[[File:BenjaminZwick.png|200px]]

Email: [mailto:benjamin.zwick@uwa.edu.au benjamin.zwick@uwa.edu.au]

LinkedIn: [https://www.linkedin.com/in/benzwick benzwick]

Twitter: [https://twitter.com/bfzwick @bfzwick] #ISML_UWA

Research:
<ul>
<li>[https://scholar.google.com.au/citations?&user=IgnxDvgAAAAJ Google scholar]</li>
<li>[https://research-repository.uwa.edu.au/en/persons/benjamin-zwick UWA Research Repository]</li>
<li>[https://www.scopus.com/authid/detail.uri?authorId=6602700600 Scopus]</li>

<li>[https://orcid.org/0000-0003-0184-1082 ORCID]</li>
</ul>

Software:
<ul>
<li>[https://gitlab.com/benzwick GitLab]</li>
<li>[https://github.com/benzwick GitHub]</li>
</ul>

Benjamin Zwick

2021-09-14T08:02:30Z

Karol:

Awards

2021-09-14T07:59:09Z

Karol: /* List of Awards obtained by ISML students */

__NOTOC__
==List of Awards obtained by ISML students==

# Andy Huynh (2021) F. Mosey Travel Scholarship.
# Saima Safdar (2020) Winner of MICCAI CBM XV International Workshop Best Paper Award founded by Springer.
# Kiara Beinart (2020) The William and Marlene Schrader Prize in Biomedical Engineering
# Ryley Macrae (2016) UWA Travel Award
# Maxim Esin (2016) Dean's List - Honourable Mention (Maxim was based in Rock Mechanics group, co-supervised by ISML members)
# Peter Teakle (2016) William and Marlene Schrader Prize in Biomedical Engineering
# Lachlan Kelsey (2016) Cover page image. Annals of Biomedical Engineering. Special Issue on Patient Specific Applications.
# Lachlan Kelsey (2015) University Club of Western Australia Research Travel Scholarship
# I Wayan Sadwika (2015) Best Presentation Award. 3rd International Conference on Science, Technology, Engineering and Management. Dubai.
# I Wayan Sadwika (2015) University of Western Australia Travel Award
# Mao Li (2014) Ken & Julie Michael Award (UWA Convocations Award).
# [[Sachin Man Bajimaya Shrestha]] (2012) received Bankwest Convocation Postgraduate Research Travel Award. 
# Stephen McAnearney (2010) won the best B.Eng. thesis award and Fulbright Scholarship. 
# [[Grand Joldes|Grand Joldes]] (2010) received distinction for his PhD thesis. 
# Jamie Berger (2008) was a runner-up for the best B.Eng. thesis award for “Coupling Finite Element and Mesh-free Methods for Modelling Brain Deformation in Response to Tumour Growth”. 
# Leith Morriss (2007) received the William and Marlene Schrader Prize in Biomedical Engineering for “Computation of Brain Deformation for Neuroimage Registration: Implementation of Efficient Brain-Skull Contact”. 
# Bin Liu (2007) received Schrader Postgraduate Scholarship. 
# [[Grand Joldes|Grand Joldes]] (2006) received Arub Prize for "Towards Non-linear Finite Element Computations in Real Time" presented at Computer Methods in Biomechanics and Biomedical Engineering Conference, Antibes, France. 
# Tonmoy Dutta Roy (2006) received Schrader Postgraduate Scholarship. 
# Trent Hawkins (2006) received William and Marlene Schrader Prize in Biomedical Engineering for the best thesis in biomedical engineering. 
# Dane Lance (2005) received the William and Marlene Schrader Prize in Biomedical Engineering for “FE algorithm for real time computation of soft tissue deformation”. 
# Stuart Munro (2004) received the best B.Eng. thesis award for “Modelling Fluid Dynamics Using FHP-type Cellular Automaton” and won Rhodes Scholarship. 
# Zeike Taylor (2001) was a runner-up in the best B.Eng. Thesis Award competition with work “Computer simulation of hydrocephalus”. 
# Michael Stock (2000) received the best B.Eng. Thesis Award for “The linear Delta robot”. 
# Nadine Frame (1999) received Hunka Price for the best B.Eng. Thesis in kinematics and dynamics “The Lagrange – based model of NUWAR dynamics”.

People

2021-07-24T03:25:35Z

Karol:

__NOTOC__
= Director: =
[https://school.mech.uwa.edu.au/kmiller/ Winthrop Prof. Karol Miller]

==Deputy Director:==

[[Adam Wittek | Professor Adam Wittek]] 

==Academic Staff:==
[https://www.socrates.uwa.edu.au/Staff/StaffProfile.aspx?Person=stuartbunt Professor Stuart Bunt (School of Anatomy, Physiology and Human Biology)] 
[https://www.uwa.edu.au/people/angus.tavner Associate Prof. Angus Tavner] 
[[Grand Joldes | Associate Prof. Grand Joldes]] 
[[George Bourantas | Dr George Bourantas]] 
[[Benjamin Zwick | Dr Benjamin Zwick]]

==PhD Students (more needed! attractive scholarships available!)):==

[[Sudip Agrawal]] 
[[Habib Chowdhury]] 
[[I Wayan Sadwika]] 
Daniel Tan 
[[Ryley Macree]] 
Saima Safdar 
Farah Alkhatib 
Stephen Lamb 
Yue Yu 

[[PhD Graduates]] 

==MSc Students (more needed!):==
We have ca. 30 masters students in our Lab

==Interns and long term visitors:==
Chris Noble from Sheffield University

Benjamin Zwick

2020-11-23T07:48:16Z

Karol:

Karol: /* MICCAI CBM Workshops */

__NOTOC__
[[File:Main_page_21-06-16.png|x450px]]

== '''Improving clinical outcomes through technology''' ==

'''Welcome!'''

Our mission is to work towards improving clinical outcomes through appropriate use of technology. We are interested in biomechanics (both engineering biomechanics and sport biomechanics), biomedical engineering, computer integrated surgery, medical robotics and related fields. We run exciting research projects in these areas, generously funded by The Australian Research Council and other agencies. We collaborate with many leading institutions, including Harvard Medical School, Lawrence Livermore National Laboratory, AIST Japan and Fraunhofer MEVIS. Within these projects opportunities exist to conduct research towards PhD and MSc by research degrees. Our research streams are:

* Biomechanics of the Brain headed by Professor [[Adam Wittek]].
* Computational Methods for Medicine headed by Associate Professor [[Grand Joldes]].
* Vascular biomechanics.

We are located at arguably one of the nicest university campuses in the world.

I hope you will find our work interesting!

=== Winthrop Prof. [[Karol Miller]] ===

School of Mechanical and Chemical Engineering

The University of Western Australia

35 Stirling Highway

Crawley WA 6009, AUSTRALIA

Phone:+(61)864888545

Email: karol.miller@uwa.edu.au

http://www.mech.uwa.edu.au/~kmiller/

The University of Western Australia

= News =

==Biomechanics Meets Robotics==
One our latest research project "Biomechanics Meets Robotics: Integrated Methods for Accurate and Fast Needle Targeting in Soft Tissues" (research project supported by the Australian Research Council Discovery Grant DP160100714).

==Lachlan Kelsey's project featured in CD-Adapco (STAR-CCM+)==
Lachlan Kelsey's final year project thesis has featured on the [http://www.cd-adapco.com/thesis/haemodynamics-and-site-specificity-aneurysmal-disease-iliac-arteries CD-Adapco (STAR-CCM+) website]

==Karol Miller edited the issue in the Annals of Biomedical Engineering==
[[File:Annals1.jpg|x250px| link=http://link.springer.com/journal/10439/44/1/page/1]]

== MICCAI CBM Workshops ==

[[File:miccai-2020-logo.png|300px]]

'''Computational Biomechanics for Medicine XV. A MICCAI 2020 Workshop, Lima, Peru, September 2018'''

[http://www.miccai2020.org MICCAI 2020], the 23rd International Conference on Medical Image Computing and Computer Assisted Intervention, will be held from October 4th to 8th, 2020 in Lima, Peru.

[[File:miccai_cbm_2019.png|300px]]

'''Computational Biomechanics for Medicine XIV. A MICCAI 2019 Workshop, Shenzhen, China, October 13, 2019'''

[http://www.miccai2019.org MICCAI 2019], the 22nd International Conference on Medical Image Computing and Computer Assisted Intervention, was held from October 13th to 17th, 2019 in Shenzhen, China.

[[File:miccai-2018-logo.png|300px]]

'''Computational Biomechanics for Medicine XIII. A MICCAI 2018 Workshop, Granada, Spain, September 2018'''

[http://www.miccai2018.org MICCAI 2018], the 21st International Conference on Medical Image Computing and Computer Assisted Intervention, was held from September 16th to 20th, 2018 in Granada, Spain.

[[File:miccai2017_logo.png|300px]]

'''Computational Biomechanics for Medicine XII. A MICCAI 2017 Workshop, Quebec City, Canada, 14th September 2017'''

Mathematical modelling and computer simulation have had a profound impact on science and proved tremendously successful in engineering. One of the greatest challenges for mechanists is to extend the success of computational mechanics beyond traditional engineering, in particular to medicine and biomedical sciences. The Computational Biomechanics for Medicine workshops provide an opportunity for researchers to present and exchange ideas on applying their techniques to computer-integrated medicine, which includes MICCAI topics of Medical Image Computing, Computer-Aided Modeling and Evaluation of Surgical Procedures, and Imaging, Analysis Methods for Image Guided Therapies, Computational Physiology, and Medical Robotics. For example, continuum mechanics models provide a rational basis for analysing medical images by constraining the solution to biologically plausible motions and processes. Biomechanical modelling can also provide clinically important information about the physical status of the underlying biology, integrating information across molecular, tissue, organ, and organism scales.

The main goal of this workshop is to showcase the clinical and scientific utility of computational biomechanics in computer-integrated medicine.

== Director Receives Research Awards ==

Winthrop Professor Karol Miller has been elected laureate of Humboldt Research Award for his pioneering work in the field of biomechanics of soft tissues for surgical simulation, details here. He has also received vice chancellor's research award.

== [http://robohub.org/robots-computer-assisted-surgery/ Robohub] Podcast: Prof. Karol Miller ==

[http://robohub.org/robots-computer-assisted-surgery/ Follow this link] to hear W/Prof. Karol Miller talk about medical robotics, mathematical models of soft tissue (brain, liver, etc.) that can be used for robot-assisted surgery by providing fast and accurate feedback and challenges in making surgery fully autonomous.

== ISML Scholarship in Computational Biomechanics for Medicine ==

ISML Scholarship in Computational Biomechanics for Medicine will be offered to outstanding PhD candidates undertaking research in Intelligent Systems for Medicine Laboratory. It is open to both domestic and international applicants. The value of the Scholarship is A$10000 per annum. For further information contact ISML academics or visit the [http://www.scholarships.uwa.edu.au/search?sc_view=1&id=3201&page=4&ApplicationStatus=-1&StudyLevel=4&StudyArea=187&AwardBasis=-1&Nationality=-1&old_key=-14-1187-1&page1=1&page2=4 UWA scholarship page]

== Director Awarded for Excellent Research Supervision ==

W/Prof. Karol Miller has been awarded [[Excellence Award|Teaching Excellence and Research Supervision]] by faculty of Engineering, Computing and Mathematics, The University of Western Australia.

== Articles ==

* [[EA|Applying mechanical models to surgery (Engineers Australia Magazine)]]

* [http://www.theaustralian.com.au/news/health-science/australian-researchers-developing-breakthrough-treatment-for-epilepsy/news-story/b1055185e58912df6acb8fdfa7ebcbe0 Australian researchers developing breakthrough treatment for epilepsy (The Australian)]

== Another Award Wining Paper ==

Assoc. Prof. Adam Wittek and W/Prof. Karol Miller have been awarded Sir George Julius medal for their paper:

[http://www.sciencedirect.com/science/article/pii/S002192900600090X “Patient –Specific Model of Brain Deformation: Application to Medical Image Registration” J. Biomechanics vol. 40, pp. 919-929.]

This trend-setting paper demonstrates and confirms the utility of engineering computations in image-guided surgery. The paper is ranked 10 among ~10000 biomechanics articles published since 2007. Institution of Engineers Australia has judged this paper to be one of the most influential in the last five years.

File:Miccai-2020-logo.png

2019-11-27T08:31:44Z

Karol:

File:Miccai cbm 2019.png

2019-11-27T08:30:03Z

Karol:

ISML Main Page

2019-11-27T08:29:45Z

Karol: /* MICCAI CBM Workshops */

__NOTOC__
[[File:Main_page_21-06-16.png|x450px]]

== '''Improving clinical outcomes through technology''' ==

'''Welcome!'''

Our mission is to work towards improving clinical outcomes through appropriate use of technology. We are interested in biomechanics (both engineering biomechanics and sport biomechanics), biomedical engineering, computer integrated surgery, medical robotics and related fields. We run exciting research projects in these areas, generously funded by The Australian Research Council and other agencies. We collaborate with many leading institutions, including Harvard Medical School, Lawrence Livermore National Laboratory, AIST Japan and Fraunhofer MEVIS. Within these projects opportunities exist to conduct research towards PhD and MSc by research degrees. Our research streams are:

* Biomechanics of the Brain headed by Professor [[Adam Wittek]].
* Computational Methods for Medicine headed by Associate Professor [[Grand Joldes]].
* Vascular biomechanics.

We are located at arguably one of the nicest university campuses in the world.

I hope you will find our work interesting!

=== Winthrop Prof. [[Karol Miller]] ===

School of Mechanical and Chemical Engineering

The University of Western Australia

35 Stirling Highway

Crawley WA 6009, AUSTRALIA

Phone:+(61)864888545

Email: karol.miller@uwa.edu.au

http://www.mech.uwa.edu.au/~kmiller/

The University of Western Australia

= News =

==Biomechanics Meets Robotics==
One our latest research project "Biomechanics Meets Robotics: Integrated Methods for Accurate and Fast Needle Targeting in Soft Tissues" (research project supported by the Australian Research Council Discovery Grant DP160100714).

==Lachlan Kelsey's project featured in CD-Adapco (STAR-CCM+)==
Lachlan Kelsey's final year project thesis has featured on the [http://www.cd-adapco.com/thesis/haemodynamics-and-site-specificity-aneurysmal-disease-iliac-arteries CD-Adapco (STAR-CCM+) website]

==Karol Miller edited the issue in the Annals of Biomedical Engineering==
[[File:Annals1.jpg|x250px| link=http://link.springer.com/journal/10439/44/1/page/1]]

== MICCAI CBM Workshops ==

[[File:miccai-2018-logo.png|300px]]

'''Computational Biomechanics for Medicine XIII. A MICCAI 2018 Workshop, Granada, Spain, September 2018'''

[http://www.miccai2018.org MICCAI 2018], the 21st International Conference on Medical Image Computing and Computer Assisted Intervention, will be held from September 16th to 20th, 2018 in Granada, Spain.

[[File:miccai_cbm_2019.png|300px]]

'''Computational Biomechanics for Medicine XIV. A MICCAI 2019 Workshop, Shenzhen, China, October 13, 2019'''

[http://www.miccai2019.org MICCAI 2019], the 22nd International Conference on Medical Image Computing and Computer Assisted Intervention, was held from October 13th to 17th, 2019 in Shenzhen, China.

[[File:miccai-2018-logo.png|300px]]

'''Computational Biomechanics for Medicine XIII. A MICCAI 2018 Workshop, Granada, Spain, September 2018'''

[http://www.miccai2018.org MICCAI 2018], the 21st International Conference on Medical Image Computing and Computer Assisted Intervention, was held from September 16th to 20th, 2018 in Granada, Spain.

[[File:miccai2017_logo.png|300px]]

'''Computational Biomechanics for Medicine XII. A MICCAI 2017 Workshop, Quebec City, Canada, 14th September 2017'''

Mathematical modelling and computer simulation have had a profound impact on science and proved tremendously successful in engineering. One of the greatest challenges for mechanists is to extend the success of computational mechanics beyond traditional engineering, in particular to medicine and biomedical sciences. The Computational Biomechanics for Medicine workshops provide an opportunity for researchers to present and exchange ideas on applying their techniques to computer-integrated medicine, which includes MICCAI topics of Medical Image Computing, Computer-Aided Modeling and Evaluation of Surgical Procedures, and Imaging, Analysis Methods for Image Guided Therapies, Computational Physiology, and Medical Robotics. For example, continuum mechanics models provide a rational basis for analysing medical images by constraining the solution to biologically plausible motions and processes. Biomechanical modelling can also provide clinically important information about the physical status of the underlying biology, integrating information across molecular, tissue, organ, and organism scales.

The main goal of this workshop is to showcase the clinical and scientific utility of computational biomechanics in computer-integrated medicine.

== Director Receives Research Awards ==

Winthrop Professor Karol Miller has been elected laureate of Humboldt Research Award for his pioneering work in the field of biomechanics of soft tissues for surgical simulation, details here. He has also received vice chancellor's research award.

== [http://robohub.org/robots-computer-assisted-surgery/ Robohub] Podcast: Prof. Karol Miller ==

[http://robohub.org/robots-computer-assisted-surgery/ Follow this link] to hear W/Prof. Karol Miller talk about medical robotics, mathematical models of soft tissue (brain, liver, etc.) that can be used for robot-assisted surgery by providing fast and accurate feedback and challenges in making surgery fully autonomous.

== ISML Scholarship in Computational Biomechanics for Medicine ==

ISML Scholarship in Computational Biomechanics for Medicine will be offered to outstanding PhD candidates undertaking research in Intelligent Systems for Medicine Laboratory. It is open to both domestic and international applicants. The value of the Scholarship is A$10000 per annum. For further information contact ISML academics or visit the [http://www.scholarships.uwa.edu.au/search?sc_view=1&id=3201&page=4&ApplicationStatus=-1&StudyLevel=4&StudyArea=187&AwardBasis=-1&Nationality=-1&old_key=-14-1187-1&page1=1&page2=4 UWA scholarship page]

== Director Awarded for Excellent Research Supervision ==

W/Prof. Karol Miller has been awarded [[Excellence Award|Teaching Excellence and Research Supervision]] by faculty of Engineering, Computing and Mathematics, The University of Western Australia.

== Articles ==

* [[EA|Applying mechanical models to surgery (Engineers Australia Magazine)]]

* [http://www.theaustralian.com.au/news/health-science/australian-researchers-developing-breakthrough-treatment-for-epilepsy/news-story/b1055185e58912df6acb8fdfa7ebcbe0 Australian researchers developing breakthrough treatment for epilepsy (The Australian)]

== Another Award Wining Paper ==

Assoc. Prof. Adam Wittek and W/Prof. Karol Miller have been awarded Sir George Julius medal for their paper:

[http://www.sciencedirect.com/science/article/pii/S002192900600090X “Patient –Specific Model of Brain Deformation: Application to Medical Image Registration” J. Biomechanics vol. 40, pp. 919-929.]

This trend-setting paper demonstrates and confirms the utility of engineering computations in image-guided surgery. The paper is ranked 10 among ~10000 biomechanics articles published since 2007. Institution of Engineers Australia has judged this paper to be one of the most influential in the last five years.

ISML Main Page

2019-11-27T08:25:45Z

Karol: /* MICCAI CBM Workshops */

__NOTOC__
[[File:Main_page_21-06-16.png|x450px]]

== '''Improving clinical outcomes through technology''' ==

'''Welcome!'''

Our mission is to work towards improving clinical outcomes through appropriate use of technology. We are interested in biomechanics (both engineering biomechanics and sport biomechanics), biomedical engineering, computer integrated surgery, medical robotics and related fields. We run exciting research projects in these areas, generously funded by The Australian Research Council and other agencies. We collaborate with many leading institutions, including Harvard Medical School, Lawrence Livermore National Laboratory, AIST Japan and Fraunhofer MEVIS. Within these projects opportunities exist to conduct research towards PhD and MSc by research degrees. Our research streams are:

* Biomechanics of the Brain headed by Professor [[Adam Wittek]].
* Computational Methods for Medicine headed by Associate Professor [[Grand Joldes]].
* Vascular biomechanics.

We are located at arguably one of the nicest university campuses in the world.

I hope you will find our work interesting!

=== Winthrop Prof. [[Karol Miller]] ===

School of Mechanical and Chemical Engineering

The University of Western Australia

35 Stirling Highway

Crawley WA 6009, AUSTRALIA

Phone:+(61)864888545

Email: karol.miller@uwa.edu.au

http://www.mech.uwa.edu.au/~kmiller/

The University of Western Australia

= News =

==Biomechanics Meets Robotics==
One our latest research project "Biomechanics Meets Robotics: Integrated Methods for Accurate and Fast Needle Targeting in Soft Tissues" (research project supported by the Australian Research Council Discovery Grant DP160100714).

==Lachlan Kelsey's project featured in CD-Adapco (STAR-CCM+)==
Lachlan Kelsey's final year project thesis has featured on the [http://www.cd-adapco.com/thesis/haemodynamics-and-site-specificity-aneurysmal-disease-iliac-arteries CD-Adapco (STAR-CCM+) website]

==Karol Miller edited the issue in the Annals of Biomedical Engineering==
[[File:Annals1.jpg|x250px| link=http://link.springer.com/journal/10439/44/1/page/1]]

== MICCAI CBM Workshops ==

[[File:miccai-2018-logo.png|300px]]

'''Computational Biomechanics for Medicine XIII. A MICCAI 2018 Workshop, Granada, Spain, September 2018'''

[http://www.miccai2018.org MICCAI 2018], the 21st International Conference on Medical Image Computing and Computer Assisted Intervention, will be held from September 16th to 20th, 2018 in Granada, Spain.

[[File:miccai-2018-logo.png|300px]]

'''Computational Biomechanics for Medicine XIII. A MICCAI 2018 Workshop, Granada, Spain, September 2018'''

[http://www.miccai2018.org MICCAI 2018], the 21st International Conference on Medical Image Computing and Computer Assisted Intervention, was held from September 16th to 20th, 2018 in Granada, Spain.

[[File:miccai-2018-logo.png|300px]]

'''Computational Biomechanics for Medicine XIII. A MICCAI 2018 Workshop, Granada, Spain, September 2018'''

[http://www.miccai2018.org MICCAI 2018], the 21st International Conference on Medical Image Computing and Computer Assisted Intervention, was held from September 16th to 20th, 2018 in Granada, Spain.

[[File:miccai2017_logo.png|300px]]

'''Computational Biomechanics for Medicine XII. A MICCAI 2017 Workshop, Quebec City, Canada, 14th September 2017'''

Mathematical modelling and computer simulation have had a profound impact on science and proved tremendously successful in engineering. One of the greatest challenges for mechanists is to extend the success of computational mechanics beyond traditional engineering, in particular to medicine and biomedical sciences. The Computational Biomechanics for Medicine workshops provide an opportunity for researchers to present and exchange ideas on applying their techniques to computer-integrated medicine, which includes MICCAI topics of Medical Image Computing, Computer-Aided Modeling and Evaluation of Surgical Procedures, and Imaging, Analysis Methods for Image Guided Therapies, Computational Physiology, and Medical Robotics. For example, continuum mechanics models provide a rational basis for analysing medical images by constraining the solution to biologically plausible motions and processes. Biomechanical modelling can also provide clinically important information about the physical status of the underlying biology, integrating information across molecular, tissue, organ, and organism scales.

The main goal of this workshop is to showcase the clinical and scientific utility of computational biomechanics in computer-integrated medicine.

== Director Receives Research Awards ==

Winthrop Professor Karol Miller has been elected laureate of Humboldt Research Award for his pioneering work in the field of biomechanics of soft tissues for surgical simulation, details here. He has also received vice chancellor's research award.

== [http://robohub.org/robots-computer-assisted-surgery/ Robohub] Podcast: Prof. Karol Miller ==

[http://robohub.org/robots-computer-assisted-surgery/ Follow this link] to hear W/Prof. Karol Miller talk about medical robotics, mathematical models of soft tissue (brain, liver, etc.) that can be used for robot-assisted surgery by providing fast and accurate feedback and challenges in making surgery fully autonomous.

== ISML Scholarship in Computational Biomechanics for Medicine ==

ISML Scholarship in Computational Biomechanics for Medicine will be offered to outstanding PhD candidates undertaking research in Intelligent Systems for Medicine Laboratory. It is open to both domestic and international applicants. The value of the Scholarship is A$10000 per annum. For further information contact ISML academics or visit the [http://www.scholarships.uwa.edu.au/search?sc_view=1&id=3201&page=4&ApplicationStatus=-1&StudyLevel=4&StudyArea=187&AwardBasis=-1&Nationality=-1&old_key=-14-1187-1&page1=1&page2=4 UWA scholarship page]

== Director Awarded for Excellent Research Supervision ==

W/Prof. Karol Miller has been awarded [[Excellence Award|Teaching Excellence and Research Supervision]] by faculty of Engineering, Computing and Mathematics, The University of Western Australia.

== Articles ==

* [[EA|Applying mechanical models to surgery (Engineers Australia Magazine)]]

* [http://www.theaustralian.com.au/news/health-science/australian-researchers-developing-breakthrough-treatment-for-epilepsy/news-story/b1055185e58912df6acb8fdfa7ebcbe0 Australian researchers developing breakthrough treatment for epilepsy (The Australian)]

== Another Award Wining Paper ==

Assoc. Prof. Adam Wittek and W/Prof. Karol Miller have been awarded Sir George Julius medal for their paper:

[http://www.sciencedirect.com/science/article/pii/S002192900600090X “Patient –Specific Model of Brain Deformation: Application to Medical Image Registration” J. Biomechanics vol. 40, pp. 919-929.]

This trend-setting paper demonstrates and confirms the utility of engineering computations in image-guided surgery. The paper is ranked 10 among ~10000 biomechanics articles published since 2007. Institution of Engineers Australia has judged this paper to be one of the most influential in the last five years.

Books

2019-11-27T08:21:48Z

Karol: /* Computational Biomechanics for Medicine --- Fundamental Science and Patient-specific Applications */

__NOTOC__
{|

|-
|[[Image:9783030049959.jpg|x250px|link=https://www.springer.com/gp/book/9783030049959]]||
=Biomechanics of the Brain=

[[Karol_Miller| Miller, Karol]] (Ed.)

2019, VIII, 353 p. 166 illus. 116 in color.

Hardcover, <nowiki>ISBN 978-3-030-04995-9</nowiki>

[https://www.springer.com/gp/book/9783030049959 Order from Springer]

|-
|[[Image:9783030159221.jpg|x250px|link=https://www.springer.com/gp/book/9783030159221]]||
=Computational Biomechanics for Medicine --- Personalisation, Validation and Therapy=

Nash, Martyn P.; Nielsen, Poul M.F.; [[Adam_Wittek| Wittek, Adam]]; [[Karol_Miller| Miller, Karol]]; [[Grand_Joldes | Joldes, Grand R.]] (Eds.)

2020, VIII, 149 p. 60 illus. 48 in color.

Hardcover, <nowiki>ISBN 978-3-030-15922-1</nowiki>

[https://www.springer.com/gp/book/9783030159221 Order from Springer]

|-
|[[Image:9783319755885.jpg|x250px|link=https://www.springer.com/gp/book/9783319755885]]||
=Computational Biomechanics for Medicine --- Measurements, Models, and Predictions=

Nielsen, Poul M.F.; [[Adam_Wittek| Wittek, Adam]]; [[Karol_Miller| Miller, Karol]]; Doyle, Barry; [[Grand_Joldes | Joldes, Grand R.]]; Nash, Martyn P. (Eds.)

2019, VIII, 166 p. 70 illus. 53 in color.

Hardcover, <nowiki>ISBN 978-3-319-75588-5</nowiki>

[https://www.springer.com/gp/book/9783319755885 Order from Springer]

|-
|[[Image:9783319544809.jpg|x250px|link=https://www.springer.com/gp/book/9783319544809]]||
=Computational Biomechanics for Medicine --- From Algorithms to Models and Applications=

[[Adam_Wittek| Wittek, Adam]]; [[Grand_Joldes | Joldes, Grand R.]]; Nielsen, Poul M.F.; Doyle, Barry; [[Karol_Miller| Miller, Karol]] (Eds.)

2017, VIII, 173 p. 86 illus. 78 in color.

Hardcover, <nowiki>ISBN 978-3-319-54480-9</nowiki>

[https://www.springer.com/gp/book/9783319544809 Order from Springer]

|-
|[[Image:9783319283272.jpg|x250px|link=https://www.springer.com/gp/book/9783319283272]]||
=Computational Biomechanics for Medicine --- Imaging, Modeling and Computing=

[[Grand_Joldes | Joldes, Grand R.]]; Doyle, Barry; [[Adam_Wittek| Wittek, Adam]]; Nielsen, Poul M.F.; [[Karol_Miller| Miller, Karol]] (Eds.)

2016, XV, 203 p. 93 illus. 85 in color.

Hardcover,<nowiki>ISBN 978-3-319-28327-2</nowiki>

[https://www.springer.com/gp/book/9783319283272 Order from Springer]

|-
|[[Image:9783319155029.jpg|x250px|link=https://www.springer.com/gp/book/9783319155029]]||
=Computational Biomechanics for Medicine --- New Approaches and New Applications=

Doyle, Barry; [[Karol_Miller| Miller, Karol]]; [[Adam_Wittek| Wittek, Adam]]; Nielsen, Poul M.F. (Eds.)

2015, VIII, 139 p. 69 illus. 65 in color.

Hardcover,<nowiki>ISBN 978-3-319-15502-9</nowiki>

[https://www.springer.com/gp/book/9783319155029 Order from Springer]

|-
|[[Image:cbm13.jpg|x250px|link=http://www.springer.com/gp/book/9781493907441]]||
=Computational Biomechanics for Medicine --- Fundamental Science and Patient-specific Applications=

Doyle, Barry; [[Karol_Miller| Miller, Karol]]; [[Adam_Wittek| Wittek, Adam]]; Nielsen, Poul M.F. (Eds.)

2014, VIII, 122 p. 58 illus. 41 in color.

Hardcover,<nowiki>ISBN 978-1-4939-0745-8</nowiki>

[http://www.springer.com/gp/book/9781493907441 Order from Springer]
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|[[Image:978-1-4614-3171-8.jpg|x250px|link=http://www.springer.com/engineering/biomedical+eng/book/978-1-4614-3171-8]]||

=Computational Biomechanics for Medicine --- Deformation and Flow=

Nielsen, Poul M.F; [[Adam_Wittek| Wittek, Adam]]; [[Karol_Miller| Miller, Karol]]. (Eds.)

2012, XV, 100 p. 47 illus. 43 in color.

Hardcover,<nowiki>ISBN 978-1-4614-3171-8</nowiki>

[http://www.springer.com/engineering/biomedical+eng/book/978-1-4614-3171-8 Order from Springer]
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|[[Image:Biomechanics of the brain.jpg|x250px|link=http://www.springer.com/physics/biophysics+%26+biological+physics/book/978-1-4419-9996-2]]||
=Biomechanics of the Brain =

[http://www.news.uwa.edu.au/201108013770/international/brain-biomecanics-book-outlines-new-lifesaving-techniques The very first comprehensive reference book about the biomechanics of the brain!]

Series: [http://www.springer.com/series/3740 Biological and Medical Physics, Biomedical Engineering]

[[Karol_Miller| Miller, Karol]] (Ed.)

2011, <nowiki>ISBN 978-1-4419-9996-2</nowiki>, Hardcover

[http://www.springer.com/physics/biophysics+%26+biological+physics/book/978-1-4419-9996-2 Order from Springer]
|-
|[[Image:Computational-biomechanics-for-medicine.jpg|x250px|link=http://www.springer.com/engineering/biomedical+eng/book/978-1-4419-5873-0]]||

=Computational Biomechanics for Medicine --- Soft Tissues and the Musculoskeletal System=

[[Adam_Wittek| Wittek, Adam]]; Nielsen, Poul M.F.; [[Karol_Miller| Miller, Karol]] (Eds.)

150 pages, 100 images, 1 edition etc.

1st Edition., 2011, XII, 155 p. 103 illus., 49 in color.

Hardcover,<nowiki> ISBN 978-1-4419-9618-3</nowiki>

[http://www.springer.com/engineering/biomedical+eng/book/978-1-4419-9618-3 Order from Springer]
|-
|[[Image:CBM.jpg|x250px|link=http://www.springer.com/engineering/biomedical+eng/book/978-1-4419-5873-0]]||

=Computational Biomechanics for Medicine=

[[Karol_Miller| Miller, Karol]]; Nielsen, Poul M.F. (Eds.)

1st Edition., 2010, XII, 146 p. 60 illus. in color.

Hardcover,<nowiki> ISBN 978-1-4419-5873-0</nowiki>

[http://www.springer.com/engineering/biomedical+eng/book/978-1-4419-5873-0 Order from Springer]
|-

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Karol:

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Karol:

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Karol:

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Karol: