2005 |
29 | EE | Gen Kawamura,
Masato Kitajima,
Kentaro Wakatsuki,
Takehiro Furudate,
Takahiro Kosaka,
Kazuto Yamazaki,
Reiji Teramoto,
Susumu Date,
Shinji Shimojo,
Hideo Matsuda:
A Grid-based Information Integration System for Drug Discovery.
ICDE Workshops 2005: 1167 |
28 | EE | Takahiro Kosaka,
Susumu Date,
Hideo Matsuda,
Shinji Shimojo:
Designing a Rule-Based Environment to Interoperate Life-Scientific Ontologies for Drug Discovery.
SAINT Workshops 2005: 324-327 |
27 | EE | Hideo Matsuda:
A Grid Environment for Data Integration of Scientific Databases.
e-Science 2005: 3-4 |
2004 |
26 | EE | Kohei Taki,
Reiji Teramoto,
Yoichi Takenaka,
Hideo Matsuda:
Inference of Gene Regulatory Network Based on Module Network Model with Gene Functional Classifications.
CSB 2004: 632-633 |
25 | EE | Shoko Miyake,
Yoichi Takenaka,
Hideo Matsuda:
A Graph Analysis Method to Detect Metabolic Sub-Networks Based on Phylogenetic Profile.
CSB 2004: 634-635 |
24 | EE | Yukako Tohsato,
Takahiro Kosaka,
Susumu Date,
Shinji Shimojo,
Hideo Matsuda:
Heterogeneous Database Federation Using Grid Technology for Drug Discovery Process.
LSGRID 2004: 43-52 |
23 | EE | Hideya Kawaji,
Yoichi Takenaka,
Hideo Matsuda:
Graph-based clustering for finding distant relationships in a large set of protein sequences.
Bioinformatics 20(2): 243-252 (2004) |
22 | EE | Haruki Nakamura,
Susumu Date,
Hideo Matsuda,
Shinji Shimojo:
A Challenge towards Next-Generation Research Infrastructure for Advanced Life Science.
New Generation Comput. 22(2): (2004) |
21 | | Takeshi Nagashima,
Hideo Matsuda,
Diego G. Silva,
Nikolai Petrovsky,
Akihiko Konagaya,
Christian Schönbach:
FREP: a database of functional repeats in mouse cDNAs.
Nucleic Acids Research 32(Database-Issue): 471-475 (2004) |
2003 |
20 | EE | Shoko Miyake,
Yukako Tohsato,
Yoichi Takenaka,
Hideo Matsuda:
Clustering Method for Comparative Analysis between Genomes and Pathways.
DASFAA 2003: 327- |
19 | EE | Takeya Kasukawa,
Hidemasa Bono,
Yoshihide Hayashizaki,
Yasushi Okazaki,
Hideo Matsuda:
MaXML: mouse annotation XML.
In Silico Biology 4: (2003) |
2002 |
18 | EE | Shoko Miyake,
Yukako Tohsato,
Hideo Matsuda:
An Application of a Pathway Alignment Method to Comparative Analysis between Genome and Pathways.
CSB 2002: 329-329 |
17 | EE | Shigeto Seno,
Reiji Teramoto,
Hideo Matsuda:
P-quasi Complete Linkage Analysis for Gene-Expression Data.
CSB 2002: 342 |
16 | EE | Kentaro Onizuka,
Tamotsu Noguchi,
Yutaka Akiyama,
Hideo Matsuda:
Using Data Compression for Multidimensional Distribution Analysis.
IEEE Intelligent Systems 17(3): 48-54 (2002) |
2001 |
15 | | Tamotsu Noguchi,
Hideo Matsuda,
Yutaka Akiyama:
PDB-REPRDB: a database of representative protein chains from the Protein Data Bank (PDB).
Nucleic Acids Research 29(1): 219-220 (2001) |
2000 |
14 | | Yukako Tohsato,
Hideo Matsuda,
Akihiro Hashimoto:
A Multiple Alignment Algorithm for Metabolic Pathway Analysis Using Enzyme Hierarchy.
ISMB 2000: 376-383 |
13 | | Makoto Ando,
Yutaka Akiyama,
Hideo Matsuda:
Hierarchical Approach to Parallel Tree Search for Protein Conformational Analysis.
PDPTA 2000 |
12 | | Tamotsu Noguchi,
Kentaro Onizuka,
Makoto Ando,
Hideo Matsuda,
Yutaka Akiyama:
Quick selection of representative protein chain sets based on customizable requirements.
Bioinformatics 16(6): 520-526 (2000) |
11 | EE | Takeya Kasukawa,
Michio Nakanishi,
Hideo Matsuda,
Akihiro Hashimoto:
An efficient procedure for maintaining materialized views on distributed database systems.
Systems and Computers in Japan 31(5): 86-96 (2000) |
1999 |
10 | EE | Hideo Matsuda,
T. Ishihara,
Akihiro Hashimoto:
Classifying Molecular Sequences Using a Linkage Graph With Their Pairwise Similarities.
Theor. Comput. Sci. 210(2): 305-325 (1999) |
1995 |
9 | | Hironori Nakajo,
Takashi Matsumoto,
Masaki Kohata,
Hideo Matsuda,
Kei Hiraki,
Yukio Kaneda:
High Performance I/O System of the Distributed Shared-Memory Massively Parallel Computer JUMP-1.
Parallel and Distributed Computing and Systems 1995: 470-473 |
1994 |
8 | EE | Hideo Matsuda,
Gary J. Olsen,
Ross A. Overbeek,
Yukio Kaneda:
Fast phylogenetic analysis on a massively parallel machine.
International Conference on Supercomputing 1994: 297-302 |
7 | | Gary J. Olsen,
Hideo Matsuda,
Ray Hagstrom,
Ross A. Overbeek:
fastDNAmL: a tool for construction of phylogenetic trees of DNA sequences using maximum likelihood.
Computer Applications in the Biosciences 10(1): 41-48 (1994) |
6 | | Hideo Matsuda,
Yukio Kaneda:
An Application of an OR-Parallel Prolog Systemto Phylogenetic Analysis.
Lisp and Symbolic Computation 7(2-3): 211-229 (1994) |
1992 |
5 | | Yukio Kaneda,
Hideo Matsuda,
Shigeo Suzuka:
A Priority Control System for OR-Parallel Prolog and Its Performance Evaluation.
Parallel Symbolic Computing 1992: 42-53 |
1987 |
4 | | Hideo Matsuda,
M. Kohata,
T. Masuo,
Yukio Kaneda,
Sadao Maekawa:
Implementing Parallel Prolog System on Multiprocessor System PARK.
IWDM 1987: 599-612 |
1986 |
3 | | Yukio Kaneda,
Naoyuki Tamura,
Koichi Wada,
Hideo Matsuda,
Shumin Kuo,
Sadao Maekawa:
Sequential Prolog Machine PEK.
New Generation Comput. 4(1): 51-66 (1986) |
1985 |
2 | | Hideo Matsuda,
M. Kohata,
T. Masuo,
Yukio Kaneda,
Sadao Maekawa:
Parallel Prolog Machine PARK: Its Hardware Structure and Prolog System.
LP 1985: 35-43 |
1984 |
1 | | Naoyuki Tamura,
Koichi Wada,
Hideo Matsuda,
Yukio Kaneda,
Sadao Maekawa:
Sequential Prolog Machine PEK.
FGCS 1984: 542-550 |