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ORCIDJohn M. Hitchcock
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- affiliation: University of Wyoming, USA
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2020 – today
- 2022
[j34]John M. Hitchcock
, Hadi Shafei:
Nonuniform Reductions and NP-Completeness. Theory Comput. Syst. 66(4): 743-757 (2022)- 2021
- [j33]John M. Hitchcock, Adewale Sekoni, Hadi Shafei:
Polynomial-Time Random Oracles and Separating Complexity Classes. ACM Trans. Comput. Theory 13(1): 11-16 (2021)
2010 – 2019
- 2019
- [j32]John M. Hitchcock, Adewale Sekoni:
Nondeterminisic Sublinear Time Has Measure 0 in P. Theory Comput. Syst. 63(3): 386-393 (2019) - 2018
- [j31]John M. Hitchcock, Hadi Shafei:
Autoreducibility of NP-Complete Sets under Strong Hypotheses. Comput. Complex. 27(1): 63-97 (2018) - [c26]John M. Hitchcock, Hadi Shafei:
Nonuniform Reductions and NP-Completeness. STACS 2018: 40:1-40:13 - [i26]John M. Hitchcock, Hadi Shafei:
Nonuniform Reductions and NP-Completeness. CoRR abs/1801.05882 (2018) - [i25]John M. Hitchcock, Adewale Sekoni:
Nondeterminisic Sublinear Time Has Measure 0 in P. CoRR abs/1801.05884 (2018) - [i24]John M. Hitchcock, Adewale Sekoni, Hadi Shafei:
Polynomial-Time Random Oracles and Separating Complexity Classes. CoRR abs/1801.07317 (2018) - [i23]John M. Hitchcock, Hadi Shafei:
Nonuniform Reductions and NP-Completeness. Electron. Colloquium Comput. Complex. TR18 (2018) - [i22]John M. Hitchcock, Adewale Sekoni:
Nondeterminisic Sublinear Time Has Measure 0 in P. Electron. Colloquium Comput. Complex. TR18 (2018) - [i21]John M. Hitchcock, Adewale Sekoni, Hadi Shafei:
Polynomial-Time Random Oracles and Separating Complexity Classes. Electron. Colloquium Comput. Complex. TR18 (2018) - 2016
- [c25]John M. Hitchcock, Hadi Shafei:
Autoreducibility of NP-Complete Sets. STACS 2016: 42:1-42:12 - [i20]John M. Hitchcock, Hadi Shafei:
Autoreducibility of NP-Complete Sets. CoRR abs/1601.05494 (2016) - [i19]John M. Hitchcock, Hadi Shafei:
Autoreducibility of NP-Complete Sets. Electron. Colloquium Comput. Complex. TR16 (2016) - 2015
- [c24]John M. Hitchcock, Aduri Pavan:
On the NP-Completeness of the Minimum Circuit Size Problem. FSTTCS 2015: 236-245 - 2014
- [j30]Ryan C. Harkins, John M. Hitchcock, Aduri Pavan:
Strong Reductions and Isomorphism of Complete Sets. Comput. 3(2): 91-104 (2014) - [j29]Christian Glaßer, John M. Hitchcock, Aduri Pavan, Stephen D. Travers:
Unions of Disjoint NP-Complete Sets. ACM Trans. Comput. Theory 6(1): 3:1-3:10 (2014) - 2013
- [j28]John M. Hitchcock, Elvira Mayordomo:
Base invariance of feasible dimension. Inf. Process. Lett. 113(14-16): 546-551 (2013) - [j27]Ryan C. Harkins, John M. Hitchcock:
Exact Learning Algorithms, Betting Games, and Circuit Lower Bounds. ACM Trans. Comput. Theory 5(4): 18:1-18:11 (2013) - [c23]Harry Buhrman, Lance Fortnow, John M. Hitchcock, Bruno Loff:
Learning Reductions to Sparse Sets. MFCS 2013: 243-253 - [c22]John M. Hitchcock, Aduri Pavan:
Length-Increasing Reductions for PSPACE-Completeness. MFCS 2013: 540-550 - 2012
- [j26]John M. Hitchcock:
Limitations of Efficient Reducibility to the Kolmogorov Random Strings. Comput. 1(1): 39-43 (2012) - [j25]Xiaoyang Gu, John M. Hitchcock, Aduri Pavan:
Collapsing and Separating Completeness Notions Under Average-Case and Worst-Case Hypotheses. Theory Comput. Syst. 51(2): 248-265 (2012) - 2011
- [j24]Baris Aydinlioglu, Dan Gutfreund, John M. Hitchcock, Akinori Kawachi:
Derandomizing Arthur-Merlin Games and Approximate Counting Implies Exponential-Size Lower Bounds. Comput. Complex. 20(2): 329-366 (2011) - [j23]Lance Fortnow, John M. Hitchcock, Aduri Pavan, N. V. Vinodchandran, Fengming Wang:
Extracting Kolmogorov complexity with applications to dimension zero-one laws. Inf. Comput. 209(4): 627-636 (2011) - [j22]Ryan C. Harkins, John M. Hitchcock:
Dimension, Halfspaces, and the Density of Hard Sets. Theory Comput. Syst. 49(3): 601-614 (2011) - [j21]John M. Hitchcock, Aduri Pavan, N. Variyam Vinodchandran:
Kolmogorov Complexity in Randomness Extraction. ACM Trans. Comput. Theory 3(1): 1:1-1:12 (2011) - [c21]Christian Glaßer, John M. Hitchcock, Aduri Pavan, Stephen D. Travers:
Unions of Disjoint NP-Complete Sets. COCOON 2011: 240-251 - [c20]Ryan C. Harkins, John M. Hitchcock:
Exact Learning Algorithms, Betting Games, and Circuit Lower Bounds. ICALP (1) 2011: 416-423 - 2010
- [c19]John M. Hitchcock:
Lower Bounds for Reducibility to the Kolmogorov Random Strings. CiE 2010: 195-200 - [c18]Xiaoyang Gu, John M. Hitchcock, Aduri Pavan:
Collapsing and Separating Completeness Notions under Average-Case and Worst-Case Hypotheses. STACS 2010: 429-440 - [i18]Xiaoyang Gu, John M. Hitchcock, Aduri Pavan:
Collapsing and Separating Completeness Notions under Average-Case and Worst-Case Hypotheses. CoRR abs/1001.0117 (2010) - [i17]Scott Aaronson, Baris Aydinlioglu, Harry Buhrman, John M. Hitchcock, Dieter van Melkebeek:
A note on exponential circuit lower bounds from derandomizing Arthur-Merlin games. Electron. Colloquium Comput. Complex. TR10 (2010)
2000 – 2009
- 2009
- [c17]John M. Hitchcock, Aduri Pavan, N. V. Vinodchandran:
Kolmogorov Complexity in Randomness Extraction. FSTTCS 2009: 215-226 - [i16]John M. Hitchcock, Aduri Pavan, N. V. Vinodchandran:
Kolmogorov Complexity in Randomness Extraction. Electron. Colloquium Comput. Complex. TR09 (2009) - 2008
- [j20]John M. Hitchcock, Aduri Pavan:
Hardness Hypotheses, Derandomization, and Circuit Complexity. Comput. Complex. 17(1): 119-146 (2008) - [j19]John M. Hitchcock, Aduri Pavan, N. V. Vinodchandran:
Partial Bi-immunity, Scaled Dimension, and NP-Completeness. Theory Comput. Syst. 42(2): 131-142 (2008) - [j18]John M. Hitchcock, María López-Valdés, Elvira Mayordomo:
Scaled Dimension and the Kolmogorov Complexity of Turing-Hard Sets. Theory Comput. Syst. 43(3-4): 471-497 (2008) - [c16]Harry Buhrman, John M. Hitchcock:
NP-Hard Sets Are Exponentially Dense Unless coNP C NP/poly. CCC 2008: 1-7 - [i15]Harry Buhrman, John M. Hitchcock:
NP-Hard Sets are Exponentially Dense Unless NP is contained in coNP/poly. Electron. Colloquium Comput. Complex. TR08 (2008) - 2007
- [j17]John M. Hitchcock, Aduri Pavan:
Comparing reductions to NP-complete sets. Inf. Comput. 205(5): 694-706 (2007) - [j16]John M. Hitchcock:
Online Learning and Resource-Bounded Dimension: Winnow Yields New Lower Bounds for Hard Sets. SIAM J. Comput. 36(6): 1696-1708 (2007) - [j15]Krishna B. Athreya, John M. Hitchcock, Jack H. Lutz, Elvira Mayordomo:
Effective Strong Dimension in Algorithmic Information and Computational Complexity. SIAM J. Comput. 37(3): 671-705 (2007) - [j14]Ryan C. Harkins, John M. Hitchcock:
Upward separations and weaker hypotheses in resource-bounded measure. Theor. Comput. Sci. 389(1-2): 162-171 (2007) - [j13]John M. Hitchcock, Jack H. Lutz, Sebastiaan Terwijn:
The arithmetical complexity of dimension and randomness. ACM Trans. Comput. Log. 8(2): 13 (2007) - [c15]Ryan C. Harkins, John M. Hitchcock:
Dimension, Halfspaces, and the Density of Hard Sets. COCOON 2007: 129-139 - [c14]Ryan C. Harkins, John M. Hitchcock, Aduri Pavan:
Strong Reductions and Isomorphism of Complete Sets. FSTTCS 2007: 168-178 - 2006
- [j12]John M. Hitchcock, N. V. Vinodchandran:
Dimension, entropy rates, and compression. J. Comput. Syst. Sci. 72(4): 760-782 (2006) - [j11]John M. Hitchcock, Jack H. Lutz:
Why Computational Complexity Requires Stricter Martingales. Theory Comput. Syst. 39(2): 277-296 (2006) - [j10]John M. Hitchcock:
Hausdorff dimension and oracle constructions. Theor. Comput. Sci. 355(3): 382-388 (2006) - [c13]Lance Fortnow, John M. Hitchcock, Aduri Pavan, N. V. Vinodchandran, Fengming Wang:
Extracting Kolmogorov Complexity with Applications to Dimension Zero-One Laws. ICALP (1) 2006: 335-345 - [c12]John M. Hitchcock, Aduri Pavan:
Comparing Reductions to NP-Complete Sets. ICALP (1) 2006: 465-476 - [c11]John M. Hitchcock:
Online Learning and Resource-Bounded Dimension: Winnow Yields New Lower Bounds for Hard Sets. STACS 2006: 408-419 - [i14]John M. Hitchcock, Aduri Pavan:
Comparing Reductions to NP-Complete Sets. Electron. Colloquium Comput. Complex. TR06 (2006) - [i13]John M. Hitchcock, Aduri Pavan:
Hardness Hypotheses, Derandomization, and Circuit Complexity. Electron. Colloquium Comput. Complex. TR06 (2006) - 2005
- [j9]John M. Hitchcock, Aduri Pavan:
Resource-bounded strong dimension versus resource-bounded category. Inf. Process. Lett. 95(3): 377-381 (2005) - [j8]John M. Hitchcock:
Correspondence Principles for Effective Dimensions. Theory Comput. Syst. 38(5): 559-571 (2005) - [j7]Chris Bourke, John M. Hitchcock, N. V. Vinodchandran:
Entropy rates and finite-state dimension. Theor. Comput. Sci. 349(3): 392-406 (2005) - [i12]John M. Hitchcock:
Online Learning and Resource-Bounded Dimension: Winnow Yields New Lower Bounds for Hard Sets. CoRR abs/cs/0512053 (2005) - [i11]Lance Fortnow, John M. Hitchcock, Aduri Pavan, N. V. Vinodchandran, Fengming Wang:
Extracting Kolmogorov Complexity with Applications to Dimension Zero-One Laws. Electron. Colloquium Comput. Complex. TR05 (2005) - [i10]John M. Hitchcock:
Online Learning and Resource-Bounded Dimension: Winnow Yields New Lower Bounds for Hard Sets. Electron. Colloquium Comput. Complex. TR05 (2005) - 2004
- [j6]John M. Hitchcock, Jack H. Lutz, Elvira Mayordomo:
Scaled dimension and nonuniform complexity. J. Comput. Syst. Sci. 69(2): 97-122 (2004) - [j5]John M. Hitchcock:
Small Spans in Scaled Dimension. SIAM J. Comput. 34(1): 170-194 (2004) - [j4]John M. Hitchcock:
The size of SPP. Theor. Comput. Sci. 320(2-3): 495-503 (2004) - [c10]John M. Hitchcock:
Small Spans in Scaled Dimension. CCC 2004: 104-112 - [c9]John M. Hitchcock, N. V. Vinodchandran:
Dimension, Entropy Rates, and Compression. CCC 2004: 174-183 - [c8]John M. Hitchcock, Aduri Pavan, N. V. Vinodchandran:
Partial Bi-immunity and NP-Completeness. CCC 2004: 198-203 - [c7]John M. Hitchcock, Aduri Pavan:
Hardness Hypotheses, Derandomization, and Circuit Complexity. FSTTCS 2004: 336-347 - [c6]John M. Hitchcock, María López-Valdés, Elvira Mayordomo:
Scaled Dimension and the Kolmogorov Complexity of Turing-Hard Sets. MFCS 2004: 476-487 - [c5]Krishna B. Athreya, John M. Hitchcock, Jack H. Lutz, Elvira Mayordomo:
Effective Strong Dimension in Algorithmic Information and Computational Complexity. STACS 2004: 632-643 - [i9]John M. Hitchcock, Jack H. Lutz, Sebastiaan Terwijn:
The Arithmetical Complexity of Dimension and Randomness. CoRR cs.LO/0408043 (2004) - [i8]John M. Hitchcock, Aduri Pavan, Pramodchandran N. Variyam:
Partial Bi-Immunity and NP-Completeness. Electron. Colloquium Comput. Complex. TR04 (2004) - [i7]John M. Hitchcock, María López-Valdés, Elvira Mayordomo:
Scaled dimension and the Kolmogorov complexity of Turing hard sets. Electron. Colloquium Comput. Complex. TR04 (2004) - [i6]John M. Hitchcock:
Hausdorff Dimension and Oracle Constructions. Electron. Colloquium Comput. Complex. TR04 (2004) - [i5]John M. Hitchcock, Jack H. Lutz, Sebastiaan Terwijn:
The Arithmetical Complexity of Dimension and Randomness. Electron. Colloquium Comput. Complex. TR04 (2004) - 2003
- [j3]John M. Hitchcock:
Gales suffice for constructive dimension. Inf. Process. Lett. 86(1): 9-12 (2003) - [j2]John M. Hitchcock:
Fractal dimension and logarithmic loss unpredictability. Theor. Comput. Sci. 304(1-3): 431-441 (2003) - [c4]John M. Hitchcock, Jack H. Lutz, Sebastiaan Terwijn:
The Arithmetical Complexity of Dimension and Randomness. CSL 2003: 241-254 - [c3]John M. Hitchcock, Jack H. Lutz, Elvira Mayordomo:
Scaled Dimension and Nonuniform Complexity. ICALP 2003: 278-290 - [i4]John M. Hitchcock:
Small Spans in Scaled Dimension. CoRR cs.CC/0304030 (2003) - [i3]John M. Hitchcock:
The Size of SPP. Electron. Colloquium Comput. Complex. TR03 (2003) - 2002
- [j1]John M. Hitchcock:
MAX3SAT is exponentially hard to approximate if NP has positive dimension. Theor. Comput. Sci. 289(1): 861-869 (2002) - [c2]John M. Hitchcock, Jack H. Lutz:
Why Computational Complexity Requires Stricter Martingales. ICALP 2002: 549-560 - [c1]John M. Hitchcock:
Correspondence Principles for Effective Dimensions. ICALP 2002: 561-571 - [i2]John M. Hitchcock:
Gales Suffice for Constructive Dimension. CoRR cs.CC/0208043 (2002) - [i1]Krishna B. Athreya, John M. Hitchcock, Jack H. Lutz, Elvira Mayordomo:
Effective Strong Dimension, Algorithmic Information, and Computational Complexity. CoRR cs.CC/0211025 (2002)
Coauthor Index
aka: N. Variyam Vinodchandran
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