weeks. The unit is 3 credit points (CP) in value, the same as units covered in other semesters. As such you need to spend more time per week in your study of this unit.

There are 3 hours of face to face lectures and 1.5 hours of labs on the stated weeks. It is expected that you will at least double that amount of time in self-directed learning, that is you should spend at least 13.5 hours / week in studying for this unit (4.5 lectures and labs, at least 9 hours of self-directed learning).

Inclusion and engagement

NIL

Participation requirements

Labs are scheduled to be undertaken in 27D25. There is no compulsory attendance of labs on-campus. You can undertake the lab activities at home, but the support for your lab practice will be limited and can be provided through Virtual Room at the scheduled lab times. 

You must submit responses to each online lab assessment task on time. Failure to do this will result in a zero mark being awarded for the Lab section's assessment.

Required IT skills

You will be required to work with the software ImageJ either on a PC or Mac.

Work placement, internships or practicums

Nil