Curriculum Vitae Luc Florack

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Curriculum Vitae Luc Florack

Update: January 17, 2017 Personal Data

Name: Birth Date & Place: Nationality: Partner: Children: L.M.J. Florack (Luc) 02–12–1964, Maastricht, The Netherlands Dutch Annemieke Wolthuis, 29–6–1971 Mel Florack (son), 18–12–2002, and Sem Florack (son), 12–12–2004

Affiliation

Dr. L.M.J. Florack Eindhoven University of Technology Department of Mathematics and Computer Science & Department of Biomedical Engineering HG 8.83 & GEM-Z 3.108

Den Dolech 2 / PO Box 513 NL-5600 MB Eindhoven The Netherlands T: E: W: +31 40 247 53 77 [email protected]

www.bmia.bmt.tue.nl/People/LFlorack (homepage)

Educational Background

1971–1977: Primary school: Christus Koningschool, Maastricht, The Netherlands 1977–1983: Secondary school: gymnasium, Stedelijke Scholengemeenschap, Maastricht, The Netherlands

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1983: Diploma gymnasium

β

(best student award) Grades: Dutch 9, English 9, Latin 9, mathematics I 10, mathematics II 9, physics 9, chemistry 9 1983–1989: University: Utrecht University, Utrecht, The Netherlands 1984: Diploma “propaedeuse” (first year) in twin study physics and mathematics 1989: Diploma “doctoraal” (bachelor and masters) in theoretical physics MSc thesis: BRST Quantization of Gauge Field Theories (available via personal homepage, v.s.) MSc supervisor: B.Q.P.J. de Wit

Research Experience and Former Affiliations

01–10–1989/30–09–1993: PhD student: Utrecht University, Department of Medicine 1 , and Helmholtz Institute 2 , Utrecht, The Netherlands 1 Cf. www.isi.uu.nl.

2 Cf. www.phys.uu.nl/˜wwwfm.

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PhD thesis: The Syntactical Structure of Scalar Images (available via personal homepage, v.s.) PhD supervisors: Max Viergever, Jan Koenderink, Bart ter Haar Romeny PhD defense: 10–11–1993, with judicium cum laude (top 2%) 01–10–1993/31–12–1993: Postdoc, Department of Medicine, Utrecht University 01–01–1994/30–09–1994: ERCIM/HCM research fellow (EU personal grant), INRIA Sophia-Antipolis 3 , France (host professor: Olivier Faugeras) 01–10–1994/30–11–1995: ERCIM/HCM research fellow (EU personal grant), INESC Aveiro 4 , Portugal (host pro fessor: Antonio Sousa Pereira) 01–01–1996/31–12–1996: Assistant research professor (grant from the Danish Research Council), DIKU 5 , Copen hagen, Denmark (host professor: Peter Johansen) 01–01–1997/31–12–1999: Assistant research professor, Department of Computer Science 6 , Utrecht University (host professor: Mark Overmars) 01–01–2000/31–05–2001: Assistant professor at Department of Mathematics 7 , Utrecht University (host professors: Hans Duistermaat, Dirk Siersma, Richard Gill) 01–06–2001/30–04–2002: Assistant professor, Department of Biomedical Engineering 8 , Division BIOMIM 9 , Eind hoven University of Technology (host professor: Bart ter Haar Romeny) 01–05–2002/31–08-2007: Associate professor, Department of Biomedical Engineering, Division BIOMIM, Eindhoven University of Technology (host professor: Bart ter Haar Romeny) 01–09–2007/present: Full professor, Department of Mathematics and Computer Science, Division Applied Analysis, and parttime professor, Department of Biomedical Engineering, Division BIOMIM, Eindhoven University of Technology

Teaching Experience

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Modellen & Simulatie I, 1 st year course at Department of Mathematics, Utrecht University, 1999, 2000 Modellen & Simulatie II, second year course at Department of Mathematics, Utrecht University, 2000 Wiskunde voor Biologen, 1 st Infinitesimaalrekening C, 2 nd Lineaire Algebra voor Natuurkunde A, 1 Kaleidoscoop, 1 st year course at Department of Biology, Utrecht University, 2000 year course at Department of Physics, Utrecht University, 2001 st year course at Department of Physics, Utrecht University, 2000 year course at Department of Mathematics, Utrecht University, 2001 Aansluitingsmodule Wiskunde voor Biomedische Technologie, first year course at Department of Biomedical Engineering, Eindhoven University of Technology, 2003, 2004 (course code 8G116)

Mathematical Techniques for Image Analysis, bachelor course and master elective at Department of Biomedical Engineering, Eindhoven University of Technology, 2002–2016 (course code 8D020)

Mathematical Techniques for Image Analysis, bachelor elective at Department of Mathematics & Computer Science, Eindhoven University of Technology, 2016 (course code 2DMM10)

Tensor Calculus and Differential Geometry, fourth year master course at Department of Mathematics and Computer Science, Eindhoven University of Technology, 2009, 2011, 2013 (course code 2F800) 3 Cf. www-sop.inria.fr.

4 Cf. www.det.ua.pt/investigacao/ieeta.asp.

5 Cf. www.diku.dk.

6 Cf. www.cs.uu.nl.

7 Cf. www.math.uu.nl.

8 Cf. w3.bmt.tue.nl/en.

9 Cf. www.bmi2.bmt.tue.nl/image-analysis.

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Tensor Calculus and Differential Geometry, third year bachelor course at Department of Mathematics and Computer Science, Eindhoven University of Technology, 2015–2016 (course code 2WAH0)

Partial Differential Equations, third year bachelor course at Department of Mathematics and Computer Science, Eindhoven University of Technology, 2016 (course code 2WA90)

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Honors Programme, TU/e programme for excellent bachelor students accross departments, 2009 Image Structure, graduate course, Copenhagen, Utrecht, Eindhoven, 1996 Image Structure, graduate course for ImagO, Utrecht, Eindhoven, 1997 Image Structure, graduate course for ASCI/ImagO, Eindhoven, 2003 (course code SA5) Sixteenth Special Course on Image Processing for Industrial Applications (TNO Delft, 02–11–2001): advanced course on multiresolution image analysis for the industry

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Student projects at Department of Biomedical Engineering, Eindhoven University of Technology, 2001–2011 Student projects at Department of Mathematics & Computer Science, Eindhoven University of Technology, 2007–2011 Summer School on Tensors & Tensor Fields in Imaging, Marstal, Denmark, August 18-23, 2013 Calculus for Biomedical Engineering, Eindhoven University of Technology, 2010–2013 (course code 2DM10) Calculus C (assisting as tutor), Eindhoven University of Technology, 2013 (course code 2WCB0)

Language Skills

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Dutch: mother tongue English: CEF (Common European Framework of Reference) level C2 (proficient) Good passive knowledge of German, cursory knowledge of Portuguese, French, and Danish

Other Professional Activities

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2010–now: Principal Investigator High Potential Program IST/e ( www.iste.nl

).

2013–now: Member of Management Team 3TU.AMI on behalf of Eindhoven University of Technology 2000–2003: Treasurer of the Royal Dutch Mathematical Society 10 2000–2003: Member of the Publication Committee of the Nieuw Archief voor Wiskunde and Pythagoras 11 2006–2011: Member of cash office control committee for the Royal Dutch Mathematical Society (Koninklijk Wiskundig Genootschap).

2003–2005: Member of the MSc Education Committee (Opleidingscommissie Masters) of the Department of Biomedical Engineering, Eindhoven University of Technology

2005–2008: Member of the Education Committee of the Graduate School BEST/e, Department of Biomedical Engineering, Eindhoven University of Technology

2005–2006: Algemene Management Leergang (AML 12), management training internship by De Baak, Man agement Centrum VNO-NCW, www.debaak.nl

.

10 In 2003 it has acquired the Royal status from the Royal House.

11 The Dutch Mathematical Society (Koninklijk Wiskundig Genootschap) is a member of the European Mathematical Society.

The Publication Committee (Publicatiecommissie) is a committee of the Royal Dutch Mathematical Society. The Nieuw Archief voor Wiskunde is a quarterly journal issued by the society. Pythagoras is a mathematics magazine for secondary school students.

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2005–2015: Member of Editorial Board Journal of Mathematical Imaging and Vision Member of Programme Board of the 3 rd Eurandom Workshop on Locally Adaptive Filters in Signal and Image Processing, November 24–26 2008, Eindhoven, The Netherlands

Member of Programme Board of the 9 th Annual Conference of the Advanced School for Computing and Imaging, June 4–6 2003, Heijen, The Netherlands

Panel member of the MICCAI Academia and Industry Event 2014, organized by the MICCAI Student Board of the MICCAI Society

Member of Programme Committee IEEE International Conference on Computer Vision 2001, July 9–12 2001, Vancouver, Canada

Member of Programme Committee IEEE International Conference on Computer Vision 2003, October 13–16 2003, Nice, France

Member of Programme Committee IEEE International Conference on Computer Vision 2009, September 29– October 2 2009, Kyoto, Japan

Member of Programme Board and co-initiator Copenhagen Workshop on Gaussian Scale-Space Theory, May 10–13 1996, DIKU, Copenhagen, Denmark

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Member of Programme Board and co-initiator 1 st biannual International Conference on Scale-Space Theory in Computer Vision 12 , July 2–4 1997, Utrecht, The Netherlands Member of Programme Committee 2 nd September 26–27 1999, Corfu, Greece International Conference on Scale-Space Theory in Computer Vision,

Member of Programme Committee 3 rd July 7–8 2001, Vancouver, Canada International Conference on Scale-Space and Morphological Methods,

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Member of Programme Committee 4 th June 10–12 2003, Isle of Skye, UK International Conference on Scale-Space and Morphological Methods, Member of Programme Committee 5 th International Conference on Scale-Space and PDE Methods in Computer Vision, April 7–9 2005, Hofgeismar, Germany

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Member of Programme Committee 1 st International Conference on Scale Space and Variational Methods in Computer Vision, May 30–June 2 2007, Ischia, Italy Member of Programme Committee 2 nd International Conference on Scale Space and Variational Methods in Computer Vision, June 1–June 5 2009, Voss, Norway

Member of Programme Committee Fundamental Structural Properties in Image and Pattern Analysis, Septem ber 6–7 1999, Budapest, Hungary

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Organizer of Segmentation Workshop, February 25–26, 1999, Utrecht, The Netherlands Member of Programme Committee SIAM Conference on Imaging Science, May 3–5 2004, Salt Lake City, Utah, US

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Member of Programme Committee 10 th International Conference on Computer Analysis of Images and Pat terns, August 25-27 2003, Groningen, The Netherlands Member of Programme Board and local organizer of 1 st International Workshop on Deep Structure, Singular ities, and Computer Vision (DSSCV), June 9–10 2005, Maastricht, The Netherlands

Member of Programme Committee for the IEEE Computer Society Workshop on Mathematical Methods in Biomedical Image Analysis (MMBIA 2007), October 14–15, Rio de Janeiro, Brasil.

Member of Programme Committee for the International Conference of Bio-inspired Systems and Signal Pro cessing (BIOSIGNALS 2008), January 28–31, 2008, Funchal, Madeira, Portugal.

Member of Programme Committee for the International Conference on Information Processing in Medical Imaging (IPMI 2011), July 3–8, 2011, Irsee, Germany

Member of Programme Committee for the Dagstuhl Seminar on Visualization and Processing of Higher Order Descriptors for Multi-Valued Data, February 16–21, 2014, Dagstuhl, Germany 12 This biannual conference series is nowadays known as “International Conference on Scale Space and Variational Methods in Computer Vision” (SSVM).

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Referee for organisations, international peer reviewed journals, and conferences: Organisations: – The Netherlands Organisation for Scientific Research (NWO):

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Reviewer for TALENT fellowship Reviewer for Open/Free Competition Reviewer for visitor’s stipendium Member of selection committees in programmes of the council area EW (physical sciences): 1. Rubicon, 2007

2. Vrije Competitie, 2008, 2010 Member of the Research Committee of the national forum for mathematics PWN (“Platform Wiskunde Nederland”), 2010–present – The Royal Netherlands Academy of Arts and Sciences (KNAW):

Member of the Akademie Werkgroep Wiskunde 2007–2009 (AWW) – The European Research Council Executive Agency (ERCEA):

Reviewer for FP7 “Ideas” Specific Programme (ERC Advanced Grant) 2010 Journals: – Algorithmica – Applied Numerical Mathematics – Computer Vision and Image Understanding – IEEE Journal of Biomedical and Health Informatics – IEEE Transactions on Image Processing – IEEE Transactions on Knowledge and Data Engineering – IEEE Transactions on Medical Imaging – IEEE Transactions on Pattern Analysis and Machine Intelligence – Image and Vision Computing – International Journal of Computer Vision – Journal of Mathematical Imaging and Vision – Journal of the Optical Society A – Journal of Visual Communication and Image Representation – Journal of Zheijang University SCIENCE – Numerical Algorithms – Pattern Recognition – Pattern Recognition Letters – Quarterly of Applied Mathematics – Real-Time Imaging – SIAM Journal on Imaging Sciences – Signal Processing: Image Communication Conferences and Workshops: – ECCV European Conference on Computer Vision, 2000, 2010 – ICCV International Conference on Computer Vision 2001, 2003 – SIAM Conference on Imaging Science, 2004 – CAIP Conference on Computer Analysis of Images and Patterns, 2003 – ASCI Conference of the Advanced School for Computing and Imaging, 2003, 2004, 2005, 2007, 2009, 2010 – IAPR Workshop on Machine Vision Applications, 1998 – IAPR Conference on Vision Interface, 2001 – International Conference on Scale-Space Theory in Computer Vision, 1997, 1999 5

– International Conference on Scale-Space and Morphological Methods, 2001, 2003 – International Conference on Scale-Space and PDE Methods in Computer Vision, 2005 – International Conference on Scale Space and Variational Methods in Computer Vision, 3007, 2009, 2011, 2013, 2015, 2017 – Workshop on Fundamental Properties in Image and Pattern Analysis, 1999 – DSSCV International Workshop on Deep Structure, Singularities, and Computer Vision, 2005 – MICCAI International Conference on Medical Image Computing and Computer Assisted Interven tion, 2007, 2009, 2010, 2011, 2012, 2013, 2014, 2015 – CVPR Workshop on Tensors in Image Processing and Computer Vision, 2008 – IPMI International Conference on Information Processing in Medical Imaging, 2011 – Dagstuhl Seminar, 2011, 2014 – SCIA Scandinavian Conference on Image Analysis, 2015 – FIMH Functional Imaging and Modeling of the Heart, 2015 – CDMRI Computational Diffusion MRI, 2016

Keynote speaker and invited talks: – Image and Vision Computing New Zealand 1998, November 15–18, 1998, Auckland, New Zealand – Early Cognitive Vision Workshop, May 28–June 1, 2004, Isle of Skye, UK – Medical Image Processing: From Basic Concepts to Clinical Applications Symposium preceding the In augural Lecture of Prof. Wiro Niessen, January 13, 2006, Rotterdam, The Netherlands – Signals & Images Seminar, June 7, 2006, CWI, Amsterdam, The Netherlands – KNAW Meeting for Young Biomathematicians, November 28, 2006, KNAW, Amsterdam, The Netherlands – Numerical Methods for Medical Applications, TU/e Cluster Symposium, December 13, 2006 Department of Mathematics and Computer Science, TUE, Eindhoven, The Netherlands – Tribute Workshop in Honour of Professor Peter Johansen, January 24–25, 2008, DIKU, Copenhagen, Denmark (invited paper and presentation, together with Dr. Evgeniya Balmashnova) – Graphicon 2008, June 23–27, 2008, Moscow, Russia (invited paper, oral presentation by co-author Dr. Evgeniya Balmashnova) – International Symposium on Mathematical Morphology, August 24–27, 2009, Groningen, The Netherlands – Fifteenth Portuguese Conference on Pattern Recognition, RecPad, October 23, 2009, Aveiro, Portugal – Symposium on Current Trends in Computer Vision, December 8, 2009, University of Auckland, New Zealand – 3TU.AMI Thematic Day on Health, University of Twente, March 10, 2011, Twente, The Netherlands – BIRS Workshop on Geometry for Anatomy, August 28–September 2, 2011, Banff, Canada – Center for Pattern Analysis and Machine Intelligence (CPAMI), University of Waterloo, September 23, 2011, Waterloo, Canada – CWI MAC Colloquium, October 4, 2011, Amsterdam, The Netherlands – Dagstuhl Seminar 11501, Visualization and Processing of Tensors and Higher Order Descriptors for Multi Valued Data, December 11–16, 2011, Dagstuhl, Germany – Tensor Imaging Meeting, February 3, 2012, Johan Bernouilli Institute for Mathematics & Computer Science, University of Groningen, The Netherlands – CV

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PR Colloquium, June 20, 2012, Delft University of Technology, The Netherlands – Johann Bernouilli Colloquium, October 31, 2012, University of Groningen, The Netherlands – Laboratory for Mathematics in Imaging, November 6, 2012, Harvard University, Cambridge, US – International BASP Frontiers Workshop 2013, January 27–February 2, 2013, Villars-sur-Ollon, Switzer land 6

– Dagstuhl Seminar 14082, Visualization and Processing of Higher Order Descriptors for Multi-Valued Data, February 16–21, 2014, Dagstuhl, Germany – CREATE Seminar, April 24, 2015, McGill University, Montreal, Canada – Dagstuhl Seminar 16142, Multidisciplinary Approaches to Multivalued Data: Modeling, Visualization, Analysis, April 3–81, 2016, Dagstuhl, Germany – New Methods in Finsler Geometry, July 6, 2016, Department of Mathematics, University of Leipzig – TU/e Open Lecture, November 17, 2016, High Tech Campus Eindhoven, The Netherlands

Supervisor of MSc (not listed) and PhD students and/or member of MSc (not listed) and PhD/PDEng com mittees: – 1998: Jon Sporring, Copenhagen (PhD committee) – 1997–2002: Arjan Kuijper, Utrecht (daily supervisor and copromotor) – 2001–2005: Remco Duits, Eindhoven (daily supervisor and copromotor, STW project, cum laude) – 2003–2007: Bram Platel, Eindhoven (daily supervisor and copromotor, EU IST project) – 2002–2007: Frans Kanters, Eindhoven (daily supervisor and copromotor, EU IST project) – 2004–2007: Evguenia Balmashnova, Eindhoven (daily supervisor and copromotor, IOP project) – 2005–2009: Bart Janssen, Eindhoven (supervisor and promotor, Vici project) – 2005–2007: Arjen Ricksen, Eindhoven (daily supervisor, STW project) – 2006–2010: Laura Astola, Eindhoven (supervisor and promotor, Vici project) – 2006–2007: Alessandro Becciu (daily supervisor, STW project) – 2007: Markus van Almsick, Eindhoven (copromotor) – 2008: Erik Franken, Eindhoven (PhD committee, cum laude) – 2009: Alexander Broersen, Eindhoven (PhD committee) – 2009: David Gustavsson, Copenhagen (PhD committee) – 2011: Paulo Rodrigues, Eindhoven (PhD committee) – 2011: Godwin Kakuba, Eindhoven (PhD committee) – 2011: Renske de Boer, Rotterdam (PhD committee) – 2011: Ellen Brunenberg, Eindhoven (PhD committee) – 2011: Neda Sepasian, Eindhoven (PhD committee) – 2011: Maria Rudnaya, Eindhoven (PhD committee) – 2013: Yan Li, Delft (PhD committee) – 2014: Lena Filatova (daily supervisor and PDEng advisor) – 2015: Jeffrey Kasten, EPFL Lausanne (opponent PhD defense) – 2011–2014: Eric Creusen (promotor, High Potential Program IST/e) – 2012–2017: Tom Dela Haije (promotor, NWO Division for Physical Sciences Free Competition) – 2011–2015: Abdallah Mohamed (promotor, High Potential Program IST/e) – 2015: Emmanuel Piuze-Phaneuf, McGill University (PhD committee, opponent and assessor) – 2017: Tom Dela Haije, Eindhoven (daily supervisor and promotor, NWO project)

Referee for the German Habilitation degree: – 2008: Bernhard Burgeth

Supervisor of Postdocs: – 2005–2010: Remco Duits, Eindhoven (40% fte Innovational Research Incentives Scheme Vici project) 7

– 2006: Bernhard Burgeth (Innovational Research Incentives Scheme Vici project) – 2007–2009: Frans Kanters, Eindhoven (70% fte Innovational Research Incentives Scheme Vici project) – 2007–2010: Evgeniya Balmashnova, Eindhoven (100% fte Innovational Research Incentives Scheme Vici project) – 2010–2013: Evgeniya Balmashnova, Eindhoven (100% fte High Potential Program IST/e) – 2011–present: Andrea Fuster, Eindhoven (100% fte High Potential Program IST/e)

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2006: Member of assessment committee for candidates associate professorship at IT University of Copenhagen 2013: Member of assessment committee for candidates assistant professorship at DIKU University of Copen hagen

2013–present: Member of Cum Laude Committee for PhD students of Eindhoven University of Technology

Project Grants

2002–2005: EU project IST–2001—35443 “Deep Structure, Singularities, and Computer Vision” (DSSCV), co-initiator together with IT University of Copenhagen ( e 1 500 k)

2010–2014: High Potential Research Programme “Image Science & Technology Eindhoven (IST/e)”, principal investigator ( e 1 000 k)

2012–2016: NWO Division for Physical Sciences Free Competition “Riemann-Finsler Geometry for Human Brain Connectomics”, principal investigator ( e 243.115)

Involved as partner and daily supervisor in various other research projects (STW, IOP, BSIK)

Personal Grants

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01–01–1994/30–11–1995: Personal grant from the European Union: ERCIM/HCM 13 (bursary and lump sum) 01–01–1996/31–12–1996: Personal grant from the Danish Research Council (salary and expenses) 01–06–2005/31–05–2010: Personal grant from the Netherlands Organisation for Scientific Research (NWO): Vici, Innovational Research Incentives Scheme ( e 1 250 k) 13 ERCIM=European Research Consortium on Informatics and Mathematics, HCM=Human Capital and Mobility Fund 8

Publications

H-index Google Scholar 14 : 32 (July 19, 2016).

Publications as First Author

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Master’s Thesis: [1] PhD Thesis: [2] Monograph: [3] Edited Book: [4] Peer Reviewed Journal Articles: [5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21] Conference Papers and Book Chapters: [22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51]

Miscellaneous: [52, 53, 54, 55] Publications as Co-Author

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Books and Proceedings: [56, 57, 58, 59] Peer Reviewed Journal Articles: [60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90]

Conference Papers and Book Chapters: [91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, 150, 151, 152, 153, 154, 155, 156, 157, 158, 159, 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, 170, 171, 172, 173, 174, 175, 176, 177, 178, 90, 179] [1] L. M. J. Florack, “BRST-quantization of gauge field theories,” Master’s thesis, University of Utrecht, Depart ment of Theoretical Physics, The Netherlands, August 1989.

[2] L. M. J. Florack, The Syntactical Structure of Scalar Images. PhD thesis, University of Utrecht, Department of Medicine, Utrecht, The Netherlands, November 10 1993. (cum laude).

[3] L. M. J. Florack, Image Structure, vol. 10 of Computational Imaging and Vision Series.

Netherlands: Kluwer Academic Publishers, 1997.

Dordrecht, The [4] L. Florack, R. Duits, G. Jongbloed, M.-C. van Lieshout, and L. Davies, eds., Mathematical Methods for Signal and Image Analysis and Representation, vol. 41 of Computational Imaging and Vision Series. Springer-Verlag, 2012.

[5] L. M. J. Florack, B. M. t. Haar Romeny, J. J. Koenderink, and M. A. Viergever, “Scale and the differential structure of images,” Image and Vision Computing, vol. 10, pp. 376–388, July/August 1992.

[6] L. M. J. Florack, B. M. t. Haar Romeny, J. J. Koenderink, and M. A. Viergever, “Cartesian differential invariants in scale-space,” Journal of Mathematical Imaging and Vision, vol. 3, pp. 327–348, November 1993.

[7] L. M. J. Florack, B. M. t. Haar Romeny, J. J. Koenderink, and M. A. Viergever, “Linear scale-space,” Journal of Mathematical Imaging and Vision, vol. 4, no. 4, pp. 325–351, 1994.

[8] L. M. J. Florack, B. M. t. Haar Romeny, J. J. Koenderink, and M. A. Viergever, “General intensity transfor mations and differential invariants,” Journal of Mathematical Imaging and Vision, vol. 4, no. 2, pp. 171–187, 1994.

14 Source: Google Scholar, cf. scholar.google.com

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[9] L. M. J. Florack, A. H. Salden, B. M. t. Haar Romeny, J. J. Koenderink, and M. A. Viergever, “Nonlinear scale space,” Image and Vision Computing, vol. 13, pp. 279–294, May 1995. Published in the Promising Research direction track.

[10] L. M. J. Florack, B. M. t. Haar Romeny, J. J. Koenderink, and M. A. Viergever, “The Gaussian scale-space paradigm and the multiscale local jet,” International Journal of Computer Vision, vol. 18, pp. 61–75, April 1996.

[11] L. M. J. Florack, W. J. Niessen, and M. Nielsen, “The intrinsic structure of optic flow incorporating measure ment duality,” International Journal of Computer Vision, vol. 27, pp. 263–286, May 1998.

[12] L. M. J. Florack, R. Maas, and W. J. Niessen, “Pseudo-linear scale-space theory,” International Journal of Computer Vision, vol. 31, pp. 247–259, April 1999.

[13] L. Florack and A. Kuijper, “The topological structure of scale-space images,” Journal of Mathematical Imaging and Vision, vol. 12, pp. 65–79, February 2000.

[14] L. M. J. Florack, “A spatio-frequency trade-off scale for scale-space filtering,” IEEE Transactions on Pattern Analysis and Machine Intelligence, vol. 22, pp. 1050–1055, September 2000.

[15] L. M. J. Florack, “Non-linear scale-spaces isomorphic to the linear case with applications to scalar, vector and multispectral images,” Journal of Mathematical Imaging and Vision, vol. 15, pp. 39–53, July/October 2001.

Selected papers from the Scandinavian Conference on Image Analysis, Kangerlussuaq, Greenland.

[16] L. M. J. Florack, “Non-linear scale-spaces isomorphic to the linear case with applications to scalar, vector and multispectral images,” International Journal of Computer Vision, vol. 42, pp. 39–53, April/May 2001. Selected papers from the Scandinavian Conference on Image Analysis, Kangerlussuaq, Greenland.

[17] L. Florack, “Coarse-to-fine partitioning of signals,” Proc. Appl. Math. Mech., vol. 7, no. 1, pp. 1011203–1011204.

Special Issue: Sixth International Congress on Industrial Applied Mathematics (ICIAM07) and GAMM Annual [18] L. Florack and H. van Assen, “A new methodology for multiscale myocardial deformation and strain anal ysis based on tagging MRI,” International Journal of Biomedical Imaging, 2010.

10.1155/2010/341242.

Published online: DOI [19] L. Florack, E. Balmashnova, L. Astola, and E. Brunenberg, “A new tensorial framework for single-shell high angular resolution diffusion imaging,” Journal of Mathematical Imaging and Vision, vol. 3, pp. 171–181, August 13 2010. Published online: DOI 10.1007/s10851-010-0217-3.

[20] L. Florack and H. van Assen, “Multiplicative calculus in biomedical image analysis,” Journal of Mathematical Imaging and Vision, vol. 42, no. 1, pp. 64–75, 2012.

[21] L. Florack, “Canonical coordinates for retino-cortical magnification,” Axioms, vol. 3, no. 1, pp. 70–81, 2014.

[22] L. M. J. Florack, B. M. t. Haar Romeny, J. J. Koenderink, and M. A. Viergever, “General intensity transfor mations and second order invariants,” in Theory & Applications of Image Analysis (P. Johansen and S. Olsen, eds.), vol. 2 of Series in Machine Perception and Artificial Intelligence, pp. 22–29, Singapore: World Scientific, 1992. Selected papers from the 7th Scandinavian Conference on Image Analysis.

[23] L. M. J. Florack, B. M. t. Haar Romeny, J. J. Koenderink, and M. A. Viergever, “Images: Regular tempered distributions,” in Proceedings of the NATO Advanced Research Workshop Shape in Picture - Mathematical Description of Shape in Greylevel Images (Y.-L. O, A. Toet, H. J. A. M. Heijmans, D. H. Foster, and P. Meer, eds.), vol. 126 of NATO ASI Series F: Computer and Systems Sciences, (Berlin), pp. 651–660, Springer-Verlag, 1994.

[24] L. M. J. Florack, B. M. t. Haar Romeny, J. J. Koenderink, and M. A. Viergever, “Families of tuned scale space kernels,” in Proceedings of the Second European Conference on Computer Vision (Santa Margherita Ligure, Italy, May 1992) (G. Sandini, ed.), vol. 588 of Lecture Notes in Computer Science, (Berlin), pp. 19–23, Springer-Verlag, 1992.

[25] L. M. J. Florack, A. H. Salden, B. M. t. Haar Romeny, J. J. Koenderink, and M. A. Viergever, “Nonlinear scale space,” in Geometry-Driven Diffusion in Computer Vision (B. M. t. Haar Romeny, ed.), vol. 1 of Computational Imaging and Vision Series, pp. 339–370, Dordrecht: Kluwer Academic Publishers, 1994.

[26] L. M. J. Florack, “Data, models, and images,” in Proceedings of the International Conference on Image Pro cessing 1996 (Lausanne, Switzerland, September 1996) (P. Delogne, ed.), vol. 1, pp. 469–472, IEEE, 1996.

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[27] L. M. J. Florack, “Scale-space and measurement duality,” in Sporring et al. [57], ch. 5, pp. 61–74.

[28] L. M. J. Florack, “Detection of critical points and top-points in scale-space,” in Johansen [186], pp. 73–81.

DIKU Tech. Rep. Nr. 96/22.

[29] L. M. J. Florack, “Measurement duality,” in Biophysics of Shape (C. Erkelens, ed.), pp. 7–13, April 2–4 1997.

[30] L. M. J. Florack, “Duality principles in image processing and analysis,” in Image and Vision Computing (R. Klette, G. Gimel’farb, and R. Kakarala, eds.), (Auckland, New Zealand), pp. 286–296, November 16–18 1998.

[31] L. M. J. Florack, “Visual representations embodying spacetime structure,” in Fundamental Structural Prop erties in Image and Pattern Analysis 1999 (International Workshop, Budapest, Hungary, September 6–7, Gesellschaft, pp. 25–34, 1999.

[32] L. M. J. Florack, “Non-linear scale-spaces isomorphic to the linear case,” in Proceedings of the 11th Scandina vian Conference on Image Analysis (Kangerlussuaq, Greenland, June 7–11 1999) (B. K. Ersbøll and P. Johansen, eds.), vol. 1, (Lyngby, Denmark), pp. 229–234, 1999.

[33] L. M. J. Florack, “Motion extraction—an approach based on duality and gauge theory,” in Performance Char acterization in Computer Vision (R. Klette, H. S. Stiehl, M. A. Viergever, and K. L. Vincken, eds.), vol. 17 of Computational Imaging and Vision Series, pp. 69–80, Kluwer Academic Publishers, 2000.

[34] L. M. J. Florack, “A geometric model for cortical magnification,” in Lee et al. [187], pp. 574–583.

[35] L. M. J. Florack, “Scale-space theories for scalar and vector images,” in Kerckhove [188], pp. 193–204.

[36] L. M. J. Florack and R. Duits, “Regularity classes for locally orderless images,” in Griffin and Lillholm [185], pp. 255–265.

[37] L. Florack, R. Duits, and J. Bierkens, “Tikhonov regularization versus scale space: A new result,” in Proceedings of the 11th International Conference on Image Processing (Singapore, October 24–27, 2004) [189], pp. 271–274.

[38] L. M. J. Florack, “Deep structure from a geometric point of view,” in Fogh Olsen et al. [59], pp. 135–145.

[39] L. M. J. Florack, B. J. Janssen, F. M. W. Kanters, and R. Duits, “Towards a new paradigm for motion extrac tion,” in ICIAR 2006: Proceedings of the Third International Conference on Image Analysis and Recognition, (Berlin), pp. 743–754, Springer-Verlag, September 2006.

[40] L. M. J. Florack, “Modeling foveal vision,” in Sgallari et al. [182], pp. 919–928.

[41] L. Florack, H. van Assen, and A. Suinesiaputra, “Dense multiscale motion extraction from cardiac cine MR tagging using HARP technology,” in Proceedings of the 8th IEEE Computer Society Workshop on Mathematical Methods in Biomedical Image Analysis, held in conjuction with the IEEE International Conference on Computer Vision (Rio de Janeiro, Brazil, October 14–20, 2007) (W. Niessen, C.-F. Westin, and M. Nielsen, eds.). Digital proceedings by Omnipress.

[42] L. Florack and E. Balmashnova, “Decomposition of high angular resolution diffusion images into a sum of self similar polynomials on the sphere,” in Proceedings of the Eighteenth International Conference on Computer Graphics and Vision, GraphiCon’2008, Moscow, Russia, June 23–27, 2008 (Y. Bayakovsky and E. Moiseev, eds.), pp. 26–31, Moscow State University, 2008. Invited paper.

[43] L. M. J. Florack, “Codomain scale space and regularization for high angular resolution diffusion imaging,” in and de Luis Garcia [190]. Digital proceedings.

[45] L. Florack and E. Balmashnova, “Two canonical representations for regularized high angular resolution diffusion imaging,” in MICCAI Workshop on Computational Diffusion MRI (September 10 2008, New York, USA) (D. Alexander, J. Gee, and R. Whitaker, eds.), pp. 85–96, 2008.

[46] L. Florack, “Scale space representations locally adapted to the geometry of base and target manifold,” in Florack et al. [4], ch. 9, pp. 159–171.

11

[47] L. M. J. Florack, “Regularization of positive definite matrix fields based on multiplicative calculus,” in Scale Space and Variational Methods in Computer Vision: Proceedings of the Third International Conference, SSVM 2011, Ein-Gedi, Israel, May 29–June 2, 2011 (A. M. Bruckstein, B. M. ter Haar Romeny, A. M. Bronstein, and M. M. Bronstein, eds.), vol. 6667 of Lecture Notes in Computer Science, (Berlin), pp. 786–796, Springer-Verlag, 2012.

[48] L. M. J. Florack and A. Fuster, “Probing the human brain connectome,” No. 12 in Dagstuhl Reports, p. 34, Dagstuhl, Germany: Schloss Dagstuhl–Leibniz-Zentrum fuer Informatik, 2012.

[49] L. M. J. Florack, A. Fuster, and T. C. J. Dela Haije, “Riemann-Finsler geometry and its applications to diffusion magnetic resonance imaging,” in Wiaux and McEwen [191], p. 61.

[50] L. M. J. Florack and A. Fuster, “Riemann-Finsler geometry for diffusion weighted magnetic resonance imaging,” in Westin et al. [192], pp. 189–208.

[51] L. M. J. Florack, T. C. J. Dela Haije, and A. Fuster, “Direction-controlled DTI interpolation,” in Visualization and Processing of Tensors and Higher Order Descriptors for Multi-Valued Data (I. Hotz and T. Schultz, eds.), Mathematics and Visualization, pp. 149–162, Springer-Verlag, 2015.

[52] L. M. J. Florack, “Visuele perceptie en digitale beeldverwerking,” Nieuw Archief voor Wiskunde, vol. 3, pp. 34– 41, March 2002. (in Dutch).

[53] L. M. J. Florack, “Mathematical techniques for image analysis,” 2002. Course notes used at the Department of Biomedical Engineering, Eindhoven University of Technology.

[54] L. M. J. Florack, “Generic methods for multi-scale and multi-orientation image processing.” Invited talk at the Symposium on Medical Image Processing: From Basic Concepts to Clinical Applications, Erasmus Expo and Congress Center, Erasmus University, January 13 2006. Symposium held on the occasion of the inaugural lecture of Professor Wiro Niessen.

[55] L. Florack, “Plaatjes kijken,” in Experiment NL: Wetenschap in Nederland (H. Eggen, V. Groot, L. ’t Hart, J. de Man, M. Stenneke, and S. Zinsmeister, eds.), vol. 4, ch. 2: Medische Technologie, Joint publication by Quest and NWO, 2011. In Dutch.

[56] B. M. t. Haar Romeny, L. M. J. Florack, J. J. Koenderink, and M. A. Viergever, eds., Scale-Space Theory in Computer Vision: Proceedings of the First International Conference, Scale-Space’97, Utrecht, The Netherlands, vol. 1252 of Lecture Notes in Computer Science. Berlin: Springer-Verlag, July 1997.

[57] J. Sporring, M. Nielsen, L. M. J. Florack, and P. Johansen, eds., Gaussian Scale-Space Theory, vol. 8 of Computational Imaging and Vision Series. Dordrecht, The Netherlands: Kluwer Academic Publishers, 1997.

[58] S. Vassiliadis, L. M. J. Florack, J. W. J. Heijnsdijk, and A. van der Steen, eds., Proceedings of the Ninth Annual Conference of the Advanced School for Computing and Imaging (Heijen, The Netherlands, June 4–6 2003), ASCI, 2003.

[59] O. Fogh Olsen, L. M. J. Florack, and A. Kuijper, eds., Deep Structure, Singularities and Computer Vision, vol. 3753 of Lecture Notes in Computer Science, Springer-Verlag, 2005.

[60] E. v. Aart, N. Sepasian, A. Jalba, and A. Vilanova, “CUDA-accelerated geodesic ray-tracing for fiber tracking,” International Journal of Biomedical Imaging, 2011. Published online: DOI 10.1155/2011/698908.

[61] L. J. Astola, A. C. Jalba, E. G. Balmashnova, and L. M. J. Florack, “Finsler streamline tracking with single tensor orientation distribution function for high angular resolution diffusion imaging,” Journal of Mathematical Imaging and Vision, vol. 41, no. 3, pp. 170–181, 2011.

[62] L. J. Astola and L. M. J. Florack, “Finsler geometry on higher order tensor fields and applications to high angular resolution diffusion imaging,” International Journal of Computer Vision, vol. 92, no. 3, pp. 325–336, 2011.

[63] L. Astola, A. Fuster, and L. Florack, “A Riemannian scalar measure for diffusion tensor images,” Pattern Recognition, vol. 44, no. 9, pp. 1885–1891, 2011. doi:10.1016/j.patcog.2010.09.009.

[64] L. Astola, N. Sepasian, T. Dela Haije, A. Fuster, and L. Florack, “A simplified algorithm for inverting higher order diffusion tensors,” Axioms, vol. 3, no. 4, pp. 369–379, 2014.

[65] E. Balmashnova and L. M. J. Florack, “Novel similarity measures for differential invariant descriptors for generic object retrieval,” Journal of Mathematical Imaging and Vision, vol. 31, pp. 21–32, July 2008.

12

[66] A. Becciu, A. Fuster, M. Pottek, B. van den Heuvel, B. ter Haar Romeny, and H. van Assen, “3D winding number: Theory and application to medical imaging,” International Journal of Biomedical Imaging, 2011.

Published online: DOI 10.1155/2011/516942.

[67] B. Burgeth, S. Didas, L. Florack, and J. Weickert, “A generic approach to diffusion filtering of matrix-fields,” Computing, vol. 81, no. 2–3, pp. 179–197, 2007.

[68] E. Creusen, R. Duits, A. Vilanova, and L. M. J. Florack, “Numerical schemes for linear and non-linear enhance ment of DW-MRI,” Numerical Mathematics: Theory, Methods and Applications, vol. 6, pp. 138–168, February 2013.

[69] M. F. Demirci, B. Platel, A. Shokoufandeh, L. M. J. Florack, and S. J. Dickinson, “The representation and matching of images using top points,” Journal of Mathematical Imaging and Vision, vol. 35, no. 2, pp. 103–116, 2009.

[70] P. A. G. Dorst, B. J. Janssen, L. M. J. Florack, and B. M. ter Haar Romeny, “Optic flow based on multi scale anchor point movement and discontinuity-preserving regularization,” Pattern Recognition, vol. 44, no. 9, pp. 2057–2062, 2011.

[71] R. Duits, L. Florack, J. de Graaf, and B. ter Haar Romeny, “On the axioms of scale space theory,” Journal of Mathematical Imaging and Vision, vol. 20, no. 3, pp. 267–298, 2004.

[72] R. Duits, M. van Almsick, M. Duits, E. Franken, and L. M. J. Florack, “Image processing via shift-twist invariant operations on orientation bundle functions,” Pattern Recognition and Image Analysis, vol. 15, no. 1, pp. 151–156, 2005.

on Gabor transforms and their applications,” Applied and Computational Harmonic Analysis, 2012.

http://dx.doi.org/10.1016/j.acha.2012.11.007.

transforms and their applications,” Applied and Computational Harmonic Analysis, vol. 35, no. 3, pp. 483–526, 2013.

[75] M. Felsberg, R. Duits, and L. M. J. Florack, “The monogenic scale space on a rectangular domain and its features,” International Journal of Computer Vision, vol. 64, no. 2–3, pp. 187–201, 2005.

[76] F. M. W. Kanters, L. M. J. Florack, R. Duits, and B. Platel, “

α

-scale spaces in practice,” Pattern Recognition and Image Analysis, vol. 15, no. 1, pp. 208–211, 2005.

[77] F. Kanters, L. Florack, R. Duits, B. Platel, and B. ter Haar Romeny, “ScaleSpaceViz: practice,” Pattern Recognition and Image Analysis, vol. 17, no. 1, pp. 106–116, 2007.

α

scale spaces in [78] A. Kuijper, L. M. J. Florack, and M. A. Viergever, “Scale space hierarchy,” Journal of Mathematical Imaging and Vision, vol. 18, pp. 169–189, March 2003.

[79] A. Kuijper and L. M. J. Florack, “The hierarchical structure of images,” IEEE Transactions on Image Process ing, vol. 12, no. 9, pp. 1067–1079, 2003.

[80] A. Kuijper and L. M. J. Florack, “The relevance of non-generic events in scale space models,” International Journal of Computer Vision, vol. 57, no. 1, pp. 67–84, 2004.

[81] J. Llacer, B. M. t. Haar Romeny, L. M. J. Florack, and M. A. Viergever, “The representation of medical images by visual response functions,” IEEE Engineering in Medicine and Biology, vol. 3, no. 93, pp. 40–47, 1993.

[82] A. G. Motaal, B. F. Coolen, D. Abdurrachim, R. M. Castro, J. Prompers, L. M. J. Florack, K. Nicolay, and G. J. Strijkers, “Accelerated high-frame-rate mouse heart cinematographic MRI using compressed sensing reconstruction,” NMR in Biomedicine, October 2012.

[83] A. G. Motaal, B. F. Coolen, D. Abdurrachim, R. M. Castro, J. J. Prompers, L. M. J. Florack, K. Nicolay, and G. J. Strijkers, “Accelerated high-frame-rate mouse heart cine-MRI using compressed sensing reconstruction,” NMR in Biomedicine, vol. 26, pp. 451–457, Apr. 2013.

[84] A. G. Motaal, N. Noorman, W. L. de Graaf, V. Hoerr, L. M. J. Florack, K. Nicolay, and G. J. Strijkers, “Functional imaging of murine hearts using accelerated self-gated UTE cine MRI,” International Journal of Cardiovascular Imaging, September 2014. Accepted for publication.

[85] M. Nielsen, L. M. J. Florack, and R. Deriche, “Regularization, scale-space and edge detection filters,” Journal of Mathematical Imaging and Vision, vol. 7, pp. 291–307, October 1997.

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[86] M. Nielsen, R. Maas, W. J. Niessen, and L. M. J. Florack, “Binocular stereo from grey-scale images,” Journal of Mathematical Imaging and Vision, vol. 10, pp. 103–122, March 1999.

[87] W. J. Niessen, J. S. Duncan, M. Nielsen, L. M. J. Florack, B. M. t. Haar Romeny, and M. A. Viergever, “A multiscale approach to image sequence analysis,” Computer Vision and Image Understanding, vol. 65, pp. 259–268, February 1997.

[88] W. J. Niessen, B. M. t. Haar Romeny, L. M. J. Florack, and M. A. Viergever, “A general framework for geometry-driven evolution equations,” International Journal of Computer Vision, vol. 21, no. 3, pp. 187–205, 1997.

[89] A. Suinesiaputra, L. M. J. Florack, and B. M. ter Haar Romeny, “Multiscale optic flow analysis of MR tagging heart image sequences,” European Journal of Medical Physics, vol. 19, p. 48, 2003.

[90] C. M. W. Tax, T. C. J. Dela Haije, A. Fuster, C.-F. Westin, M. A. Viergever, L. M. J. Florack, and A. Leemans, “Sheet probability index (SPI): Characterizing the geometrical organization of the white matter with diffusion MRI,” Neuroimage, 2017. In press.

[91] H. v. Assen, L. Florack, A. Suinesiaputra, J. Westenberg, and B. ter Haar Romeny, “Purely evidence based multiscale cardiac tracking using optic flow,” in Proceedings of the MICCAI Workshop on Computational Biomechanics for Medicine II (Brisbane, Australia, October 29, 2007) (K. Miller, K. D. Paulsen, A. A. Young, and P. M. F. Nielsen, eds.), pp. 84–93, 2007.

[92] H. C. v. Assen, L. M. J. Florack, J. J. M. Westenberg, and B. M. ter Haar Romeny, “Tuple image multi scale optical flow for detailed cardiac motion extraction: Application to left ventricle rotation analysis,” in Proceedings of the MICCAI Workshop on Analysis of Functional Medical Images (New York, USA, September 10, 2008) (R. Abugharbieh and G. Hamarneh, eds.), pp. 73–80, 2008.

[93] H. C. Assen, L. M. J. Florack, A. Suinesiaputra, and B. M. ter Haar Romeny, “Cardiac motion estimation using multi-scale optic flow: a successful application of Mathematica to a life sciences problem,” in Elec tronic Proceedings of the 9th International Mathematica Symposium (IMS 2008) (M. A. v. Almsick, B. M. ter Haar Romeny, and B. J. Janssen, eds.), (Maastricht, The Netherlands), June 20–24 2008.

[94] H. C. v. Assen, L. M. J. Florack, F. F. J. Simonis, J. J. M. Westenberg, and G. J. Strijkers, “Cardiac strain and rotation analysis using multi-scale optical flow,” in Proceedings of the MICCAI Workshop on Computational Biomechanics for Medicine V (Beijing, China, September 24, 2010) (A. Wittek, P. M. F. Nielsen, and K. Miller, eds.), pp. 89–100, 2010.

[95] H. C. v. Assen, L. M. J. Florack, F. F. J. Simonis, J. J. M. Westenberg, G. J. Strijkers, and B. M. ter Haar Romeny, “Towards non-invasive automatic detection of cardiac pathology by strain and rotation analysis,” in Proceedings of the Joint Annual Meeting ISMRM-ESMRMB May 1–7, 2010 Stockholm, Sweden, ISMRM ESMRMB, 2010. E-Poster.

[96] L. Astola, L. Florack, and B. ter Haar Romeny, “Measures for pathway analysis in brain white matter using diffusion tensor images,” in Proceedings of the Twentieth International Conference on Information Processing in Medical Imaging–IPMI 2007 (Kerkrade, The Netherlands) (N. Karssemeijer and B. Lelieveldt, eds.), vol. 4584 of Lecture Notes in Computer Science, (Berlin), pp. 642–649, Springer-Verlag, 2007.

[97] L. J. Astola, L. M. J. Florack, and B. M. ter Haar Romeny, “Measures for pathway analysis in brain white matter using diffusion tensor images,” in Proceedings of the Thirteenth Annual Conference of the Advanced School for Computing and Imaging (Heijen, The Netherlands, June 13–15 2003) (F. W. Jansen, G. E. O. Pierre, C. J. Veenman, and J. W. J. Heijnsdijk, eds.), pp. 257–261, ASCI, 2007.

[98] L. Astola, L. Florack, and M. van Almsick, “Pseudo-linear scale space on diffusion tensor images,” in Electronic Proceedings of the 9th International Mathematica Symposium (IMS 2008) (B. ter Haar Romeny, M. van Almsick, and B. Janssen, eds.), (Maastricht, The Netherlands), June 20–24 2008.

[99] L. Astola and L. Florack, “Sticky vector fields and other geometric measures on diffusion tensor images,” in Proceedings of the 9th IEEE Computer Society Workshop on Mathematical Methods in Biomedical Image Analysis, held in conjuction with the IEEE Computer Society Conference on Computer Vision and Pattern Recognition (Anchorage, Alaska, USA, June 23–28, 2008), IEEE Computer Society Press.

[100] L. J. Astola and L. M. J. Florack, “Finsler geometry on higher order tensor fields and applications to high angular resolution diffusion imaging,” in Tai et al. [180], pp. 224–234.

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[101] L. J. Astola and L. M. J. Florack, “Elementary multi-scale Riemann-Finsler geometry and applications to tensor valued medical image analysis.” Poster presented at the 21st Rolf Nevanlinna Colloquium at Kyoto University, September 7–11, 2009, Kyoto, Japan.

[102] E. Balmachnova, L. M. J. Florack, B. Platel, F. M. W. Kanters, and B. M. ter Haar Romeny, “Stability of top-points in scale space,” in Kimmel et al. [181], pp. 62–72.

[103] E. Balmachnova, L. Florack, and B. ter Haar Romeny, “Feature vector similarity based on local structure,” in Sgallari et al. [182], pp. 386–393.

[104] E. Balmashnova, B. Platel, L. Florack, and B. ter Haar Romeny, “Object matching in the presence of non-rigid deformations close to similarities,” in Proceedings of the 8th IEEE Computer Society Workshop on Non-Rigid Registration and Tracking through Learning, held in conjuction with the IEEE International Conference on Computer Vision (Rio de Janeiro, Brazil, October 14–20, 2007) [183]. Digital proceedings by Omnipress.

[105] E. Balmashnova, B. Platel, L. Florack, and B. ter Haar Romeny, “Content-based image retrieval by means of scale-space top-points and differential invariants,” in Proceedings of the MICCAI Workshop on Medical Content Based Image Retrieval for Biomedical Image Archives: Achievements, Problems, and Prospects (Brisbane, Australia, October 29, 2007) (H. Greenspan and T. Lehmann, eds.), pp. 83–92, 2007.

[106] E. Balmashnova, B. Platel, L. Florack, and B. ter Haar Romeny, “Object matching in the presence of non-rigid deformations close to similarities,” in Proceedings of the 8th IEEE Computer Society Workshop on Non-Rigid Registration and Tracking through Learning, held in conjuction with the IEEE International Conference on Computer Vision (Rio de Janeiro, Brazil, October 14–20, 2007) [183]. Digital proceedings by Omnipress.

[107] A. Becciu, H. C. van Assen, L. M. J. Florack, B. J. Janssen, and B. M. ter Haar Romeny, “Cardiac mo tion estimation using multi-scale feature points,” in Proceedings of the MICCAI Workshop on Computational Biomechanics for Medicine III (New York, USA, September 10, 2008) (K. Miller and P. M. F. Nielsen, eds.), pp. 5–14, 2008.

[108] A. Becciu, P. A. G. van Dorst, H. C. van Assen, L. M. J. Florack, and B. M. ter Haar Romeny, “Study of the multi-scale optic flow constraint equation using different orders of Taylor expansion,” in Electronic Proceedings of the 9th International Mathematica Symposium (IMS 2008) (M. A. v. Almsick, B. M. ter Haar Romeny, and B. J. Janssen, eds.), (Maastricht, The Netherlands), June 20–24 2008.

[109] A. Becciu, H. C. van Assen, L. M. J. Florack, B. J. Janssen, and B. M. ter Haar Romeny, “Cardiac motion estimation using multi-scale feature points,” in Proceedings of the 14th Annual Conference of the Advanced School for Computing and Imaging (G. Smit, D. Epema, and M. Lew, eds.), (Heijen, The Netherlands), June 11–13 2008.

[110] A. Becciu, B. Janssen, H. van Assen, L. Florack, V. Roode, and B. ter Haar Romeny, “Extraction of cardiac motion using scale-space features points and gauged reconstruction,” in Jiang and Petkov [184], pp. 598–605.

[111] A. Becciu, H. van Assen, L. Florack, S. Kozerke, V. Roode, and B. ter Haar Romeny, “A multi-scale feature based optic flow method for 3D cardiac motion estimation,” in Tai et al. [180], pp. 588–599.

[112] A. Becciu, R. Duits, B. J. Janssen, L. M. J. Florack, and H. C. van Assen, “Cardiac motion estimation using covariant derivatives and Helmholtz decomposition,” in Second International Workshop on Statistical Atlases and Computational Models of the Heart: Imaging and Modelling Challenges (STACOM 2011, September 22, 2011, Toronto, Canada) (O. Camara, K. Rhode, E. Konukoglu, M. Pop, M. Sermesant, and A. Young, eds.), vol. 7085 of Lecture Notes in Computer Science, Springer-Verlag, 2011.

[113] L. C. M. Bruurmijn, H. B. Kause, O. G. Filatova, R. Duits, A. Fuster, L. M. J. Florack, and H. C. van Assen, “Myocardial deformation from local frequency estimation in tagging MRI,” in Proceedings of the 7th International Conference on Functional Imaging and Modeling of the Heart—FIMH 2013 (London, UK, June 20–22 2013) (S. Ourselin, D. Rueckert, and N. Smith, eds.), vol. 7945 of Lecture Notes in Computer Science, (Berlin), pp. 284–291, Springer-Verlag, 2013.

[114] B. Burgeth, S. Didas, L. Florack, and J. Weickert, “A generic approach to the filtering of matrix fields with singular PDEs,” in Sgallari et al. [182], pp. 556–567.

[115] P. A. G. v. Dorst, A. Becciu, B. J. Janssen, L. M. J. Florack, and B. M. ter Haar Romeny, “Robust multi-scale optic flow using toppoints,” in Electronic Proceedings of the 9th International Mathematica Symposium (IMS 2008) (M. A. v. Almsick, B. M. ter Haar Romeny, and B. J. Janssen, eds.), (Maastricht, The Netherlands), June 20–24 2008. Presentation.

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[116] P. v. Dorst, B. Janssen, L. Florack, and B. ter Haar Romeny, “Optic flow using multi-scale anchor points,” in Jiang and Petkov [184], pp. 1104–1112.

[117] R. Duits, L. M. J. Florack, J. de Graaf, and B. M. ter Haar Romeny, “Scale-space axioms critically revisited,” in Proceedings of the Fourth IASTED International Conference Signal and Image Processing (Kaua’i, Hawaii, USA, August 12–14 2002) (N. Younan, ed.), (Anaheim, Calgary, Zurich), pp. 304–309, ACTA Press, 2002.

[118] R. Duits, M. Felsberg, L. Florack, and B. Platel, “

α

scale spaces on a bounded domain,” in Griffin and Lillholm [185], pp. 494–510.

[119] R. Duits, B. Janssen, F. Kanters, and L. Florack, “Linear image reconstruction from a sparse set of space features by means of inner products of Sobolev type,” in Fogh Olsen et al. [59], pp. 96–111.

α

-scale [120] R. Duits, F. Kanters, L. Florack, and B. ter Haar Romeny, “A comparison of the deep structure of spaces,” in Fogh Olsen et al. [59], pp. 234–248.

α

-scale [121] M. Felsberg, R. Duits, and L. Florack, “The monogenic scale space on a bounded domain and its applications,” in Griffin and Lillholm [185], pp. 209–224.

[122] E. Franken, M. van Almsick, P. Rongen, L. Florack, and B. ter Haar Romeny, “Steerable tensor voting,” in Proceedings of the Eleventh Annual Conference of the Advanced School for Computing and Imaging, Heijen, 8-10 2005.

[123] A. Fuster, L. J. Astola, and L. M. J. Florack, “A Riemannian scalar measure for diffusion tensor images,” in Jiang and Petkov [184], pp. 419–426.

[124] A. Fuster, J. van de Sande, L. Astola, C. Poupon, J. Velterop, and B. M. ter Haar Romeny, “Fourth order tensor invariants in high angular resolution diffusion imaging,” in MICCAI Workshop on Computational Diffusion MRI (September 22 2011, Toronto, Canada) (G. H. Zhang and N. Adluru, eds.), 2011.

[125] A. Fuster, R. F. P. van Pelt, R. H. J. Fick, G. G. H. Claassen, B. M. ter Haar Romeny, H. C. van Assen, and L. M. J. Florack, “3D saddle point detection and applications in cardiac imaging,” in Proceedings of the Ninth IEEE International Symposium on Biomedical Imaging (Barcelona, Spain, May 2–5 2012) (A. F. Frangi and A. Santos, eds.), IEEE Signal Processing Society, 2012.

[126] A. Fuster, T. C. J. Dela Haije, and L. M. J. Florack, “On the Riemannian rationale for diffusion tensor imaging,” in Wiaux and McEwen [191], p. 62.

[127] A. Fuster, A. Tristan-Vega, T. Dela Haije, C.-F. Westin, and L. Florack, “A novel Riemannian metric for geodesic tractography in DTI,” in MICCAI Workshop on Computational Diffusion MRI (September 22, 2013, Nagoya, Japan) (L. O’Donnell, T. Schultz, G. Nedjati-Gilani, and E. Panagiotaki, eds.), pp. 47–54, 2013.

[128] A. Fuster, A. Tristan-Vega, T. C. J. Dela Haije, C.-F. Westin, and L. M. J. Florack, “On the Riemannian rationale for DTI,” 2013. Poster presented at the International BASP Frontiers Workshop 2013, BASP 2013 (January 27–February 1, 2013, Villars-sur-Ollon, Switzerland).

[129] A. Fuster, A. Tristan-Vega, T. Dela Haije, C.-F. Westin, and L. Florack, “A novel Riemannian metric for geodesic tractography in DTI,” in Computational Diffusion MRI and Brain Connectivity (T. Schultz, G. Nedjati Gilani, A. Venkataraman, L. O’Donnell, and E. Panagiotaki, eds.), Mathematics and Visualization, pp. 97–104, Springer-Verlag, 2014.

tensors for geodesic tractography in white matter,” Journal of Mathematical Imaging and Vision, vol. 54, pp. 1–14, 2016.

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[132] B. M. t. Haar Romeny, L. M. J. Florack, M. de Swart, J. J. Wilting, and M. A. Viergever, “Deblurring Gaussian blur,” in Proceedings Mathematical Methods in Medical Imaging II, vol. 2299, (San Diego, CA), SPIE, July, 25–26 1994.

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