J. Leo van Hemmen

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2010

57 Andreas B. Sichert, J. Leo van Hemmen: How stimulus shape affects lateral-line perception: analytical approach to analyze natural stimuli characteristics. Biological Cybernetics 102(3): 177-180 (2010)

56 Moritz Bürck, Paul Friedel, Andreas B. Sichert, Christine Vossen, J. Leo van Hemmen: Optimality in mono- and multisensory map formation. Biological Cybernetics 103(1): 1-20 (2010)

55 Matthieu Gilson, Anthony N. Burkitt, David B. Grayden, Doreen A. Thomas, J. Leo van Hemmen: Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks V: self-organization schemes and weight dependence. Biological Cybernetics 103(5): 365-386 (2010)

2009

54 J. Leo van Hemmen: Editorial to volume 100 of Biological Cybernetics. Biological Cybernetics 100(1): 1-3 (2009)

53 Moritz Bürck, J. Leo van Hemmen: Neuronal identification of signal periodicity by balanced inhibition. Biological Cybernetics 100(4): 261-270 (2009)

52 Matthieu Gilson, Anthony N. Burkitt, David B. Grayden, Doreen A. Thomas, J. Leo van Hemmen: Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks. II. Input selectivity - symmetry breaking. Biological Cybernetics 101(2): 103-114 (2009)

51 Matthieu Gilson, Anthony N. Burkitt, David B. Grayden, Doreen A. Thomas, J. Leo van Hemmen: Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks. I. Input selectivity-strengthening correlated input pathways. Biological Cybernetics 101(2): 81-102 (2009)

50 Matthieu Gilson, Anthony N. Burkitt, David B. Grayden, Doreen A. Thomas, J. Leo van Hemmen: Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks III: Partially connected neurons driven by spontaneous activity. Biological Cybernetics 101(5-6): 411-426 (2009)

49 Matthieu Gilson, Anthony N. Burkitt, David B. Grayden, Doreen A. Thomas, J. Leo van Hemmen: Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks IV. Biological Cybernetics 101(5-6): 427-444 (2009)

2008

48 J. Leo van Hemmen, Andrew B. Schwartz: Population vector code: a geometric universal as actuator. Biological Cybernetics 98(6): 509-518 (2008)

47 Paul Friedel, J. Leo van Hemmen: Inhibition, not excitation, is the key to multimodal sensory integration. Biological Cybernetics 98(6): 597-618 (2008)

2007

46 Matthieu Gilson, David B. Grayden, J. Leo van Hemmen, Doreen A. Thomas, Anthony N. Burkitt: Spike-Timing Dependent Plasticity in Recurrently Connected Networks with Fixed External Inputs. ICONIP (1) 2007: 102-111

45 Anthony N. Burkitt, Matthieu Gilson, J. Leo van Hemmen: Spike-timing-dependent plasticity for neurons with recurrent connections. Biological Cybernetics 96(5): 533-546 (2007)

44 J. Leo van Hemmen: Biology and mathematics: A fruitful merger of two cultures. Biological Cybernetics 97(1): 1-3 (2007)

43 Paul Friedel, Moritz Bürck, J. Leo van Hemmen: Neuronal identification of acoustic signal periodicity. Biological Cybernetics 97(3): 247-260 (2007)

2006

42 J. Leo van Hemmen: Editorial. Biological Cybernetics 94(1): 1 (2006)

2005

41 Jan-Moritz P. Franosch, Andreas B. Sichert, Maria D. Suttner, J. Leo van Hemmen: Estimating position and velocity of a submerged moving object by the clawed frog Xenopus and by fish - A cybernetic approach. Biological Cybernetics 93(4): 231-238 (2005)

40 Oliver G. Wenisch, Joachim Noll, J. Leo van Hemmen: Spontaneously emerging direction selectivity maps in visual cortex through STDP. Biological Cybernetics 93(4): 239-247 (2005)

2004

39 J. Leo van Hemmen: Continuum limit of discrete neuronal structures: is cortical tissue an "excitable" medium? Biological Cybernetics 91(6): 347-358 (2004)

2003

38 Gert Hauske, J. Leo van Hemmen: Online First publication. Biological Cybernetics 88(1): 1 (2003)

37 Anthony N. Burkitt, J. Leo van Hemmen: How synapses in the auditory system wax and wane: theoretical perspectives. Biological Cybernetics 89(5): 318-332 (2003)

36 Christian Leibold, J. Leo van Hemmen: Synaptic plasticity determines the character of interaural-time-difference representation. Neurocomputing 52-54: 321-326 (2003)

2002

35 J. Leo van Hemmen, Walter Senn: Hebb in perspective. Biological Cybernetics 87(5-6): 317-318 (2002)

34 Christian Leibold, J. Leo van Hemmen: Mapping time. Biological Cybernetics 87(5-6): 428-439 (2002)

2001

33 A. P. Bartsch, J. Leo van Hemmen: Combined Hebbian development of geniculocortical and lateral connectivity in a model of primary visual cortex. Biological Cybernetics 84(1): 41-55 (2001)

32 Richard Kempter, Wulfram Gerstner, J. Leo van Hemmen: Intrinsic Stabilization of Output Rates by Spike-Based Hebbian Learning. Neural Computation 13(12): 2709-2741 (2001)

31 Ulrich Hillenbrand, J. Leo van Hemmen: Does Corticothalamic Feedback Control Cortical Velocity Tuning? Neural Computation 13(2): 327-355 (2001)

30 Julian Eggert, J. Leo van Hemmen: Modeling Neuronal Assemblies: Theory and Implementation. Neural Computation 13(9): 1923-1974 (2001)

29 Christian Leibold, J. Leo van Hemmen: Temporal receptive fields, spikes, and Hebbian delay selection. Neural Networks 14(6-7): 805-813 (2001)

28 Christian Leibold, Richard Kempter, Hermann Wagner, J. Leo van Hemmen: An interaural time difference map resulting from axonal selection through non-specific learning. Neurocomputing 38-40: 1401-1407 (2001)

27 Julian Eggert, Berthold Bäuml, J. Leo van Hemmen: Fast dynamic organization without short-term synaptic plasticity: A new view on Hebb's dynamical assemblies. Neurocomputing 38-40: 191-196 (2001)

2000

26 Werner M. Kistler, J. Leo van Hemmen: Modeling Synaptic Plasticity in Conjunction with the Timing of Pre- and Postsynaptic Action Potentials. Neural Computation 12(2): 385-405 (2000)

25 Erik G. F. Thomas, J. Leo van Hemmen, Werner M. Kistler: Calculation of Volterra Kernels for Solutions of Nonlinear Differential Equations. SIAM Journal of Applied Mathematics 61(1): 1-21 (2000)

1999

24 Werner M. Kistler, J. Leo van Hemmen: Delayed reverberation through time windows as a key to cerebellar function. Biological Cybernetics 81(5-6): 373-380 (1999)

23 Werner M. Kistler, J. Leo van Hemmen: Short-Term Synaptic Plasticity and Network Behavior. Neural Computation 11(7): 1579-1594 (1999)

1998

22 Richard Kempter, Wulfram Gerstner, J. Leo van Hemmen: Spike-Based Compared to Rate-Based Hebbian Learning. NIPS 1998: 125-131

21 Richard Kempter, Wulfram Gerstner, J. Leo van Hemmen, Hermann Wagner: Extracting Oscillations: Neuronal Coincidence Detection with Noisy Periodic Spike Input. Neural Computation 10(8): 1987-2017 (1998)

1997

20 Julian Eggert, J. Leo van Hemmen: Derivation of Pool Dynamics from Microscopic Neuronal Models. ICANN 1997: 109-114

19 Stefan Wimbauer, Oliver G. Wenisch, J. Leo van Hemmen: A Linear Hebbian Model for the Development of Spatiotemporal Receptive Fields of Simple Cells. ICANN 1997: 183-188

18 Stefan Wimbauer, Oliver G. Wenisch, K. D. Miller, J. Leo van Hemmen: Development of spatiotemporal receptive fields of simple cells: I. Model formulation. Biological Cybernetics 77(6): 453-461 (1997)

17 Stefan Wimbauer, Oliver G. Wenisch, J. Leo van Hemmen, K. D. Miller: Development of spatiotemporal receptive fields of simple cells: II. Simulation and analysis. Biological Cybernetics 77(6): 463-477 (1997)

16 Werner M. Kistler, Wulfram Gerstner, J. Leo van Hemmen: Reduction of the Hogkin-Huxley Equations to a Single-Variable Threshold Model. Neural Computation 9(5): 1015-1045 (1997)

1996

15 Ulrich Hillenbrand, J. Leo van Hemmen: Collective Dynamics of a System of Adaptive Velocity Channels. ICANN 1996: 107-114

14 Ralf Solomon, J. Leo van Hemmen: Accelerating backpropagation through dynamic self-adaptation. Neural Networks 9(4): 589-601 (1996)

1995

13 Richard Kempter, Wulfram Gerstner, J. Leo van Hemmen, Hermann Wagner: Temporal coding in the sub-millisecond range: Model of barn owl auditory pathway. NIPS 1995: 124-130

12 C. Fohlmeister, Wulfram Gerstner, Raphael Ritz, J. Leo van Hemmen: Spontaneous excitations in the visual cortex: stripes, spirals, rings, and collective bursts. Neural Computation 7(5): 905-914 (1995)

1994

11 Raphael Ritz, Wulfram Gerstner, Ursula Fuentes, J. Leo van Hemmen: A biologically motivated and analytically soluble model of collective oscillations in the cortex. Biological Cybernetics 71(4): 349-358 (1994)

10 Stefan Wimbauer, Wulfram Gerstner, J. Leo van Hemmen: Emergence of spatiotemporal receptive fields and its application to motion detection. Biological Cybernetics 72(1): 81-92 (1994)

9 Stefan Wimbauer, Nikolaus Klemmer, J. Leo van Hemmen: Universality of unlearning. Neural Networks 7(2): 261-270 (1994)

1993

8 Stefan Wimbauer, J. Leo van Hemmen: Hebbian Unlearning. Analysis of Dynamical and Cognitive Systems 1993: 121-136

7 J. Leo van Hemmen, Raphael Ritz: Neural Coding - A Theoretical Vista of Mechanisms, Techniques, and Applications. Analysis of Dynamical and Cognitive Systems 1993: 75-119

6 Wulfram Gerstner, J. Leo van Hemmen: How to Describe Neuronal Activity: Spikes, Rates, or Assemblies? NIPS 1993: 463-470

5 Wulfram Gerstner, Raphael Ritz, J. Leo van Hemmen: A biologically motivated and analytically soluble model of collective oscillations in the cortex. Biological Cybernetics 68(4): 363-374 (1993)

4 Wulfram Gerstner, Raphael Ritz, J. Leo van Hemmen: Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns. Biological Cybernetics 69(5-6): 503-515 (1993)

1992

3 Wulfram Gerstner, J. Leo van Hemmen: Universality in neural networks: the importance of the 'mean firing rate'. Biological Cybernetics 67(3): 195-205 (1992)

1990

2 J. Leo van Hemmen, Wulfram Gerstner, Andreas V. M. Herz, Reimer Kühn, B. Sulzer, M. Vaas: Encoding and Decoding of Patterns which are Correlated in Space and Time. ÖGAI 1990: 153-162

1 Andreas V. M. Herz, Zhaoping Li, J. Leo van Hemmen: Statistical Mechanics of Temporal Association in Neural Networks. NIPS 1990: 176-182

	2010
57		Andreas B. Sichert, J. Leo van Hemmen: How stimulus shape affects lateral-line perception: analytical approach to analyze natural stimuli characteristics. Biological Cybernetics 102(3): 177-180 (2010)
56		Moritz Bürck, Paul Friedel, Andreas B. Sichert, Christine Vossen, J. Leo van Hemmen: Optimality in mono- and multisensory map formation. Biological Cybernetics 103(1): 1-20 (2010)
55		Matthieu Gilson, Anthony N. Burkitt, David B. Grayden, Doreen A. Thomas, J. Leo van Hemmen: Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks V: self-organization schemes and weight dependence. Biological Cybernetics 103(5): 365-386 (2010)
	2009
54		J. Leo van Hemmen: Editorial to volume 100 of Biological Cybernetics. Biological Cybernetics 100(1): 1-3 (2009)
53		Moritz Bürck, J. Leo van Hemmen: Neuronal identification of signal periodicity by balanced inhibition. Biological Cybernetics 100(4): 261-270 (2009)
52		Matthieu Gilson, Anthony N. Burkitt, David B. Grayden, Doreen A. Thomas, J. Leo van Hemmen: Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks. II. Input selectivity - symmetry breaking. Biological Cybernetics 101(2): 103-114 (2009)
51		Matthieu Gilson, Anthony N. Burkitt, David B. Grayden, Doreen A. Thomas, J. Leo van Hemmen: Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks. I. Input selectivity-strengthening correlated input pathways. Biological Cybernetics 101(2): 81-102 (2009)
50		Matthieu Gilson, Anthony N. Burkitt, David B. Grayden, Doreen A. Thomas, J. Leo van Hemmen: Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks III: Partially connected neurons driven by spontaneous activity. Biological Cybernetics 101(5-6): 411-426 (2009)
49		Matthieu Gilson, Anthony N. Burkitt, David B. Grayden, Doreen A. Thomas, J. Leo van Hemmen: Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks IV. Biological Cybernetics 101(5-6): 427-444 (2009)
	2008
48		J. Leo van Hemmen, Andrew B. Schwartz: Population vector code: a geometric universal as actuator. Biological Cybernetics 98(6): 509-518 (2008)
47		Paul Friedel, J. Leo van Hemmen: Inhibition, not excitation, is the key to multimodal sensory integration. Biological Cybernetics 98(6): 597-618 (2008)
	2007
46		Matthieu Gilson, David B. Grayden, J. Leo van Hemmen, Doreen A. Thomas, Anthony N. Burkitt: Spike-Timing Dependent Plasticity in Recurrently Connected Networks with Fixed External Inputs. ICONIP (1) 2007: 102-111
45		Anthony N. Burkitt, Matthieu Gilson, J. Leo van Hemmen: Spike-timing-dependent plasticity for neurons with recurrent connections. Biological Cybernetics 96(5): 533-546 (2007)
44		J. Leo van Hemmen: Biology and mathematics: A fruitful merger of two cultures. Biological Cybernetics 97(1): 1-3 (2007)
43		Paul Friedel, Moritz Bürck, J. Leo van Hemmen: Neuronal identification of acoustic signal periodicity. Biological Cybernetics 97(3): 247-260 (2007)
	2006
42		J. Leo van Hemmen: Editorial. Biological Cybernetics 94(1): 1 (2006)
	2005
41		Jan-Moritz P. Franosch, Andreas B. Sichert, Maria D. Suttner, J. Leo van Hemmen: Estimating position and velocity of a submerged moving object by the clawed frog Xenopus and by fish - A cybernetic approach. Biological Cybernetics 93(4): 231-238 (2005)
40		Oliver G. Wenisch, Joachim Noll, J. Leo van Hemmen: Spontaneously emerging direction selectivity maps in visual cortex through STDP. Biological Cybernetics 93(4): 239-247 (2005)
	2004
39		J. Leo van Hemmen: Continuum limit of discrete neuronal structures: is cortical tissue an "excitable" medium? Biological Cybernetics 91(6): 347-358 (2004)
	2003
38		Gert Hauske, J. Leo van Hemmen: Online First publication. Biological Cybernetics 88(1): 1 (2003)
37		Anthony N. Burkitt, J. Leo van Hemmen: How synapses in the auditory system wax and wane: theoretical perspectives. Biological Cybernetics 89(5): 318-332 (2003)
36		Christian Leibold, J. Leo van Hemmen: Synaptic plasticity determines the character of interaural-time-difference representation. Neurocomputing 52-54: 321-326 (2003)
	2002
35		J. Leo van Hemmen, Walter Senn: Hebb in perspective. Biological Cybernetics 87(5-6): 317-318 (2002)
34		Christian Leibold, J. Leo van Hemmen: Mapping time. Biological Cybernetics 87(5-6): 428-439 (2002)
	2001
33		A. P. Bartsch, J. Leo van Hemmen: Combined Hebbian development of geniculocortical and lateral connectivity in a model of primary visual cortex. Biological Cybernetics 84(1): 41-55 (2001)
32		Richard Kempter, Wulfram Gerstner, J. Leo van Hemmen: Intrinsic Stabilization of Output Rates by Spike-Based Hebbian Learning. Neural Computation 13(12): 2709-2741 (2001)
31		Ulrich Hillenbrand, J. Leo van Hemmen: Does Corticothalamic Feedback Control Cortical Velocity Tuning? Neural Computation 13(2): 327-355 (2001)
30		Julian Eggert, J. Leo van Hemmen: Modeling Neuronal Assemblies: Theory and Implementation. Neural Computation 13(9): 1923-1974 (2001)
29		Christian Leibold, J. Leo van Hemmen: Temporal receptive fields, spikes, and Hebbian delay selection. Neural Networks 14(6-7): 805-813 (2001)
28		Christian Leibold, Richard Kempter, Hermann Wagner, J. Leo van Hemmen: An interaural time difference map resulting from axonal selection through non-specific learning. Neurocomputing 38-40: 1401-1407 (2001)
27		Julian Eggert, Berthold Bäuml, J. Leo van Hemmen: Fast dynamic organization without short-term synaptic plasticity: A new view on Hebb's dynamical assemblies. Neurocomputing 38-40: 191-196 (2001)
	2000
26		Werner M. Kistler, J. Leo van Hemmen: Modeling Synaptic Plasticity in Conjunction with the Timing of Pre- and Postsynaptic Action Potentials. Neural Computation 12(2): 385-405 (2000)
25		Erik G. F. Thomas, J. Leo van Hemmen, Werner M. Kistler: Calculation of Volterra Kernels for Solutions of Nonlinear Differential Equations. SIAM Journal of Applied Mathematics 61(1): 1-21 (2000)
	1999
24		Werner M. Kistler, J. Leo van Hemmen: Delayed reverberation through time windows as a key to cerebellar function. Biological Cybernetics 81(5-6): 373-380 (1999)
23		Werner M. Kistler, J. Leo van Hemmen: Short-Term Synaptic Plasticity and Network Behavior. Neural Computation 11(7): 1579-1594 (1999)
	1998
22		Richard Kempter, Wulfram Gerstner, J. Leo van Hemmen: Spike-Based Compared to Rate-Based Hebbian Learning. NIPS 1998: 125-131
21		Richard Kempter, Wulfram Gerstner, J. Leo van Hemmen, Hermann Wagner: Extracting Oscillations: Neuronal Coincidence Detection with Noisy Periodic Spike Input. Neural Computation 10(8): 1987-2017 (1998)
	1997
20		Julian Eggert, J. Leo van Hemmen: Derivation of Pool Dynamics from Microscopic Neuronal Models. ICANN 1997: 109-114
19		Stefan Wimbauer, Oliver G. Wenisch, J. Leo van Hemmen: A Linear Hebbian Model for the Development of Spatiotemporal Receptive Fields of Simple Cells. ICANN 1997: 183-188
18		Stefan Wimbauer, Oliver G. Wenisch, K. D. Miller, J. Leo van Hemmen: Development of spatiotemporal receptive fields of simple cells: I. Model formulation. Biological Cybernetics 77(6): 453-461 (1997)
17		Stefan Wimbauer, Oliver G. Wenisch, J. Leo van Hemmen, K. D. Miller: Development of spatiotemporal receptive fields of simple cells: II. Simulation and analysis. Biological Cybernetics 77(6): 463-477 (1997)
16		Werner M. Kistler, Wulfram Gerstner, J. Leo van Hemmen: Reduction of the Hogkin-Huxley Equations to a Single-Variable Threshold Model. Neural Computation 9(5): 1015-1045 (1997)
	1996
15		Ulrich Hillenbrand, J. Leo van Hemmen: Collective Dynamics of a System of Adaptive Velocity Channels. ICANN 1996: 107-114
14		Ralf Solomon, J. Leo van Hemmen: Accelerating backpropagation through dynamic self-adaptation. Neural Networks 9(4): 589-601 (1996)
	1995
13		Richard Kempter, Wulfram Gerstner, J. Leo van Hemmen, Hermann Wagner: Temporal coding in the sub-millisecond range: Model of barn owl auditory pathway. NIPS 1995: 124-130
12		C. Fohlmeister, Wulfram Gerstner, Raphael Ritz, J. Leo van Hemmen: Spontaneous excitations in the visual cortex: stripes, spirals, rings, and collective bursts. Neural Computation 7(5): 905-914 (1995)
	1994
11		Raphael Ritz, Wulfram Gerstner, Ursula Fuentes, J. Leo van Hemmen: A biologically motivated and analytically soluble model of collective oscillations in the cortex. Biological Cybernetics 71(4): 349-358 (1994)
10		Stefan Wimbauer, Wulfram Gerstner, J. Leo van Hemmen: Emergence of spatiotemporal receptive fields and its application to motion detection. Biological Cybernetics 72(1): 81-92 (1994)
9		Stefan Wimbauer, Nikolaus Klemmer, J. Leo van Hemmen: Universality of unlearning. Neural Networks 7(2): 261-270 (1994)
	1993
8		Stefan Wimbauer, J. Leo van Hemmen: Hebbian Unlearning. Analysis of Dynamical and Cognitive Systems 1993: 121-136
7		J. Leo van Hemmen, Raphael Ritz: Neural Coding - A Theoretical Vista of Mechanisms, Techniques, and Applications. Analysis of Dynamical and Cognitive Systems 1993: 75-119
6		Wulfram Gerstner, J. Leo van Hemmen: How to Describe Neuronal Activity: Spikes, Rates, or Assemblies? NIPS 1993: 463-470
5		Wulfram Gerstner, Raphael Ritz, J. Leo van Hemmen: A biologically motivated and analytically soluble model of collective oscillations in the cortex. Biological Cybernetics 68(4): 363-374 (1993)
4		Wulfram Gerstner, Raphael Ritz, J. Leo van Hemmen: Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns. Biological Cybernetics 69(5-6): 503-515 (1993)
	1992
3		Wulfram Gerstner, J. Leo van Hemmen: Universality in neural networks: the importance of the 'mean firing rate'. Biological Cybernetics 67(3): 195-205 (1992)
	1990
2		J. Leo van Hemmen, Wulfram Gerstner, Andreas V. M. Herz, Reimer Kühn, B. Sulzer, M. Vaas: Encoding and Decoding of Patterns which are Correlated in Space and Time. ÖGAI 1990: 153-162
1		Andreas V. M. Herz, Zhaoping Li, J. Leo van Hemmen: Statistical Mechanics of Temporal Association in Neural Networks. NIPS 1990: 176-182

Coauthor Index

1 A. P. Bartsch [33]

2 Berthold Bäuml [27]

3 Moritz Bürck [43] [53] [56]

4 Anthony N. Burkitt [37] [45] [46] [49] [50] [51] [52] [55]

5 Julian Eggert [20] [27] [30]

6 C. Fohlmeister [12]

7 Jan-Moritz P. Franosch [41]

8 Paul Friedel [43] [47] [56]

9 Ursula Fuentes [11]

10 Wulfram Gerstner [2] [3] [4] [5] [6] [10] [11] [12] [13] [16] [21] [22] [32]

11 Matthieu Gilson [45] [46] [49] [50] [51] [52] [55]

12 David B. Grayden [46] [49] [50] [51] [52] [55]

13 Gert Hauske [38]

14 Andreas V. M. Herz [1] [2]

15 Ulrich Hillenbrand [15] [31]

16 Richard Kempter [13] [21] [22] [28] [32]

17 Werner M. Kistler [16] [23] [24] [25] [26]

18 Nikolaus Klemmer [9]

19 Reimer Kühn [2]

20 Christian Leibold [28] [29] [34] [36]

21 Zhaoping Li [1]

22 K. D. Miller [17] [18]

23 Joachim Noll [40]

24 Raphael Ritz [4] [5] [7] [11] [12]

25 Andrew B. Schwartz [48]

26 Walter Senn [35]

27 Andreas B. Sichert [41] [56] [57]

28 Ralf Solomon [14]

29 B. Sulzer [2]

30 Maria D. Suttner [41]

31 Doreen A. Thomas [46] [49] [50] [51] [52] [55]

32 Erik G. F. Thomas [25]

33 M. Vaas [2]

34 Christine Vossen [56]

35 Hermann Wagner [13] [21] [28]

36 Oliver G. Wenisch [17] [18] [19] [40]

37 Stefan Wimbauer [8] [9] [10] [17] [18] [19]

Colors in the list of coauthors

Last update Thu May 31 18:55:10 2012 CET by the DBLP Team —

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

1	A. P. Bartsch	[33]
2	Berthold Bäuml	[27]
3	Moritz Bürck	[43] [53] [56]
4	Anthony N. Burkitt	[37] [45] [46] [49] [50] [51] [52] [55]
5	Julian Eggert	[20] [27] [30]
6	C. Fohlmeister	[12]
7	Jan-Moritz P. Franosch	[41]
8	Paul Friedel	[43] [47] [56]
9	Ursula Fuentes	[11]
10	Wulfram Gerstner	[2] [3] [4] [5] [6] [10] [11] [12] [13] [16] [21] [22] [32]
11	Matthieu Gilson	[45] [46] [49] [50] [51] [52] [55]
12	David B. Grayden	[46] [49] [50] [51] [52] [55]
13	Gert Hauske	[38]
14	Andreas V. M. Herz	[1] [2]
15	Ulrich Hillenbrand	[15] [31]
16	Richard Kempter	[13] [21] [22] [28] [32]
17	Werner M. Kistler	[16] [23] [24] [25] [26]
18	Nikolaus Klemmer	[9]
19	Reimer Kühn	[2]
20	Christian Leibold	[28] [29] [34] [36]
21	Zhaoping Li	[1]
22	K. D. Miller	[17] [18]
23	Joachim Noll	[40]
24	Raphael Ritz	[4] [5] [7] [11] [12]
25	Andrew B. Schwartz	[48]
26	Walter Senn	[35]
27	Andreas B. Sichert	[41] [56] [57]
28	Ralf Solomon	[14]
29	B. Sulzer	[2]
30	Maria D. Suttner	[41]
31	Doreen A. Thomas	[46] [49] [50] [51] [52] [55]
32	Erik G. F. Thomas	[25]
33	M. Vaas	[2]
34	Christine Vossen	[56]
35	Hermann Wagner	[13] [21] [28]
36	Oliver G. Wenisch	[17] [18] [19] [40]
37	Stefan Wimbauer	[8] [9] [10] [17] [18] [19]