Difference between revisions of "Benjamin Zwick"
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Email: [mailto:[email protected] [email protected]] | Email: [mailto:[email protected] [email protected]] | ||
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| + | LinkedIn: [https://www.linkedin.com/in/benzwick benzwick] | ||
Twitter: [https://twitter.com/bfzwick @bfzwick] #ISML_UWA | Twitter: [https://twitter.com/bfzwick @bfzwick] #ISML_UWA | ||
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<b>About Me</b> | <b>About Me</b> | ||
| − | As a member of the Intelligent Systems for Medicine Laboratory (ISML) at The University of Western Australia (UWA) I apply numerical modelling and finite element analysis to the solution of complex biomedical engineering problems. The objective of my research is to develop predictive models for clinical diagnosis and surgical planning that have the potential to improve patient outcomes for sufferers of brain injuries (brain oedema and swelling) and abdominal aortic aneurysms | + | As a member of the Intelligent Systems for Medicine Laboratory (ISML) at The University of Western Australia (UWA) I apply numerical modelling and finite element analysis to the solution of complex biomedical engineering problems. The objective of my research is to develop predictive models for clinical diagnosis and surgical planning that have the potential to improve patient outcomes for sufferers of brain injuries (brain oedema and swelling) and abdominal aortic aneurysms. |
Revision as of 03:52, 5 March 2017
Benjamin Zwick joined ISML in August 2013 to pursue a PhD under the supervision of Professors Karol Miller, Adam Wittek, Grand Joldes and Stuart Bunt.
Contact Details
Email: [email protected]
LinkedIn: benzwick
Twitter: @bfzwick #ISML_UWA
Research: Google scholar UWA Research Repository UWA Socrates
About Me
As a member of the Intelligent Systems for Medicine Laboratory (ISML) at The University of Western Australia (UWA) I apply numerical modelling and finite element analysis to the solution of complex biomedical engineering problems. The objective of my research is to develop predictive models for clinical diagnosis and surgical planning that have the potential to improve patient outcomes for sufferers of brain injuries (brain oedema and swelling) and abdominal aortic aneurysms.
