http://isml.ecm.uwa.edu.au/ISML/api.php?action=feedcontributions&feedformat=atom&user=Sebastian+DaszkiewiczISML - User contributions [en]2026-05-14T04:10:08ZUser contributionsMediaWiki 1.26.2http://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Isml-no-03-2006.pdf&diff=293File:Isml-no-03-2006.pdf2016-04-22T00:32:59Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=MediaWiki:Sidebar&diff=292MediaWiki:Sidebar2016-04-21T07:30:16Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>*<br />
** Main Page|Home Page<br />
** news|News <br />
** people|People<br />
** collaboration|Collaborations<br />
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* <br />
** books|Books<br />
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** Archived_Reports|Research Reports<br />
* More<br />
** Visiting|Visiting the ISML<br />
** contact|Contact us<br />
** giving|Giving<br />
** http://school.mech.uwa.edu.au/ISML/archive/|Web Archive<br />
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* SEARCH<br />
* TOOLBOX</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=MediaWiki:Sidebar&diff=291MediaWiki:Sidebar2016-04-21T07:29:59Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>*<br />
** Main Page|Home Page<br />
** news|News <br />
** overview|Overview<br />
** people|People<br />
** collaboration|Collaborations<br />
** awards|Awards<br />
* <br />
** books|Books<br />
** https://www.socrates.uwa.edu.au/Staff/StaffProfile.aspx?Person=KarolMiller&tab=publications|Publications<br />
** Archived_Reports|Research Reports<br />
* More<br />
** Visiting|Visiting the ISML<br />
** contact|Contact us<br />
** giving|Giving<br />
** http://school.mech.uwa.edu.au/ISML/archive/|Web Archive<br />
<br />
* SEARCH<br />
* TOOLBOX</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=MediaWiki:Sidebar&diff=290MediaWiki:Sidebar2016-04-21T07:29:32Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>*<br />
** Main Page|Home Page<br />
** news|News <br />
** overview|Overview<br />
** people|People<br />
** collaboration|Collaborations<br />
** awards|Awards<br />
* <br />
** books|Books<br />
** https://www.socrates.uwa.edu.au/Staff/StaffProfile.aspx?Person=KarolMiller&tab=publications|Publications<br />
** Archived_Reports|Research Reports<br />
* More<br />
** Visiting|Visiting the ISML<br />
** contact|Contact us<br />
** giving|Giving<br />
** http://school.mech.uwa.edu.au/ISML/archive/|Web Archive<br />
<br />
* SEARCH<br />
<br />
* administration<br />
** recentchanges-url|recentchanges<br />
** helppage|help<br />
* TOOLBOX</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=MediaWiki:Sidebar&diff=289MediaWiki:Sidebar2016-04-21T07:28:16Z<p>Sebastian Daszkiewicz: </p>
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<div>*<br />
** Main Page|Home Page<br />
** news|News <br />
** overview|Overview<br />
** people|People<br />
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** awards|Awards<br />
* <br />
** books|Books<br />
** https://www.socrates.uwa.edu.au/Staff/StaffProfile.aspx?Person=KarolMiller&tab=publications|Publications<br />
** Archived_Reports|Research Reports<br />
* More<br />
** Visiting|Visiting the ISML<br />
** contact|Contact us<br />
** giving|Giving<br />
** http://school.mech.uwa.edu.au/ISML/archive/|Web Archive<br />
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* navigation<br />
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* LANGUAGES</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Support_us&diff=288Support us2016-04-21T07:26:33Z<p>Sebastian Daszkiewicz: /* What you can do */</p>
<hr />
<div>__NOTOC__<br />
==Supporting the Intelligence Systems for Medicine Laboratory==<br />
===A message from the ISML's Director, Winthrop Prof. [[Karol Miller]]===<br />
[[File:Miller 2009.jpg|400px|right]]<br />
'''Dear Visitor''',<br><br />
Since 1996, the Intelligence Systems for Medicine Laboratory has been one of the world's leaders in applying academic research in biomechanical and numerical methods to the challenges of "real-world" medicine. Are you interested in enabling new breakthroughs in medicine using advanced biomechanical techniques? If so, please consider becoming a part of our team by making a charitable, tax-deductible gift to support our ongoing research and development programs.<br />
<br />
==Consider the unique environment you will help to prosper:==<br />
A interdisciplinary incubator for medicine technology<br />
<br />
The ISML enables an interdisciplinary team of engineering researchers, computer scientists, applied mathematicians, and software engineers to bring the power of computational science and information technologies to bear on a wide range of unsolved medical challenges in specialties such as neurosurgery, cancer research.<br />
==Rapid development of new ideas==<br />
<br />
Throughout its history, the ISML has provided the tools, techniques, and personnel to help physicians and researchers rapidly develop and evaluate new applications for medicine. The ISML's computational environment, accomplished core research team, and accumulated experience in research and develop reduce the time and cost of new research, reduce duplication of effort, and help limited grant funds go further. At the same time, the ISML's strong medical collaborations encourage a pragmatic, practical development approach that encourages tested, robust results.<br />
==Focus on the future==<br />
<br />
The ISML's core capabilities enable medical professionals to focus less on the details of image handling and computational requirements and more on the fundamental questions of understanding disease and providing better patient care. The ever-increasing richness of information available from today's medical imaging technologies only increases the value of, and need for, the ISML's approach to interdisciplinary development.<br />
<br />
==The need for private funding==<br />
<br />
The majority of the ISML's work is funded through grants from the Australia government(ARC & NHMRC). While this government sponsorship is critically important, particularly for ongoing research and clinical studies, it is poorly suited for initiating new projects and encouraging the evaluation of early ideas, exactly the kind of potential breakthrough research that the ISML enables. The cumbersome nature of the government grant application and review process further delays some of the newest and most innovative early developments in medicine and medical computation.<br />
==What you can do==<br />
If you share our vision of the future of medicine, we encourage you to work with us to make it a reality. <br><br />
If I can answer any questions or provide additional information, please contact me directly at +(61) 8 6488 8545 , or via email to karol.miller@uwa.edu.au <br><br />
You may also consult the [http://www.development.uwa.edu.au/donate/annual UWA's donation pages] for more information. Please specify that the Intelligence Systems for Medicine Laboratory, School of Mechanical and Chemical Engineering, should be the sole recipient of your donation.<br><br />
Thank you for your interest and your support.<br><br />
<br><br />
'''Sincerely''',<br><br />
Winthrop Prof. [[Karol Miller]], Director of the Intelligent Systems for Medicine Lab</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Support_us&diff=287Support us2016-04-21T07:26:15Z<p>Sebastian Daszkiewicz: /* What you can do */</p>
<hr />
<div>__NOTOC__<br />
==Supporting the Intelligence Systems for Medicine Laboratory==<br />
===A message from the ISML's Director, Winthrop Prof. [[Karol Miller]]===<br />
[[File:Miller 2009.jpg|400px|right]]<br />
'''Dear Visitor''',<br><br />
Since 1996, the Intelligence Systems for Medicine Laboratory has been one of the world's leaders in applying academic research in biomechanical and numerical methods to the challenges of "real-world" medicine. Are you interested in enabling new breakthroughs in medicine using advanced biomechanical techniques? If so, please consider becoming a part of our team by making a charitable, tax-deductible gift to support our ongoing research and development programs.<br />
<br />
==Consider the unique environment you will help to prosper:==<br />
A interdisciplinary incubator for medicine technology<br />
<br />
The ISML enables an interdisciplinary team of engineering researchers, computer scientists, applied mathematicians, and software engineers to bring the power of computational science and information technologies to bear on a wide range of unsolved medical challenges in specialties such as neurosurgery, cancer research.<br />
==Rapid development of new ideas==<br />
<br />
Throughout its history, the ISML has provided the tools, techniques, and personnel to help physicians and researchers rapidly develop and evaluate new applications for medicine. The ISML's computational environment, accomplished core research team, and accumulated experience in research and develop reduce the time and cost of new research, reduce duplication of effort, and help limited grant funds go further. At the same time, the ISML's strong medical collaborations encourage a pragmatic, practical development approach that encourages tested, robust results.<br />
==Focus on the future==<br />
<br />
The ISML's core capabilities enable medical professionals to focus less on the details of image handling and computational requirements and more on the fundamental questions of understanding disease and providing better patient care. The ever-increasing richness of information available from today's medical imaging technologies only increases the value of, and need for, the ISML's approach to interdisciplinary development.<br />
<br />
==The need for private funding==<br />
<br />
The majority of the ISML's work is funded through grants from the Australia government(ARC & NHMRC). While this government sponsorship is critically important, particularly for ongoing research and clinical studies, it is poorly suited for initiating new projects and encouraging the evaluation of early ideas, exactly the kind of potential breakthrough research that the ISML enables. The cumbersome nature of the government grant application and review process further delays some of the newest and most innovative early developments in medicine and medical computation.<br />
==What you can do==<br />
If you share our vision of the future of medicine, we encourage you to work with us to make it a reality. <br><br />
If I can answer any questions or provide additional information, please contact me directly at +(61)864888545 , or via email to karol.miller@uwa.edu.au <br><br />
You may also consult the [http://www.development.uwa.edu.au/donate/annual UWA's donation pages] for more information. Please specify that the Intelligence Systems for Medicine Laboratory, School of Mechanical and Chemical Engineering, should be the sole recipient of your donation.<br><br />
Thank you for your interest and your support.<br><br />
<br><br />
'''Sincerely''',<br><br />
Winthrop Prof. [[Karol Miller]], Director of the Intelligent Systems for Medicine Lab</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Support_us&diff=286Support us2016-04-21T07:25:18Z<p>Sebastian Daszkiewicz: /* A message from the ISML's Director,Winthrop Prof. Karol Miller */</p>
<hr />
<div>__NOTOC__<br />
==Supporting the Intelligence Systems for Medicine Laboratory==<br />
===A message from the ISML's Director, Winthrop Prof. [[Karol Miller]]===<br />
[[File:Miller 2009.jpg|400px|right]]<br />
'''Dear Visitor''',<br><br />
Since 1996, the Intelligence Systems for Medicine Laboratory has been one of the world's leaders in applying academic research in biomechanical and numerical methods to the challenges of "real-world" medicine. Are you interested in enabling new breakthroughs in medicine using advanced biomechanical techniques? If so, please consider becoming a part of our team by making a charitable, tax-deductible gift to support our ongoing research and development programs.<br />
<br />
==Consider the unique environment you will help to prosper:==<br />
A interdisciplinary incubator for medicine technology<br />
<br />
The ISML enables an interdisciplinary team of engineering researchers, computer scientists, applied mathematicians, and software engineers to bring the power of computational science and information technologies to bear on a wide range of unsolved medical challenges in specialties such as neurosurgery, cancer research.<br />
==Rapid development of new ideas==<br />
<br />
Throughout its history, the ISML has provided the tools, techniques, and personnel to help physicians and researchers rapidly develop and evaluate new applications for medicine. The ISML's computational environment, accomplished core research team, and accumulated experience in research and develop reduce the time and cost of new research, reduce duplication of effort, and help limited grant funds go further. At the same time, the ISML's strong medical collaborations encourage a pragmatic, practical development approach that encourages tested, robust results.<br />
==Focus on the future==<br />
<br />
The ISML's core capabilities enable medical professionals to focus less on the details of image handling and computational requirements and more on the fundamental questions of understanding disease and providing better patient care. The ever-increasing richness of information available from today's medical imaging technologies only increases the value of, and need for, the ISML's approach to interdisciplinary development.<br />
<br />
==The need for private funding==<br />
<br />
The majority of the ISML's work is funded through grants from the Australia government(ARC & NHMRC). While this government sponsorship is critically important, particularly for ongoing research and clinical studies, it is poorly suited for initiating new projects and encouraging the evaluation of early ideas, exactly the kind of potential breakthrough research that the ISML enables. The cumbersome nature of the government grant application and review process further delays some of the newest and most innovative early developments in medicine and medical computation.<br />
==What you can do==<br />
If you share our vision of the future of medicine, we encourage you to work with us to make it a reality. <br><br />
If I can answer any questions or provide additional information, please contact me directly at +(61)864888545 , or via email to kmiller@mech.uwa.edu.au <br><br />
You may also consult the [http://www.development.uwa.edu.au/donate/annual UWA's donation pages] for more information. Please specify that the Intelligence Systems for Medicine Laboratory, School of Mechanical and Chemical Engineering, should be the sole recipient of your donation.<br><br />
Thank you for your interest and your support.<br><br />
<br><br />
'''Sincerely''',<br><br />
[[Winthrop Prof. Karol Miller]], Director of the Intelligent Systems for Medicine Lab</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Support_us&diff=285Support us2016-04-21T07:25:05Z<p>Sebastian Daszkiewicz: Created page with "__NOTOC__ ==Supporting the Intelligence Systems for Medicine Laboratory== ===A message from the ISML's Director,Winthrop Prof. Karol Miller=== File:Miller 2009.jpg|400px..."</p>
<hr />
<div>__NOTOC__<br />
==Supporting the Intelligence Systems for Medicine Laboratory==<br />
===A message from the ISML's Director,[[Winthrop Prof. Karol Miller]]===<br />
[[File:Miller 2009.jpg|400px|right]]<br />
'''Dear Visitor''',<br><br />
Since 1996, the Intelligence Systems for Medicine Laboratory has been one of the world's leaders in applying academic research in biomechanical and numerical methods to the challenges of "real-world" medicine. Are you interested in enabling new breakthroughs in medicine using advanced biomechanical techniques? If so, please consider becoming a part of our team by making a charitable, tax-deductible gift to support our ongoing research and development programs.<br />
<br />
==Consider the unique environment you will help to prosper:==<br />
A interdisciplinary incubator for medicine technology<br />
<br />
The ISML enables an interdisciplinary team of engineering researchers, computer scientists, applied mathematicians, and software engineers to bring the power of computational science and information technologies to bear on a wide range of unsolved medical challenges in specialties such as neurosurgery, cancer research.<br />
==Rapid development of new ideas==<br />
<br />
Throughout its history, the ISML has provided the tools, techniques, and personnel to help physicians and researchers rapidly develop and evaluate new applications for medicine. The ISML's computational environment, accomplished core research team, and accumulated experience in research and develop reduce the time and cost of new research, reduce duplication of effort, and help limited grant funds go further. At the same time, the ISML's strong medical collaborations encourage a pragmatic, practical development approach that encourages tested, robust results.<br />
==Focus on the future==<br />
<br />
The ISML's core capabilities enable medical professionals to focus less on the details of image handling and computational requirements and more on the fundamental questions of understanding disease and providing better patient care. The ever-increasing richness of information available from today's medical imaging technologies only increases the value of, and need for, the ISML's approach to interdisciplinary development.<br />
<br />
==The need for private funding==<br />
<br />
The majority of the ISML's work is funded through grants from the Australia government(ARC & NHMRC). While this government sponsorship is critically important, particularly for ongoing research and clinical studies, it is poorly suited for initiating new projects and encouraging the evaluation of early ideas, exactly the kind of potential breakthrough research that the ISML enables. The cumbersome nature of the government grant application and review process further delays some of the newest and most innovative early developments in medicine and medical computation.<br />
==What you can do==<br />
If you share our vision of the future of medicine, we encourage you to work with us to make it a reality. <br><br />
If I can answer any questions or provide additional information, please contact me directly at +(61)864888545 , or via email to kmiller@mech.uwa.edu.au <br><br />
You may also consult the [http://www.development.uwa.edu.au/donate/annual UWA's donation pages] for more information. Please specify that the Intelligence Systems for Medicine Laboratory, School of Mechanical and Chemical Engineering, should be the sole recipient of your donation.<br><br />
Thank you for your interest and your support.<br><br />
<br><br />
'''Sincerely''',<br><br />
[[Winthrop Prof. Karol Miller]], Director of the Intelligent Systems for Medicine Lab</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Contact&diff=284Contact2016-04-21T07:24:24Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>'''The director of the ISML will be happy to talk to you and to help you identify who to talk to at the ISML.''' <br><br />
E-mail is the preferred method. Please review the pages about the ISML before contacting us.<br><br />
----<br />
Winthrop Prof. [[Karol Miller]]<br><br />
School of Mechanical and Chemical Engineering<br><br />
The University of Western Australia<br><br />
35 Stirling Highway<br><br />
Crawley WA 6009, AUSTRALIA<br><br />
Phone:+(61) 8 6488 3608<br> <br />
Fax: + (61) 8 6488 1024<br><br />
Email: karol.miller@uwa.edu.au<br><br />
http://staffhome.ecm.uwa.edu.au/~00030543/<br><br />
The University of Western Australia<br></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Contact&diff=283Contact2016-04-21T07:24:16Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>'''The director of the ISML will be happy to talk to you and to help you identify who to talk to at the ISML.''' <br><br />
E-mail is the preferred method. Please review the pages about the ISML before contacting us.<br><br />
----<br />
Winthrop Prof. [[Karol Miller]]<br><br />
School of Mechanical and Chemical Engineering<br><br />
The University of Western Australia<br><br />
35 Stirling Highway<br><br />
Crawley WA 6009, AUSTRALIA<br><br />
Phone:+(61) 8 6488 3608<br> <br />
Fax: + (61) 8 6488 1024<br><br />
Email: karol.miller@uwa.edu.au<br><br />
http://http://staffhome.ecm.uwa.edu.au/~00030543/<br><br />
The University of Western Australia<br></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Contact&diff=282Contact2016-04-21T07:23:02Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>'''The director of the ISML will be happy to talk to you and to help you identify who to talk to at the ISML.''' <br><br />
E-mail is the preferred method. Please review the pages about the ISML before contacting us.<br><br />
----<br />
Winthrop Prof. [[Karol Miller]]<br><br />
School of Mechanical and Chemical Engineering<br><br />
The University of Western Australia<br><br />
35 Stirling Highway<br><br />
Crawley WA 6009, AUSTRALIA<br><br />
Phone:+(61)864883608<br> <br />
Fax: + (61)864881024<br><br />
Email: kmiller@mech.uwa.edu.au<br><br />
http://www.mech.uwa.edu.au/~kmiller/<br><br />
The University of Western Australia<br></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Contact&diff=281Contact2016-04-21T07:22:16Z<p>Sebastian Daszkiewicz: Created page with "'''The director of the ISML will be happy to talk to you and to help you identify who to talk to at the ISML.''' <br> E-mail is the preferred method. Please review the pages a..."</p>
<hr />
<div>'''The director of the ISML will be happy to talk to you and to help you identify who to talk to at the ISML.''' <br><br />
E-mail is the preferred method. Please review the pages about the ISML before contacting us.<br><br />
----<br />
[[Winthrop Prof. Karol Miller]]<br><br />
School of Mechanical and Chemical Engineering<br><br />
The University of Western Australia<br><br />
35 Stirling Highway<br><br />
Crawley WA 6009, AUSTRALIA<br><br />
Phone:+(61)864883608<br> <br />
Fax: + (61)864881024<br><br />
Email: kmiller@mech.uwa.edu.au<br><br />
http://www.mech.uwa.edu.au/~kmiller/<br><br />
The University of Western Australia<br></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Visiting&diff=280Visiting2016-04-21T07:21:35Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>__NOTOC__<br />
== Find ISML ==<br />
[[Image:Fairway3.jpg|200px|left]]<br />
First, follow directions to the <br />
[http://www.web.uwa.edu.au/engage/events/transport University of Western Australia]<br />
<br> <br />
Then, enter the Civil and Mechanical Engineering Building located besides fairway entrance 3.<br><br />
ISML is located on the 1st floor. <br><br />
Feel free to use the telephone in the corridor to give us a call @ 8545<br><br />
Hope you can find us.<br><br />
<br><br />
== Getting to UWA by vehicle==<br />
<br />
<p>If you must drive to UWA please obey the parking signs. Illegal parking will attract an infringement notice.</p></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Visiting&diff=279Visiting2016-04-21T07:21:16Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>__NOTOC__<br />
== Find ISML ==<br />
[[Image:Fairway3.jpg|200px|left]]<br />
<br />
[http://www.web.uwa.edu.au/engage/events/transport University of Western Australia]<br />
<br />
<br />
First, follow directions to the University of Western Australia.<br> <br />
Then, enter the Civil and Mechanical Engineering Building located besides fairway entrance 3.<br><br />
ISML is located on the 1st floor. <br><br />
Feel free to use the telephone in the corridor to give us a call @ 8545<br><br />
Hope you can find us.<br><br />
<br><br />
== Getting to UWA by vehicle==<br />
<br />
<p>If you must drive to UWA please obey the parking signs. Illegal parking will attract an infringement notice.</p></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Fairway3.jpg&diff=278File:Fairway3.jpg2016-04-21T07:19:57Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Visiting&diff=277Visiting2016-04-21T07:19:48Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>__NOTOC__<br />
== Find ISML ==<br />
[[Image:Fairway3.jpg|200px|left]]<br />
First, follow directions below to the University of Western Australia.<br> <br />
Then, enter the Civil and Mechanical Engineering Building located besides fairway entrance 3.<br><br />
ISML is located on the 1st floor. <br><br />
Feel free to use the telephone in the corridor to give us a call @ 8545<br><br />
Hope you can find us.<br><br />
<br><br />
== Getting to UWA by vehicle==<br />
<br />
<p>If you must drive to UWA please obey the parking signs. Illegal parking will attract an infringement notice.</p></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=MediaWiki:Sidebar&diff=276MediaWiki:Sidebar2016-04-21T07:19:37Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>*<br />
** Main Page|Home Page<br />
** news|News <br />
** overview|Overview<br />
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* <br />
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** https://www.socrates.uwa.edu.au/Staff/StaffProfile.aspx?Person=KarolMiller&tab=publications|Publications<br />
** Archived_Reports|Research Reports<br />
* More<br />
** Visiting|Visiting the ISML<br />
** contact|Contact us<br />
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<br />
<br />
* SEARCH<br />
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* SEARCH<br />
* TOOLBOX<br />
* LANGUAGES</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=MediaWiki:Sidebar&diff=275MediaWiki:Sidebar2016-04-21T07:17:05Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>*<br />
** Main Page|Home Page<br />
** news|News <br />
** overview|Overview<br />
** people|People<br />
** collaboration|Collaborations<br />
** awards|Awards<br />
* <br />
** books|Books<br />
** https://www.socrates.uwa.edu.au/Staff/StaffProfile.aspx?Person=KarolMiller&tab=publications|Publications<br />
** Archived_Reports|Research Reports<br />
* More<br />
** http://www.web.uwa.edu.au/engage/events/transport|Visiting the ISML<br />
** contact|Contact us<br />
** giving|Giving<br />
** webarchive|Web Archive<br />
<br />
<br />
<br />
* SEARCH<br />
<br />
OLD<br />
* navigation<br />
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** recentchanges-url|recentchanges<br />
** randompage-url|randompage<br />
** helppage|help<br />
* SEARCH<br />
* TOOLBOX<br />
* LANGUAGES</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Visiting&diff=274Visiting2016-04-21T06:59:20Z<p>Sebastian Daszkiewicz: Created page with "<googlemap version="0.9" lat="-31.979541" lon="115.820532" zoom="15"> -31.981026, 115.815988 We are here~"</p>
<hr />
<div><googlemap version="0.9" lat="-31.979541" lon="115.820532" zoom="15"><br />
-31.981026, 115.815988<br />
We are here~</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=273Archived Reports2016-04-21T06:58:37Z<p>Sebastian Daszkiewicz: /* 2007: */</p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013 [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.<br />
<br />
Report # ISML/01/2013 [[Media:isml-no-01-2013.pdf|Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration]] Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 [[Media:isml-cutting.pdf|Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery]] Jin et al.<br />
<br />
Report # ISML/02/2011 [[Media:Report-N-ISML-Page-PDF-STAPP-paper-11S-13.pdf|Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage]] Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 [[Media:Stable_Time_Step_Estimates.pdf|Stable time steps for mesh-free particle methods]] Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. [[Media:isml_no_03_2009.pdf|Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation]] Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. [[Media:isml_no_02_2009.pdf|Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom]] Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. [[Media:isml_no_01_2009.pdf|Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases]] Authors: Adam Wittek, Grand Joldes, Karol Miller<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. [[Media:isml-no-02-2007.pdf|Mathematical Methods for Computational Soft Tissue Medical Imaging]]<br />
<br />
Report # ISML/01/2007, June 2007. [[Media:isml-no-01-2007.pdf|Mesh Free Methods of Soft Tissue Deformation in Computer Integrated Surgery II]]<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. [[Media:isml-no-01-2006.pdf|Mathematical Models of Brain Deformation Behaviour for Computer-Integrated Neurosurgery]]<br />
<br />
Report # ISML/02/2006, May 2006. [[Media:isml-no-02-2006.pdf|Mesh Free Methods for Soft Tissue Deformation in Computer Integrated Surgery]]<br />
<br />
Report # ISML/03/2006, June 2006. [[Media:isml-no-03-2006.pdf|Initial Investigative Report on Normal Pressure Hydrocephalus]]</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Isml-no-02-2006.pdf&diff=272File:Isml-no-02-2006.pdf2016-04-21T06:58:02Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=271Archived Reports2016-04-21T06:57:45Z<p>Sebastian Daszkiewicz: /* 2006: */</p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013 [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.<br />
<br />
Report # ISML/01/2013 [[Media:isml-no-01-2013.pdf|Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration]] Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 [[Media:isml-cutting.pdf|Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery]] Jin et al.<br />
<br />
Report # ISML/02/2011 [[Media:Report-N-ISML-Page-PDF-STAPP-paper-11S-13.pdf|Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage]] Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 [[Media:Stable_Time_Step_Estimates.pdf|Stable time steps for mesh-free particle methods]] Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. [[Media:isml_no_03_2009.pdf|Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation]] Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. [[Media:isml_no_02_2009.pdf|Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom]] Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. [[Media:isml_no_01_2009.pdf|Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases]] Authors: Adam Wittek, Grand Joldes, Karol Miller<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. [[Media:isml-no-02-2007.pdf|Mathematical Methods for Computational Soft Tissue Medical Imaging]]<br />
<br />
Report # ISML/01/2007, June 2007. [[Media:isml-no-01-2007.pdf|"Mesh Free Methods of Soft Tissue Deformation in Computer Integrated Surgery II]]<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. [[Media:isml-no-01-2006.pdf|Mathematical Models of Brain Deformation Behaviour for Computer-Integrated Neurosurgery]]<br />
<br />
Report # ISML/02/2006, May 2006. [[Media:isml-no-02-2006.pdf|Mesh Free Methods for Soft Tissue Deformation in Computer Integrated Surgery]]<br />
<br />
Report # ISML/03/2006, June 2006. [[Media:isml-no-03-2006.pdf|Initial Investigative Report on Normal Pressure Hydrocephalus]]</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Isml-no-01-2006.pdf&diff=270File:Isml-no-01-2006.pdf2016-04-21T06:57:19Z<p>Sebastian Daszkiewicz: Sebastian Daszkiewicz uploaded a new version of File:Isml-no-01-2006.pdf</p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Isml-no-01-2006.pdf&diff=269File:Isml-no-01-2006.pdf2016-04-21T06:56:47Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=268Archived Reports2016-04-21T06:56:36Z<p>Sebastian Daszkiewicz: /* 2006: */</p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013 [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.<br />
<br />
Report # ISML/01/2013 [[Media:isml-no-01-2013.pdf|Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration]] Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 [[Media:isml-cutting.pdf|Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery]] Jin et al.<br />
<br />
Report # ISML/02/2011 [[Media:Report-N-ISML-Page-PDF-STAPP-paper-11S-13.pdf|Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage]] Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 [[Media:Stable_Time_Step_Estimates.pdf|Stable time steps for mesh-free particle methods]] Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. [[Media:isml_no_03_2009.pdf|Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation]] Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. [[Media:isml_no_02_2009.pdf|Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom]] Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. [[Media:isml_no_01_2009.pdf|Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases]] Authors: Adam Wittek, Grand Joldes, Karol Miller<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. [[Media:isml-no-02-2007.pdf|Mathematical Methods for Computational Soft Tissue Medical Imaging]]<br />
<br />
Report # ISML/01/2007, June 2007. [[Media:isml-no-01-2007.pdf|"Mesh Free Methods of Soft Tissue Deformation in Computer Integrated Surgery II]]<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. [[Media:isml-no-01-2006|Mathematical Models of Brain Deformation Behaviour for Computer-Integrated Neurosurgery]]<br />
<br />
Report # ISML/02/2006, May 2006. [[Media:isml-no-02-2006|Mesh Free Methods for Soft Tissue Deformation in Computer Integrated Surgery]]<br />
<br />
Report # ISML/03/2006, June 2006. [[Media:isml-no-03-2006|Initial Investigative Report on Normal Pressure Hydrocephalus]]</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=267Archived Reports2016-04-21T06:48:37Z<p>Sebastian Daszkiewicz: /* 2007: */</p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013 [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.<br />
<br />
Report # ISML/01/2013 [[Media:isml-no-01-2013.pdf|Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration]] Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 [[Media:isml-cutting.pdf|Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery]] Jin et al.<br />
<br />
Report # ISML/02/2011 [[Media:Report-N-ISML-Page-PDF-STAPP-paper-11S-13.pdf|Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage]] Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 [[Media:Stable_Time_Step_Estimates.pdf|Stable time steps for mesh-free particle methods]] Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. [[Media:isml_no_03_2009.pdf|Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation]] Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. [[Media:isml_no_02_2009.pdf|Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom]] Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. [[Media:isml_no_01_2009.pdf|Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases]] Authors: Adam Wittek, Grand Joldes, Karol Miller<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. [[Media:isml-no-02-2007.pdf|Mathematical Methods for Computational Soft Tissue Medical Imaging]]<br />
<br />
Report # ISML/01/2007, June 2007. [[Media:isml-no-01-2007.pdf|"Mesh Free Methods of Soft Tissue Deformation in Computer Integrated Surgery II]]<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Isml-no-01-2007.pdf&diff=266File:Isml-no-01-2007.pdf2016-04-21T06:47:57Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Isml-no-02-2007.pdf&diff=265File:Isml-no-02-2007.pdf2016-04-21T06:47:50Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=264Archived Reports2016-04-21T06:47:37Z<p>Sebastian Daszkiewicz: /* 2007: */</p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013 [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.<br />
<br />
Report # ISML/01/2013 [[Media:isml-no-01-2013.pdf|Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration]] Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 [[Media:isml-cutting.pdf|Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery]] Jin et al.<br />
<br />
Report # ISML/02/2011 [[Media:Report-N-ISML-Page-PDF-STAPP-paper-11S-13.pdf|Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage]] Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 [[Media:Stable_Time_Step_Estimates.pdf|Stable time steps for mesh-free particle methods]] Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. [[Media:isml_no_03_2009.pdf|Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation]] Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. [[Media:isml_no_02_2009.pdf|Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom]] Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. [[Media:isml_no_01_2009.pdf|Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases]] Authors: Adam Wittek, Grand Joldes, Karol Miller<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. [[Media:isml-no-02-2007.pdf|Mathematical Methods for Computational Soft Tissue Medical Imaging]]<br />
<br />
Report # ISML/01/2007, June 2007. [[Media:isml-no-01-2007.pdf|"Mesh free methods of soft tissue deformation in computer integrated surgery II]]<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=263Archived Reports2016-04-21T06:44:38Z<p>Sebastian Daszkiewicz: /* 2009: */</p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013 [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.<br />
<br />
Report # ISML/01/2013 [[Media:isml-no-01-2013.pdf|Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration]] Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 [[Media:isml-cutting.pdf|Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery]] Jin et al.<br />
<br />
Report # ISML/02/2011 [[Media:Report-N-ISML-Page-PDF-STAPP-paper-11S-13.pdf|Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage]] Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 [[Media:Stable_Time_Step_Estimates.pdf|Stable time steps for mesh-free particle methods]] Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. [[Media:isml_no_03_2009.pdf|Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation]] Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. [[Media:isml_no_02_2009.pdf|Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom]] Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. [[Media:isml_no_01_2009.pdf|Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases]] Authors: Adam Wittek, Grand Joldes, Karol Miller<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”<br />
<br />
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Isml_no_02_2009.pdf&diff=262File:Isml no 02 2009.pdf2016-04-21T06:43:41Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Isml-no-02-2009.pdf&diff=261File:Isml-no-02-2009.pdf2016-04-21T06:43:26Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Isml_no_03_2009.pdf&diff=260File:Isml no 03 2009.pdf2016-04-21T06:43:16Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=259Archived Reports2016-04-21T06:42:59Z<p>Sebastian Daszkiewicz: /* 2009: */</p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013 [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.<br />
<br />
Report # ISML/01/2013 [[Media:isml-no-01-2013.pdf|Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration]] Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 [[Media:isml-cutting.pdf|Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery]] Jin et al.<br />
<br />
Report # ISML/02/2011 [[Media:Report-N-ISML-Page-PDF-STAPP-paper-11S-13.pdf|Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage]] Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 [[Media:Stable_Time_Step_Estimates.pdf|Stable time steps for mesh-free particle methods]] Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. [[Media:isml_no_03_2009.pdf|Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation]] Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. [[Media:isml_no_02_2009.pdf|Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom]] Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. [[Media:isml_no_01_2009.pdf|Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases]]<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”<br />
<br />
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=258Archived Reports2016-04-21T06:42:51Z<p>Sebastian Daszkiewicz: /* 2009: */</p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013 [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.<br />
<br />
Report # ISML/01/2013 [[Media:isml-no-01-2013.pdf|Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration]] Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 [[Media:isml-cutting.pdf|Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery]] Jin et al.<br />
<br />
Report # ISML/02/2011 [[Media:Report-N-ISML-Page-PDF-STAPP-paper-11S-13.pdf|Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage]] Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 [[Media:Stable_Time_Step_Estimates.pdf|Stable time steps for mesh-free particle methods]] Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. [[Media:isml_no_03_2009.pdf|Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation]] Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. [[Media:isml_no_02_2009.pdf|Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom]] Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. [[Media:isml_no_03_2009.pdf|Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases]]<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”<br />
<br />
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=257Archived Reports2016-04-21T06:40:33Z<p>Sebastian Daszkiewicz: /* 2009: */</p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013 [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.<br />
<br />
Report # ISML/01/2013 [[Media:isml-no-01-2013.pdf|Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration]] Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 [[Media:isml-cutting.pdf|Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery]] Jin et al.<br />
<br />
Report # ISML/02/2011 [[Media:Report-N-ISML-Page-PDF-STAPP-paper-11S-13.pdf|Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage]] Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 [[Media:Stable_Time_Step_Estimates.pdf|Stable time steps for mesh-free particle methods]] Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. [[Media:isml_no_03_2009.pdf|Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation]]<br />
Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. “Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom”<br />
Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. “Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases”<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”<br />
<br />
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Stable_Time_Step_Estimates.pdf&diff=256File:Stable Time Step Estimates.pdf2016-04-21T06:38:05Z<p>Sebastian Daszkiewicz: Sebastian Daszkiewicz uploaded a new version of File:Stable Time Step Estimates.pdf</p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Stable_Time_Step_Estimates.pdf&diff=255File:Stable Time Step Estimates.pdf2016-04-21T06:37:39Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=254Archived Reports2016-04-21T06:37:15Z<p>Sebastian Daszkiewicz: /* 2011: */</p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013 [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.<br />
<br />
Report # ISML/01/2013 [[Media:isml-no-01-2013.pdf|Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration]] Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 [[Media:isml-cutting.pdf|Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery]] Jin et al.<br />
<br />
Report # ISML/02/2011 [[Media:Report-N-ISML-Page-PDF-STAPP-paper-11S-13.pdf|Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage]] Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 [[Media:Stable_Time_Step_Estimates.pdf|Stable time steps for mesh-free particle methods]] Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. “Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation”<br />
Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. “Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom”<br />
Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. “Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases”<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”<br />
<br />
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=253Archived Reports2016-04-21T06:34:59Z<p>Sebastian Daszkiewicz: /* 2013: */</p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013 [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.<br />
<br />
Report # ISML/01/2013 [[Media:isml-no-01-2013.pdf|Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration]] Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery. Jin et al.<br />
<br />
Report # ISML/02/2011 Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage. Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 Stable time steps for mesh-free particle methods. Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. “Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation”<br />
Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. “Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom”<br />
Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. “Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases”<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”<br />
<br />
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=252Archived Reports2016-04-21T06:34:18Z<p>Sebastian Daszkiewicz: /* 2013: */</p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013, [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.<br />
<br />
Report # ISML/01/2013 Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration. Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery. Jin et al.<br />
<br />
Report # ISML/02/2011 Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage. Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 Stable time steps for mesh-free particle methods. Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. “Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation”<br />
Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. “Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom”<br />
Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. “Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases”<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”<br />
<br />
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=251Archived Reports2016-04-21T06:32:53Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013, [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.<br />
<br />
Report # ISML/02/2013 Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift. Roy et al.<br />
<br />
Report # ISML/01/2013 Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration. Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery. Jin et al.<br />
<br />
Report # ISML/02/2011 Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage. Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 Stable time steps for mesh-free particle methods. Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. “Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation”<br />
Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. “Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom”<br />
Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. “Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases”<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”<br />
<br />
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=250Archived Reports2016-04-21T06:32:36Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013, [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models. Ovidio et al.<br />
<br />
Report # ISML/02/2013 Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift. Roy et al.<br />
<br />
Report # ISML/01/2013 Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration. Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery. Jin et al.<br />
<br />
Report # ISML/02/2011 Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage. Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 Stable time steps for mesh-free particle methods. Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. “Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation”<br />
Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. “Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom”<br />
Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. “Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases”<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”<br />
<br />
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=249Archived Reports2016-04-21T06:30:48Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div>__NOTOC__<br />
<br />
[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013, Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models. Ovidio et al.<br />
<br />
Report # ISML/02/2013 Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift. Roy et al.<br />
<br />
Report # ISML/01/2013 Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration. Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery. Jin et al.<br />
<br />
Report # ISML/02/2011 Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage. Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 Stable time steps for mesh-free particle methods. Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. “Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation”<br />
Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. “Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom”<br />
Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. “Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases”<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”<br />
<br />
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=248Archived Reports2016-04-21T03:37:32Z<p>Sebastian Daszkiewicz: /* 2014: */</p>
<hr />
<div>[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
===2013:===<br />
<br />
Report # ISML/03/2013, Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models. Ovidio et al.<br />
<br />
Report # ISML/02/2013 Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift. Roy et al.<br />
<br />
Report # ISML/01/2013 Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration. Mostayed et al.<br />
<br />
===2011:===<br />
<br />
Report # ISML/03/2011 Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery. Jin et al.<br />
<br />
Report # ISML/02/2011 Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage. Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 Stable time steps for mesh-free particle methods. Joldes et al. (2011) IJNME preprint<br />
<br />
===2009:===<br />
<br />
Report # ISML/03/2009, June 2009. “Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation”<br />
Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. “Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom”<br />
Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. “Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases”<br />
<br />
===2007:===<br />
<br />
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”<br />
<br />
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"<br />
<br />
===2006:===<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=Archived_Reports&diff=247Archived Reports2016-04-21T03:37:02Z<p>Sebastian Daszkiewicz: /* 2014: */</p>
<hr />
<div>[[File:reports_logo.JPG]]<br />
<br />
===2014:===<br />
<br />
Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.<br />
<br />
Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.<br />
<br />
2013:<br />
<br />
Report # ISML/03/2013, Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models. Ovidio et al.<br />
<br />
Report # ISML/02/2013 Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift. Roy et al.<br />
<br />
Report # ISML/01/2013 Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration. Mostayed et al.<br />
<br />
2011:<br />
<br />
Report # ISML/03/2011 Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery. Jin et al.<br />
<br />
Report # ISML/02/2011 Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage. Jin et al.<br />
<br />
<br />
Report # ISML/01/2011 Stable time steps for mesh-free particle methods. Joldes et al. (2011) IJNME preprint<br />
<br />
2009:<br />
<br />
Report # ISML/03/2009, June 2009. “Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation”<br />
Authors: Grand Joldes, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/02/2009, February 2009. “Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom”<br />
Authors: Jiajie Ma, Adam Wittek, Karol Miller<br />
<br />
Report # ISML/01/2009, February 2009. “Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases”<br />
<br />
2007:<br />
<br />
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”<br />
<br />
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"<br />
<br />
2006:<br />
<br />
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR<br />
COMPUTER-INTEGRATED NEUROSURGERY"<br />
<br />
Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"<br />
<br />
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"</div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Isml-no-02-2013.pdf&diff=246File:Isml-no-02-2013.pdf2016-04-21T02:31:29Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Isml-no-01-2014.pdf&diff=245File:Isml-no-01-2014.pdf2016-04-21T02:31:22Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewiczhttp://isml.ecm.uwa.edu.au/ISML/index.php?title=File:Isml-no-01-2013.pdf&diff=244File:Isml-no-01-2013.pdf2016-04-21T02:31:15Z<p>Sebastian Daszkiewicz: </p>
<hr />
<div></div>Sebastian Daszkiewicz