Johannes Köbler

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2009

64 EE Olaf Beyersdorff, Johannes Köbler, Sebastian Müller: Nondeterministic Instance Complexity and Proof Systems with Advice. LATA 2009: 164-175

2008

63 EE Johannes Köbler, Oleg Verbitsky: From Invariants to Canonization in Parallel. CSR 2008: 216-227

62 EE Vikraman Arvind, Bireswar Das, Johannes Köbler: A Logspace Algorithm for Partial 2-Tree Canonization. CSR 2008: 40-51

61 EE Olaf Beyersdorff, Johannes Köbler, Sebastian Müller: Nondeterministic Instance Complexity and Proof Systems with Advice. Electronic Colloquium on Computational Complexity (ECCC) 15(075): (2008)

2007

60 EE Vikraman Arvind, Johannes Köbler, Wolfgang Lindner: Parameterized Learnability of k -Juntas and Related Problems. ALT 2007: 120-134

59 EE Vikraman Arvind, Bireswar Das, Johannes Köbler: The Space Complexity of k -Tree Isomorphism. ISAAC 2007: 822-833

58 EE José L. Balcázar, Jorge Castro, David Guijarro, Johannes Köbler, Wolfgang Lindner: A general dimension for query learning. J. Comput. Syst. Sci. 73(6): 924-940 (2007)

2006

57 EE Johannes Köbler: On Graph Isomorphism for Restricted Graph Classes. CiE 2006: 241-256

56 EE Vikraman Arvind, Johannes Köbler: On Hypergraph and Graph Isomorphism with Bounded Color Classes. STACS 2006: 384-395

55 EE Johannes Köbler, Oleg Verbitsky: From Invariants to Canonization in Parallel CoRR abs/cs/0608074: (2006)

54 EE Birgit Jenner, Johannes Köbler, Pierre McKenzie, Jacobo Torán: Corrigendum to "Completeness results for graph isomorphism" [J. Comput. System Sci. 66(2003) 549-566]. J. Comput. Syst. Sci. 72(4): 783 (2006)

53 EE Johannes Köbler, Wolfgang Lindner: The complexity of learning concept classes with polynomial general dimension. Theor. Comput. Sci. 350(1): 49-62 (2006)

2004

52 EE Johannes Köbler, Rainer Schuler: Average-case intractability vs. worst-case intractability. Inf. Comput. 190(1): 1-17 (2004)

2003

51 EE Johannes Köbler, Jochen Messner, Jacobo Torán: Optimal proof systems imply complete sets for promise classes. Inf. Comput. 184(1): 71-92 (2003)

50 EE Birgit Jenner, Johannes Köbler, Pierre McKenzie, Jacobo Torán: Completeness results for graph isomorphism. J. Comput. Syst. Sci. 66(3): 549-566 (2003)

2002

49 EE Johannes Köbler, Wolfgang Lindner: A General Dimension for Approximately Learning Boolean Functions. ALT 2002: 139-148

48 EE Johannes Köbler, Wolfgang Lindner: The Complexity of Learning Concept Classes with Polynomial General Dimension. ALT 2002: 149-163

47 EE Johannes Köbler, Jacobo Torán: The Complexity of Graph Isomorphism for Colored Graphs with Color Classes of Size 2 and 3. STACS 2002: 121-132

46 EE Vikraman Arvind, Johannes Köbler: New Lowness Results for ZPPNP and Other Complexity Classes. J. Comput. Syst. Sci. 65(2): 257-277 (2002)

2001

45 EE Vikraman Arvind, Johannes Köbler: On pseudorandomness and resource-bounded measure. Theor. Comput. Sci. 255(1-2): 205-221 (2001)

2000

44 EE Johannes Köbler, Wolfgang Lindner: On Distribution-Specific Learning with Membership Queries versus Pseudorandom Generation. FSTTCS 2000: 336-347

43 EE Johannes Köbler, Jochen Messner: Is the Standard Proof System for SAT P-Optimal? FSTTCS 2000: 361-372

42 EE Vikraman Arvind, Johannes Köbler, Martin Mundhenk, Jacobo Torán: Nondeterministic Instance Complexity and Hard-to-Prove Tautologies. STACS 2000: 314-323

41 EE Vikraman Arvind, Johannes Köbler: Graph Isomorphism Is Low for ZPP(NP) and Other Lowness Results. STACS 2000: 431-442

40 Johannes Köbler, Wolfgang Lindner: Oracles in S^p₂ are Sufficient for Exact Learning. Int. J. Found. Comput. Sci. 11(4): 615-632 (2000)

1999

39 EE Christoph Karg, Johannes Köbler, Rainer Schuler: The Complexity of Generating Test Instances. Chicago J. Theor. Comput. Sci. 1999: (1999)

38 EE Vikraman Arvind, Johannes Köbler: Graph Isomorphism is Low for ZPP^NP and other Lowness results. Electronic Colloquium on Computational Complexity (ECCC) 6(33): (1999)

1998

37 EE Johannes Köbler, Jochen Messner: Complete Problems for Promise Classes by Optimal Proof Systems for Test Sets. IEEE Conference on Computational Complexity 1998: 132-140

36 EE Johannes Köbler, Wolfgang Lindner: On the Resource Bounded Measure of P/poly. IEEE Conference on Computational Complexity 1998: 182-185

35 EE Johannes Köbler, Rainer Schuler: Average-Case Intractability vs. Worst-Case Intractability. MFCS 1998: 493-502

34 EE Johannes Köbler, Rainer Schuler: Average-Case Intractability vs. Worst-Case Intractability Electronic Colloquium on Computational Complexity (ECCC) 5(37): (1998)

33 Johannes Köbler, Osamu Watanabe: New Collapse Consequences of NP Having Small Circuits. SIAM J. Comput. 28(1): 311-324 (1998)

1997

32 Johannes Köbler, Wolfgang Lindner: Oracles in Sigma^p₂ are Sufficient for Exact Learning. ALT 1997: 277-290

31 Johannes Köbler, Uwe Schöning: High Sets for NP. Advances in Algorithms, Languages, and Complexity 1997: 139-156

30 EE Vikraman Arvind, Johannes Köbler: On Resource-Bounded Measure and Pseudorandomness. FSTTCS 1997: 235-249

29 Christoph Karg, Johannes Köbler, Rainer Schuler: The Complexity of Generating Test Instances. STACS 1997: 375-386

1996

28 Vikraman Arvind, Johannes Köbler, Martin Mundhenk: Monotonous and Randomized Reductions to Sparse Sets. ITA 30(2): 155-179 (1996)

27 Johannes Köbler, Seinosuke Toda: On the Power of Generalized MOD-Classes. Mathematical Systems Theory 29(1): 33-46 (1996)

26 Vikraman Arvind, Johannes Köbler, Martin Mundhenk: Upper Bounds for the Complexity of Sparse and Tally Descriptions. Mathematical Systems Theory 29(1): 63-94 (1996)

1995

25 Johannes Köbler, Osamu Watanabe: New Collapse Consequences of NP Having Small Circuits. ICALP 1995: 196-207

24 Johannes Köbler: On the Structure of Low Sets. Structure in Complexity Theory Conference 1995: 246-261

23 EE Vikraman Arvind, Johannes Köbler, Martin Mundhenk: On Reductions to Sets that Avoid EXPSPACE. Inf. Process. Lett. 56(2): 109-114 (1995)

22 Vikraman Arvind, Johannes Köbler, Rainer Schuler: On Helping and Interactive Proof Systems. Int. J. Found. Comput. Sci. 6(2): 137-153 (1995)

21 Frederic Green, Johannes Köbler, Kenneth W. Regan, Thomas Schwentick, Jacobo Torán: The Power of the Middle Bit of a #P Function. J. Comput. Syst. Sci. 50(3): 456-467 (1995)

20 EE Vikraman Arvind, Johannes Köbler, Uwe Schöning, Rainer Schuler: If NP has Polynomial-Size Circuits, then MA=AM. Theor. Comput. Sci. 137(2): 279-282 (1995)

1994

19 Vikraman Arvind, Johannes Köbler, Rainer Schuler: On Helping and Interactive Proof Systems. ISAAC 1994: 137-145

18 Johannes Köbler, Thomas Thierauf: Complexity-Restricted Advice Functions. SIAM J. Comput. 23(2): 261-275 (1994)

17 Johannes Köbler: Locating P/poly Optimally in the Extended Low Hierarchy. Theor. Comput. Sci. 134(2): 263-285 (1994)

1993

16 Vikraman Arvind, Johannes Köbler, Martin Mundhenk: Hausdorff Reductions to Sparse Sets and to Sets of High Information Content. MFCS 1993: 232-241

15 Johannes Köbler: Locating P/poly Optimally in the Extended Low Hierarchy. STACS 1993: 28-37

14 Johannes Köbler, Seinosuke Toda: On the Power of Generalized MOD-Classes. Structure in Complexity Theory Conference 1993: 147-155

1992

13 Vikraman Arvind, Yenjo Han, Lane A. Hemachandra, Johannes Köbler, Antoni Lozano, Martin Mundhenk, Mitsunori Ogiwara, Uwe Schöning, Riccardo Silvestri, Thomas Thierauf: Reductions to Sets of Low Information Content. Complexity Theory: Current Research 1992: 1-46

12 Vikraman Arvind, Johannes Köbler, Martin Mundhenk: On Bounded Truth-Table, Conjunctive, and Randomized Reductions to Sparse Sets. FSTTCS 1992: 140-151

11 Vikraman Arvind, Yenjo Han, Lane A. Hemachandra, Johannes Köbler, Antoni Lozano, Martin Mundhenk, Mitsunori Ogiwara, Uwe Schöning, Riccardo Silvestri, Thomas Thierauf: Reductions to Sets of Low Information Content. ICALP 1992: 162-173

10 Vikraman Arvind, Johannes Köbler, Martin Mundhenk: Lowness and the Complexity of Sparse and Tally Descriptions. ISAAC 1992: 249-258

9 Johannes Köbler, Uwe Schöning, Jacobo Torán: Graph Isomorphism is Low for PP. STACS 1992: 401-411

8 Frederic Green, Johannes Köbler, Jacobo Torán: The Power of the Middle Bit. Structure in Complexity Theory Conference 1992: 111-117

7 Johannes Köbler, Uwe Schöning, Jacobo Torán: Graph Isomorphism is Low for PP. Computational Complexity 2: 301-330 (1992)

6 Johannes Köbler, Uwe Schöning, Seinosuke Toda, Jacobo Torán: Turing Machines with Few Accepting Computations and Low Sets for PP. J. Comput. Syst. Sci. 44(2): 272-286 (1992)

1990

5 Johannes Köbler, Thomas Thierauf: Complexity Classes with Advice. Structure in Complexity Theory Conference 1990: 305-315

1989

4 Johannes Köbler, Uwe Schöning, Seinosuke Toda, Jacobo Torán: Turing Machines with few Accepting Computations and low Sets for PP. Structure in Complexity Theory Conference 1989: 208-215

3 Johannes Köbler, Uwe Schöning, Jacobo Torán: On Counting and Approximation. Acta Inf. 26(4): 363-379 (1989)

1988

2 Johannes Köbler, Uwe Schöning, Jacobo Torán: On Counting and Approximation. CAAP 1988: 40-51

1987

1 Johannes Köbler, Uwe Schöning, Klaus W. Wagner: The Difference and Truth-Table Hierarchies for NP. ITA 21(4): 419-435 (1987)

2009
64	EE	Olaf Beyersdorff, Johannes Köbler, Sebastian Müller: Nondeterministic Instance Complexity and Proof Systems with Advice. LATA 2009: 164-175
2008
63	EE	Johannes Köbler, Oleg Verbitsky: From Invariants to Canonization in Parallel. CSR 2008: 216-227
62	EE	Vikraman Arvind, Bireswar Das, Johannes Köbler: A Logspace Algorithm for Partial 2-Tree Canonization. CSR 2008: 40-51
61	EE	Olaf Beyersdorff, Johannes Köbler, Sebastian Müller: Nondeterministic Instance Complexity and Proof Systems with Advice. Electronic Colloquium on Computational Complexity (ECCC) 15(075): (2008)
2007
60	EE	Vikraman Arvind, Johannes Köbler, Wolfgang Lindner: Parameterized Learnability of k -Juntas and Related Problems. ALT 2007: 120-134
59	EE	Vikraman Arvind, Bireswar Das, Johannes Köbler: The Space Complexity of k -Tree Isomorphism. ISAAC 2007: 822-833
58	EE	José L. Balcázar, Jorge Castro, David Guijarro, Johannes Köbler, Wolfgang Lindner: A general dimension for query learning. J. Comput. Syst. Sci. 73(6): 924-940 (2007)
2006
57	EE	Johannes Köbler: On Graph Isomorphism for Restricted Graph Classes. CiE 2006: 241-256
56	EE	Vikraman Arvind, Johannes Köbler: On Hypergraph and Graph Isomorphism with Bounded Color Classes. STACS 2006: 384-395
55	EE	Johannes Köbler, Oleg Verbitsky: From Invariants to Canonization in Parallel CoRR abs/cs/0608074: (2006)
54	EE	Birgit Jenner, Johannes Köbler, Pierre McKenzie, Jacobo Torán: Corrigendum to "Completeness results for graph isomorphism" [J. Comput. System Sci. 66(2003) 549-566]. J. Comput. Syst. Sci. 72(4): 783 (2006)
53	EE	Johannes Köbler, Wolfgang Lindner: The complexity of learning concept classes with polynomial general dimension. Theor. Comput. Sci. 350(1): 49-62 (2006)
2004
52	EE	Johannes Köbler, Rainer Schuler: Average-case intractability vs. worst-case intractability. Inf. Comput. 190(1): 1-17 (2004)
2003
51	EE	Johannes Köbler, Jochen Messner, Jacobo Torán: Optimal proof systems imply complete sets for promise classes. Inf. Comput. 184(1): 71-92 (2003)
50	EE	Birgit Jenner, Johannes Köbler, Pierre McKenzie, Jacobo Torán: Completeness results for graph isomorphism. J. Comput. Syst. Sci. 66(3): 549-566 (2003)
2002
49	EE	Johannes Köbler, Wolfgang Lindner: A General Dimension for Approximately Learning Boolean Functions. ALT 2002: 139-148
48	EE	Johannes Köbler, Wolfgang Lindner: The Complexity of Learning Concept Classes with Polynomial General Dimension. ALT 2002: 149-163
47	EE	Johannes Köbler, Jacobo Torán: The Complexity of Graph Isomorphism for Colored Graphs with Color Classes of Size 2 and 3. STACS 2002: 121-132
46	EE	Vikraman Arvind, Johannes Köbler: New Lowness Results for ZPPNP and Other Complexity Classes. J. Comput. Syst. Sci. 65(2): 257-277 (2002)
2001
45	EE	Vikraman Arvind, Johannes Köbler: On pseudorandomness and resource-bounded measure. Theor. Comput. Sci. 255(1-2): 205-221 (2001)
2000
44	EE	Johannes Köbler, Wolfgang Lindner: On Distribution-Specific Learning with Membership Queries versus Pseudorandom Generation. FSTTCS 2000: 336-347
43	EE	Johannes Köbler, Jochen Messner: Is the Standard Proof System for SAT P-Optimal? FSTTCS 2000: 361-372
42	EE	Vikraman Arvind, Johannes Köbler, Martin Mundhenk, Jacobo Torán: Nondeterministic Instance Complexity and Hard-to-Prove Tautologies. STACS 2000: 314-323
41	EE	Vikraman Arvind, Johannes Köbler: Graph Isomorphism Is Low for ZPP(NP) and Other Lowness Results. STACS 2000: 431-442
40		Johannes Köbler, Wolfgang Lindner: Oracles in S^p₂ are Sufficient for Exact Learning. Int. J. Found. Comput. Sci. 11(4): 615-632 (2000)
1999
39	EE	Christoph Karg, Johannes Köbler, Rainer Schuler: The Complexity of Generating Test Instances. Chicago J. Theor. Comput. Sci. 1999: (1999)
38	EE	Vikraman Arvind, Johannes Köbler: Graph Isomorphism is Low for ZPP^NP and other Lowness results. Electronic Colloquium on Computational Complexity (ECCC) 6(33): (1999)
1998
37	EE	Johannes Köbler, Jochen Messner: Complete Problems for Promise Classes by Optimal Proof Systems for Test Sets. IEEE Conference on Computational Complexity 1998: 132-140
36	EE	Johannes Köbler, Wolfgang Lindner: On the Resource Bounded Measure of P/poly. IEEE Conference on Computational Complexity 1998: 182-185
35	EE	Johannes Köbler, Rainer Schuler: Average-Case Intractability vs. Worst-Case Intractability. MFCS 1998: 493-502
34	EE	Johannes Köbler, Rainer Schuler: Average-Case Intractability vs. Worst-Case Intractability Electronic Colloquium on Computational Complexity (ECCC) 5(37): (1998)
33		Johannes Köbler, Osamu Watanabe: New Collapse Consequences of NP Having Small Circuits. SIAM J. Comput. 28(1): 311-324 (1998)
1997
32		Johannes Köbler, Wolfgang Lindner: Oracles in Sigma^p₂ are Sufficient for Exact Learning. ALT 1997: 277-290
31		Johannes Köbler, Uwe Schöning: High Sets for NP. Advances in Algorithms, Languages, and Complexity 1997: 139-156
30	EE	Vikraman Arvind, Johannes Köbler: On Resource-Bounded Measure and Pseudorandomness. FSTTCS 1997: 235-249
29		Christoph Karg, Johannes Köbler, Rainer Schuler: The Complexity of Generating Test Instances. STACS 1997: 375-386
1996
28		Vikraman Arvind, Johannes Köbler, Martin Mundhenk: Monotonous and Randomized Reductions to Sparse Sets. ITA 30(2): 155-179 (1996)
27		Johannes Köbler, Seinosuke Toda: On the Power of Generalized MOD-Classes. Mathematical Systems Theory 29(1): 33-46 (1996)
26		Vikraman Arvind, Johannes Köbler, Martin Mundhenk: Upper Bounds for the Complexity of Sparse and Tally Descriptions. Mathematical Systems Theory 29(1): 63-94 (1996)
1995
25		Johannes Köbler, Osamu Watanabe: New Collapse Consequences of NP Having Small Circuits. ICALP 1995: 196-207
24		Johannes Köbler: On the Structure of Low Sets. Structure in Complexity Theory Conference 1995: 246-261
23	EE	Vikraman Arvind, Johannes Köbler, Martin Mundhenk: On Reductions to Sets that Avoid EXPSPACE. Inf. Process. Lett. 56(2): 109-114 (1995)
22		Vikraman Arvind, Johannes Köbler, Rainer Schuler: On Helping and Interactive Proof Systems. Int. J. Found. Comput. Sci. 6(2): 137-153 (1995)
21		Frederic Green, Johannes Köbler, Kenneth W. Regan, Thomas Schwentick, Jacobo Torán: The Power of the Middle Bit of a #P Function. J. Comput. Syst. Sci. 50(3): 456-467 (1995)
20	EE	Vikraman Arvind, Johannes Köbler, Uwe Schöning, Rainer Schuler: If NP has Polynomial-Size Circuits, then MA=AM. Theor. Comput. Sci. 137(2): 279-282 (1995)
1994
19		Vikraman Arvind, Johannes Köbler, Rainer Schuler: On Helping and Interactive Proof Systems. ISAAC 1994: 137-145
18		Johannes Köbler, Thomas Thierauf: Complexity-Restricted Advice Functions. SIAM J. Comput. 23(2): 261-275 (1994)
17		Johannes Köbler: Locating P/poly Optimally in the Extended Low Hierarchy. Theor. Comput. Sci. 134(2): 263-285 (1994)
1993
16		Vikraman Arvind, Johannes Köbler, Martin Mundhenk: Hausdorff Reductions to Sparse Sets and to Sets of High Information Content. MFCS 1993: 232-241
15		Johannes Köbler: Locating P/poly Optimally in the Extended Low Hierarchy. STACS 1993: 28-37
14		Johannes Köbler, Seinosuke Toda: On the Power of Generalized MOD-Classes. Structure in Complexity Theory Conference 1993: 147-155
1992
13		Vikraman Arvind, Yenjo Han, Lane A. Hemachandra, Johannes Köbler, Antoni Lozano, Martin Mundhenk, Mitsunori Ogiwara, Uwe Schöning, Riccardo Silvestri, Thomas Thierauf: Reductions to Sets of Low Information Content. Complexity Theory: Current Research 1992: 1-46
12		Vikraman Arvind, Johannes Köbler, Martin Mundhenk: On Bounded Truth-Table, Conjunctive, and Randomized Reductions to Sparse Sets. FSTTCS 1992: 140-151
11		Vikraman Arvind, Yenjo Han, Lane A. Hemachandra, Johannes Köbler, Antoni Lozano, Martin Mundhenk, Mitsunori Ogiwara, Uwe Schöning, Riccardo Silvestri, Thomas Thierauf: Reductions to Sets of Low Information Content. ICALP 1992: 162-173
10		Vikraman Arvind, Johannes Köbler, Martin Mundhenk: Lowness and the Complexity of Sparse and Tally Descriptions. ISAAC 1992: 249-258
9		Johannes Köbler, Uwe Schöning, Jacobo Torán: Graph Isomorphism is Low for PP. STACS 1992: 401-411
8		Frederic Green, Johannes Köbler, Jacobo Torán: The Power of the Middle Bit. Structure in Complexity Theory Conference 1992: 111-117
7		Johannes Köbler, Uwe Schöning, Jacobo Torán: Graph Isomorphism is Low for PP. Computational Complexity 2: 301-330 (1992)
6		Johannes Köbler, Uwe Schöning, Seinosuke Toda, Jacobo Torán: Turing Machines with Few Accepting Computations and Low Sets for PP. J. Comput. Syst. Sci. 44(2): 272-286 (1992)
1990
5		Johannes Köbler, Thomas Thierauf: Complexity Classes with Advice. Structure in Complexity Theory Conference 1990: 305-315
1989
4		Johannes Köbler, Uwe Schöning, Seinosuke Toda, Jacobo Torán: Turing Machines with few Accepting Computations and low Sets for PP. Structure in Complexity Theory Conference 1989: 208-215
3		Johannes Köbler, Uwe Schöning, Jacobo Torán: On Counting and Approximation. Acta Inf. 26(4): 363-379 (1989)
1988
2		Johannes Köbler, Uwe Schöning, Jacobo Torán: On Counting and Approximation. CAAP 1988: 40-51
1987
1		Johannes Köbler, Uwe Schöning, Klaus W. Wagner: The Difference and Truth-Table Hierarchies for NP. ITA 21(4): 419-435 (1987)

Coauthor Index

1 Vikraman Arvind [10] [11] [12] [13] [16] [19] [20] [22] [23] [26] [28] [30] [38] [41] [42] [45] [46] [56] [59] [60] [62]

2 José L. Balcázar [58]

3 Olaf Beyersdorff [61] [64]

4 Jorge Castro [58]

5 Bireswar Das [59] [62]

6 Frederic Green [8] [21]

7 David Guijarro [58]

8 Yenjo Han [11] [13]

9 Lane A. Hemaspaandra (Lane A. Hemachandra) [11] [13]

10 Birgit Jenner [50] [54]

11 Christoph Karg [29] [39]

12 Wolfgang Lindner [32] [36] [40] [44] [48] [49] [53] [58] [60]

13 Antoni Lozano [11] [13]

14 Pierre McKenzie [50] [54]

15 Jochen Messner [37] [43] [51]

16 Sebastian Müller [61] [64]

17 Martin Mundhenk [10] [11] [12] [13] [16] [23] [26] [28] [42]

18 Mitsunori Ogihara (Mitsunori Ogiwara) [11] [13]

19 Kenneth W. Regan [21]

20 Uwe Schöning [1] [2] [3] [4] [6] [7] [9] [11] [13] [20] [31]

21 Rainer Schuler [19] [20] [22] [29] [34] [35] [39] [52]

22 Thomas Schwentick [21]

23 Riccardo Silvestri [11] [13]

24 Thomas Thierauf [5] [11] [13] [18]

25 Seinosuke Toda [4] [6] [14] [27]

26 Jacobo Torán [2] [3] [4] [6] [7] [8] [9] [21] [42] [47] [50] [51] [54]

27 Oleg Verbitsky [55] [63]

28 Klaus W. Wagner [1]

29 Osamu Watanabe [25] [33]

Colors in the list of coauthors

1	Vikraman Arvind	[10] [11] [12] [13] [16] [19] [20] [22] [23] [26] [28] [30] [38] [41] [42] [45] [46] [56] [59] [60] [62]
2	José L. Balcázar	[58]
3	Olaf Beyersdorff	[61] [64]
4	Jorge Castro	[58]
5	Bireswar Das	[59] [62]
6	Frederic Green	[8] [21]
7	David Guijarro	[58]
8	Yenjo Han	[11] [13]
9	Lane A. Hemaspaandra (Lane A. Hemachandra)	[11] [13]
10	Birgit Jenner	[50] [54]
11	Christoph Karg	[29] [39]
12	Wolfgang Lindner	[32] [36] [40] [44] [48] [49] [53] [58] [60]
13	Antoni Lozano	[11] [13]
14	Pierre McKenzie	[50] [54]
15	Jochen Messner	[37] [43] [51]
16	Sebastian Müller	[61] [64]
17	Martin Mundhenk	[10] [11] [12] [13] [16] [23] [26] [28] [42]
18	Mitsunori Ogihara (Mitsunori Ogiwara)	[11] [13]
19	Kenneth W. Regan	[21]
20	Uwe Schöning	[1] [2] [3] [4] [6] [7] [9] [11] [13] [20] [31]
21	Rainer Schuler	[19] [20] [22] [29] [34] [35] [39] [52]
22	Thomas Schwentick	[21]
23	Riccardo Silvestri	[11] [13]
24	Thomas Thierauf	[5] [11] [13] [18]
25	Seinosuke Toda	[4] [6] [14] [27]
26	Jacobo Torán	[2] [3] [4] [6] [7] [8] [9] [21] [42] [47] [50] [51] [54]
27	Oleg Verbitsky	[55] [63]
28	Klaus W. Wagner	[1]
29	Osamu Watanabe	[25] [33]