Module S2.2 - Biomedical Imaging II
Lecturer
Components of the module
- commented PowerPoint slides
- lecture videos
- script
- exercises/homework/assignments (https://moodle.uni-jena.de/course/view.php?id=12080)
- online MC questions (https://moodle.uni-jena.de/course/view.php?id=12080)
Please enrol to the module in Friedolin to get access to the moodle class!
Textbooks recommended for additional reading
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Maximilian F. Reiser, Wolfhard Semmler, H. Hricak (eds.) Magnetic Resonance Tomography, Spronger 2008, Chapter 2
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James Keeler. Understanding NMR Spectroscopy
(2nd ed), John Wiley & Sons 2010 -
Robert W. Brown, Norman Y.C. Cheng, E. Mark Haacke, Michael R. Thompson, Ramesh Venkatesan R, Magnetic Resonance Imaging: Physical Principles and Sequence Design (2nd ed) Wiley-Blackwell 2014
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Russell K, Hobbie, Bradley J. Roth. Intermediate Physics for Medicine and Biology (5th ed), Springer 2015, Chapter 18
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Wolfgang Drexler, James G. Fujimoto (Eds.). Optical Coherence Tomography – Technology and Applications (2nd ed), Springer 2015.
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Russell K, Hobbie, Bradley J. Roth. Intermediate Physics for Medicine and Biology (5th ed), Springer 2015, Chapter 13
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Paul L. Allan, Grant M. Baxter, Michael J. Weston (Eds.) Clinical Ultrasound (3rd ed), Elsevier 2011, Chapters 1-6
Further materials needed to study on the module
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Computer capable of running Python or MATLAB
Requirements to complete the module
- Self-study of virtual lectures
- regular work on the exercises, homework, computational assignments and submission of the solutions before the deadlines, where applicable
- For admission to exam at least 35% of the attainable points from all evaluated homework, computational assignments, tests, control questions etc. are required
Exam
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Date: t.b.a.
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Time: t.b.a.
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Location: t.b.a.