2008 |
21 | EE | Geoffrey Mazeroff,
Jens Gregor,
Michael G. Thomason,
Richard Ford:
Probabilistic suffix models for API sequence analysis of Windows XP applications.
Pattern Recognition 41(1): 90-101 (2008) |
2007 |
20 | EE | James S. Plank,
Michael G. Thomason:
An Exploration of Non-asymptotic Low-Density, Parity Check Erasure Codes for Wide-Area Storage Applications.
Parallel Processing Letters 17(1): 103-123 (2007) |
2005 |
19 | EE | James S. Plank,
Adam L. Buchsbaum,
Rebecca L. Collins,
Michael G. Thomason:
Small Parity-Check Erasure Codes - Exploration and Observations.
DSN 2005: 326-335 |
2004 |
18 | EE | James S. Plank,
Michael G. Thomason:
A Practical Analysis of Low-Density Parity-Check Erasure Codes for Wide-Area Storage Applications.
DSN 2004: 115-124 |
17 | EE | Michael G. Thomason,
R. F. Longton,
Jens Gregor,
G. T. Smith,
R. K. Hutson:
Simulation of emission tomography using grid middleware for distributed computing.
Computer Methods and Programs in Biomedicine 75(3): 251-258 (2004) |
2001 |
16 | EE | James S. Plank,
Michael G. Thomason:
Processor Allocation and Checkpoint Interval Selection in Cluster Computing Systems.
J. Parallel Distrib. Comput. 61(11): 1570-1590 (2001) |
2000 |
15 | | James A. Whittaker,
Kamel Rekab,
Michael G. Thomason:
A Markov chain model for predicting the reliability of multi-build software.
Information & Software Technology 42(12): 889-894 (2000) |
1999 |
14 | EE | James S. Plank,
Michael G. Thomason:
The Average Availability of Parallel Checkpointing Systems and Its Importance in Selecting Runtime Parameters.
FTCS 1999: 250-257 |
13 | | Henri Casanova,
Michael G. Thomason,
Jack Dongarra:
Stochastic Performance Prediction for Iterative Algorithms in Distributed Environments.
J. Parallel Distrib. Comput. 58(1): 68-91 (1999) |
1996 |
12 | | Jens Gregor,
Michael G. Thomason:
A disagreement count scheme for inference of constrained Markov networks.
ICGI 1996: 168-178 |
11 | EE | Jens Gregor,
Michael G. Thomason:
Efficient dynamic programming alignment of cyclic strings by shift elimination.
Pattern Recognition 29(7): 1179-1185 (1996) |
1994 |
10 | EE | James A. Whittaker,
Michael G. Thomason:
A Markov Chain Model for Statistical Software Testing.
IEEE Trans. Software Eng. 20(10): 812-824 (1994) |
1993 |
9 | EE | Jens Gregor,
Michael G. Thomason:
Dynamic Programming Alignment of Sequences Representing Cyclic Patterns.
IEEE Trans. Pattern Anal. Mach. Intell. 15(2): 129-135 (1993) |
8 | EE | Jens Gregor,
Michael G. Thomason:
Hybrid Pattern Recognition Using Markov Networks.
IEEE Trans. Pattern Anal. Mach. Intell. 15(6): 651-656 (1993) |
1986 |
7 | EE | Michael G. Thomason,
Erik Granum,
R. E. Blake:
Experiments in dynamic programming inference of Markov networks with strings representing speech data.
Pattern Recognition 19(5): 343-352 (1986) |
1983 |
6 | | Bernard M. E. Moret,
Michael G. Thomason,
Rafael C. Gonzalez:
Symmetric and Threshold Boolean Functions Are Exhaustive.
IEEE Trans. Computers 32(12): 1211-1212 (1983) |
1981 |
5 | EE | Michael G. Thomason:
Stochastic syntax-directed translations in syntactic pattern processing.
Pattern Recognition 14(1-6): 187-190 (1981) |
1980 |
4 | EE | Bernard M. E. Moret,
Michael G. Thomason,
Rafael C. Gonzalez:
The Activity of a Variable and Its Relation to Decision Trees.
ACM Trans. Program. Lang. Syst. 2(4): 580-595 (1980) |
1975 |
3 | | Michael G. Thomason,
Rafael C. Gonzalez:
Syntactic Recognition of Imperfectly Specified Patterns.
IEEE Trans. Computers 24(1): 93-95 (1975) |
2 | | Michael G. Thomason:
Stochastic Syntax-Directed Translation Schemata for Correction of Errors in Context-Free Languages.
IEEE Trans. Computers 24(12): 1211-1216 (1975) |
1973 |
1 | EE | Michael G. Thomason:
Finite fuzzy automata, regular fuzzy languages, and pattern recognition.
Pattern Recognition 5(4): 383-390 (1973) |