Michael Bajka

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2010

24 Stefan Tuchschmid, Michael Bajka, Matthias Harders: Comparing Automatic Simulator Assessment with Expert Assessment of Virtual Surgical Procedures. ISMBS 2010: 181-191

2009

23 Sven Hirsch, Dominik Szczerba, Bryn A. Lloyd, Michael Bajka, Niels Kuster, Gábor Székely: A Mechano-Chemical Model of a Solid Tumor for Therapy Outcome Predictions. ICCS (1) 2009: 715-724

2008

22 Dominik Szczerba, Bryn A. Lloyd, Michael Bajka, Gábor Székely: A Multiphysics Model of Myoma Growth. ICCS (2) 2008: 187-196

21 Edoardo Mazza, Patrick Grau, Marc Hollenstein, Michael Bajka: Constitutive Modeling of Human Liver Based on in Vivo Measurements. MICCAI (2) 2008: 726-733

20 Stefan Tuchschmid, Michael Bajka, Dominik Szczerba, Bryn A. Lloyd, Gábor Székely, Matthias Harders: Modeling intravasation of liquid distension media in surgical simulators. Medical Image Analysis 12(5): 567-576 (2008)

19 Matthias Harders, D. Bachofen, Markus Grassi, Michael Bajka, U. Spaelter, Matthias Teschner, Bruno Heidelberger, Raimundo Sierra, Denis Steinemann, Stefan Tuchschmid, János Zátonyi, Gábor Székely: Virtual Reality Based Simulation of Hysteroscopic Interventions. Presence 17(5): 441-462 (2008)

2007

18 Stefan Tuchschmid, Michael Bajka, Dominik Szczerba, Bryn A. Lloyd, Gábor Székely, Matthias Harders: Modelling Intravasation of Liquid Distension Media in Surgical Simulators. MICCAI (1) 2007: 717-724

17 Edoardo Mazza, Alessandro Nava, Dieter Hahnloser, Wolfram Jochum, Michael Bajka: The mechanical response of human liver and its relation to histology: An in vivo study. Medical Image Analysis 11(6): 663-672 (2007)

2006

16 Edoardo Mazza, Alessandro Nava, Margit Bauer, Raimund Winter, Michael Bajka, Gerhard Holzapfel: Mechanical properties of the human uterine cervix: An in vivo study. Medical Image Analysis 10(2): 125-136 (2006)

15 Raimundo Sierra, Gabriel Zsemlye, Gábor Székely, Michael Bajka: Generation of variable anatomical models for surgical training simulators. Medical Image Analysis 10(2): 275-285 (2006)

14 Raimundo Sierra, Michael Bajka, Gábor Székely: Tumor growth models to generate pathologies for surgical training simulators. Medical Image Analysis 10(3): 305-316 (2006)

2005

13 Raimundo Sierra, János Zátonyi, Michael Bajka, Gábor Székely, Matthias Harders: Hydrometra Simulation for VR-Based Hysteroscopy Training. MICCAI (2) 2005: 575-582

12 János Zátonyi, Rupert Paget, Gábor Székely, Markus Grassi, Michael Bajka: Real-time synthesis of bleeding for virtual hysteroscopy. Medical Image Analysis 9(3): 255-266 (2005)

2004

11 Alessandro Nava, Edoardo Mazza, Oliver Haefner, Michael Bajka: Experimental Observation and Modelling of Preconditioning in Soft Biological Tissues. ISMS 2004: 1-8

10 Raimundo Sierra, Michael Bajka, Celalettin Karadogan, Gábor Székely, Matthias Harders: Coherent Scene Generation for Surgical Simulators. ISMS 2004: 221-229

2003

9 Raimundo Sierra, Michael Bajka, Gábor Székely: Evaluation of different pathology generation strategies for surgical training simulators. CARS 2003: 376-381

8 Raimundo Sierra, Michael Bajka, Gábor Székely: Pathology Design for Surgical Training Simulators. IS4TH 2003: 375-384

7 Raimundo Sierra, Michael Bajka, Gábor Székely: Pathology Growth Model Based on Particles. MICCAI (1) 2003: 25-32

6 János Zátonyi, Rupert Paget, Gábor Székely, Michael Bajka: Real-Time Synthesis of Bleeding for Virtual Hysteroscopy. MICCAI (1) 2003: 67-74

2002

5 Raimundo Sierra, Gábor Székely, Michael Bajka: Generation of Pathologies for Surgical Training Simulators. MICCAI (2) 2002: 202-210

4 Jess Gerrit Snedeker, Michael Bajka, J. M. Hug, Gábor Székely, P. Niederer: The creation of a high-fidelity finite element model of the kidney for use in trauma research. Journal of Visualization and Computer Animation 13(1): 53-64 (2002)

3 M. Kauer, V. Vuskovic, J. Dual, Gábor Székely, Michael Bajka: Inverse finite element characterization of soft tissues. Medical Image Analysis 6(3): 275-287 (2002)

2001

2 M. Kauer, V. Vuskovic, J. Dual, Gábor Székely, Michael Bajka: Inverse Finite Element Characterization of Soft Tissues. MICCAI 2001: 128-136

2000

1 Gábor Székely, Michael Bajka, Christian Brechbühler, J. Dual, Rolf Enzler, U. Haller, Johannes Hug, R. Hutter, Nicholas Ironmonger, M. Kauer, V. Meier, P. Niederer, Alex Rhomberg, P. Schmid, G. Schweitzer, Markus Thaler, V. Vuskovic, Gerhard Tröster: Virtual Reality Based Simulation of Endoscopic Surgery. Presence 9(3): 310-333 (2000)

	2010
24		Stefan Tuchschmid, Michael Bajka, Matthias Harders: Comparing Automatic Simulator Assessment with Expert Assessment of Virtual Surgical Procedures. ISMBS 2010: 181-191
	2009
23		Sven Hirsch, Dominik Szczerba, Bryn A. Lloyd, Michael Bajka, Niels Kuster, Gábor Székely: A Mechano-Chemical Model of a Solid Tumor for Therapy Outcome Predictions. ICCS (1) 2009: 715-724
	2008
22		Dominik Szczerba, Bryn A. Lloyd, Michael Bajka, Gábor Székely: A Multiphysics Model of Myoma Growth. ICCS (2) 2008: 187-196
21		Edoardo Mazza, Patrick Grau, Marc Hollenstein, Michael Bajka: Constitutive Modeling of Human Liver Based on in Vivo Measurements. MICCAI (2) 2008: 726-733
20		Stefan Tuchschmid, Michael Bajka, Dominik Szczerba, Bryn A. Lloyd, Gábor Székely, Matthias Harders: Modeling intravasation of liquid distension media in surgical simulators. Medical Image Analysis 12(5): 567-576 (2008)
19		Matthias Harders, D. Bachofen, Markus Grassi, Michael Bajka, U. Spaelter, Matthias Teschner, Bruno Heidelberger, Raimundo Sierra, Denis Steinemann, Stefan Tuchschmid, János Zátonyi, Gábor Székely: Virtual Reality Based Simulation of Hysteroscopic Interventions. Presence 17(5): 441-462 (2008)
	2007
18		Stefan Tuchschmid, Michael Bajka, Dominik Szczerba, Bryn A. Lloyd, Gábor Székely, Matthias Harders: Modelling Intravasation of Liquid Distension Media in Surgical Simulators. MICCAI (1) 2007: 717-724
17		Edoardo Mazza, Alessandro Nava, Dieter Hahnloser, Wolfram Jochum, Michael Bajka: The mechanical response of human liver and its relation to histology: An in vivo study. Medical Image Analysis 11(6): 663-672 (2007)
	2006
16		Edoardo Mazza, Alessandro Nava, Margit Bauer, Raimund Winter, Michael Bajka, Gerhard Holzapfel: Mechanical properties of the human uterine cervix: An in vivo study. Medical Image Analysis 10(2): 125-136 (2006)
15		Raimundo Sierra, Gabriel Zsemlye, Gábor Székely, Michael Bajka: Generation of variable anatomical models for surgical training simulators. Medical Image Analysis 10(2): 275-285 (2006)
14		Raimundo Sierra, Michael Bajka, Gábor Székely: Tumor growth models to generate pathologies for surgical training simulators. Medical Image Analysis 10(3): 305-316 (2006)
	2005
13		Raimundo Sierra, János Zátonyi, Michael Bajka, Gábor Székely, Matthias Harders: Hydrometra Simulation for VR-Based Hysteroscopy Training. MICCAI (2) 2005: 575-582
12		János Zátonyi, Rupert Paget, Gábor Székely, Markus Grassi, Michael Bajka: Real-time synthesis of bleeding for virtual hysteroscopy. Medical Image Analysis 9(3): 255-266 (2005)
	2004
11		Alessandro Nava, Edoardo Mazza, Oliver Haefner, Michael Bajka: Experimental Observation and Modelling of Preconditioning in Soft Biological Tissues. ISMS 2004: 1-8
10		Raimundo Sierra, Michael Bajka, Celalettin Karadogan, Gábor Székely, Matthias Harders: Coherent Scene Generation for Surgical Simulators. ISMS 2004: 221-229
	2003
9		Raimundo Sierra, Michael Bajka, Gábor Székely: Evaluation of different pathology generation strategies for surgical training simulators. CARS 2003: 376-381
8		Raimundo Sierra, Michael Bajka, Gábor Székely: Pathology Design for Surgical Training Simulators. IS4TH 2003: 375-384
7		Raimundo Sierra, Michael Bajka, Gábor Székely: Pathology Growth Model Based on Particles. MICCAI (1) 2003: 25-32
6		János Zátonyi, Rupert Paget, Gábor Székely, Michael Bajka: Real-Time Synthesis of Bleeding for Virtual Hysteroscopy. MICCAI (1) 2003: 67-74
	2002
5		Raimundo Sierra, Gábor Székely, Michael Bajka: Generation of Pathologies for Surgical Training Simulators. MICCAI (2) 2002: 202-210
4		Jess Gerrit Snedeker, Michael Bajka, J. M. Hug, Gábor Székely, P. Niederer: The creation of a high-fidelity finite element model of the kidney for use in trauma research. Journal of Visualization and Computer Animation 13(1): 53-64 (2002)
3		M. Kauer, V. Vuskovic, J. Dual, Gábor Székely, Michael Bajka: Inverse finite element characterization of soft tissues. Medical Image Analysis 6(3): 275-287 (2002)
	2001
2		M. Kauer, V. Vuskovic, J. Dual, Gábor Székely, Michael Bajka: Inverse Finite Element Characterization of Soft Tissues. MICCAI 2001: 128-136
	2000
1		Gábor Székely, Michael Bajka, Christian Brechbühler, J. Dual, Rolf Enzler, U. Haller, Johannes Hug, R. Hutter, Nicholas Ironmonger, M. Kauer, V. Meier, P. Niederer, Alex Rhomberg, P. Schmid, G. Schweitzer, Markus Thaler, V. Vuskovic, Gerhard Tröster: Virtual Reality Based Simulation of Endoscopic Surgery. Presence 9(3): 310-333 (2000)

Coauthor Index

1 D. Bachofen [19]

2 Margit Bauer [16]

3 Christian Brechbühler [1]

4 J. Dual [1] [2] [3]

5 Rolf Enzler [1]

6 Markus Grassi [12] [19]

7 Patrick Grau [21]

8 Oliver Haefner [11]

9 Dieter Hahnloser [17]

10 U. Haller [1]

11 Matthias Harders [10] [13] [18] [19] [20] [24]

12 Bruno Heidelberger [19]

13 Sven Hirsch [23]

14 Marc Hollenstein [21]

15 Gerhard Holzapfel [16]

16 J. M. Hug [4]

17 Johannes Hug [1]

18 R. Hutter [1]

19 Nicholas Ironmonger [1]

20 Wolfram Jochum [17]

21 Celalettin Karadogan [10]

22 M. Kauer [1] [2] [3]

23 Niels Kuster [23]

24 Bryn A. Lloyd [18] [20] [22] [23]

25 Edoardo Mazza [11] [16] [17] [21]

26 V. Meier [1]

27 Alessandro Nava [11] [16] [17]

28 P. Niederer [1] [4]

29 Rupert Paget [6] [12]

30 Alex Rhomberg [1]

31 P. Schmid [1]

32 G. Schweitzer [1]

33 Raimundo Sierra [5] [7] [8] [9] [10] [13] [14] [15] [19]

34 Jess Gerrit Snedeker [4]

35 U. Spaelter [19]

36 Denis Steinemann [19]

37 Dominik Szczerba [18] [20] [22] [23]

38 Gábor Székely [1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [12] [13] [14] [15] [18] [19] [20] [22] [23]

39 Matthias Teschner [19]

40 Markus Thaler [1]

41 Gerhard Tröster [1]

42 Stefan Tuchschmid [18] [19] [20] [24]

43 V. Vuskovic [1] [2] [3]

44 Raimund Winter [16]

45 János Zátonyi [6] [12] [13] [19]

46 Gabriel Zsemlye [15]

Last update Sun May 27 04:04:01 2012 CET by the DBLP Team —

Data released under the ODC-BY 1.0 license — See also our legal information page

1	D. Bachofen	[19]
2	Margit Bauer	[16]
3	Christian Brechbühler	[1]
4	J. Dual	[1] [2] [3]
5	Rolf Enzler	[1]
6	Markus Grassi	[12] [19]
7	Patrick Grau	[21]
8	Oliver Haefner	[11]
9	Dieter Hahnloser	[17]
10	U. Haller	[1]
11	Matthias Harders	[10] [13] [18] [19] [20] [24]
12	Bruno Heidelberger	[19]
13	Sven Hirsch	[23]
14	Marc Hollenstein	[21]
15	Gerhard Holzapfel	[16]
16	J. M. Hug	[4]
17	Johannes Hug	[1]
18	R. Hutter	[1]
19	Nicholas Ironmonger	[1]
20	Wolfram Jochum	[17]
21	Celalettin Karadogan	[10]
22	M. Kauer	[1] [2] [3]
23	Niels Kuster	[23]
24	Bryn A. Lloyd	[18] [20] [22] [23]
25	Edoardo Mazza	[11] [16] [17] [21]
26	V. Meier	[1]
27	Alessandro Nava	[11] [16] [17]
28	P. Niederer	[1] [4]
29	Rupert Paget	[6] [12]
30	Alex Rhomberg	[1]
31	P. Schmid	[1]
32	G. Schweitzer	[1]
33	Raimundo Sierra	[5] [7] [8] [9] [10] [13] [14] [15] [19]
34	Jess Gerrit Snedeker	[4]
35	U. Spaelter	[19]
36	Denis Steinemann	[19]
37	Dominik Szczerba	[18] [20] [22] [23]
38	Gábor Székely	[1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [12] [13] [14] [15] [18] [19] [20] [22] [23]
39	Matthias Teschner	[19]
40	Markus Thaler	[1]
41	Gerhard Tröster	[1]
42	Stefan Tuchschmid	[18] [19] [20] [24]
43	V. Vuskovic	[1] [2] [3]
44	Raimund Winter	[16]
45	János Zátonyi	[6] [12] [13] [19]
46	Gabriel Zsemlye	[15]