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Akira Suyama
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2020 – today
- 2020
- [j8]Robert D. Barish, Akira Suyama:
Counting Hamiltonian Cycles on Quartic 4-Vertex-Connected Planar Graphs. Graphs Comb. 36(2): 387-400 (2020) - [j7]Robert D. Barish, Akira Suyama:
Randomized Reductions and the Topology of Conjectured Classes of Uniquely Hamiltonian Graphs. J. Inf. Process. 28: 876-888 (2020)
2010 – 2019
- 2018
- [c22]Robert D. Barish, Akira Suyama:
Barnette's Conjecture Through the Lens of the ModkP Complexity Classes. JCDCGGG 2018: 59-73 - 2017
- [c21]Toshihiro Kojima, Akira Suyama:
Importance of Sequence Design Methods Considering Hybridization Kinetics for in vivo DNA Computers. BIOSIGNALS 2017: 248-252 - [c20]Robert D. Barish, Akira Suyama:
Counting Substrate Cycles in Topologically Restricted Metabolic Networks. CiE 2017: 129-140 - 2016
- [c19]Akira Suyama, Ushio Inoue:
Using geofencing for a disaster information system. ICIS 2016: 1-5 - 2014
- [j6]Anton Kan, Yoko Sakai, Ko-ichiroh Shohda, Akira Suyama:
A DNA based molecular logic gate capable of a variety of logical operations. Nat. Comput. 13(4): 573-581 (2014) - 2012
- [c18]Anton Kan, Ko-ichiroh Shohda, Akira Suyama:
A DNA Based Molecular Logic Gate Capable of a Variety of Logical Operations. DNA 2012: 86-97
2000 – 2009
- 2009
- [j5]Masahiro Takinoue, Daisuke Kiga, Ko-ichiroh Shohda, Akira Suyama:
RNA Oscillator: Limit Cycle Oscillations based on Artificial Biomolecular Reactions. New Gener. Comput. 27(2): 107-127 (2009) - [c17]Yoko Sakai, Yoriko Mawatari, Kiyonari Yamasaki, Ko-ichiroh Shohda, Akira Suyama:
Construction of AND Gate for RTRACS with the Capacity of Extension to NAND Gate. DNA 2009: 137-143 - [e1]Russell J. Deaton, Akira Suyama:
DNA Computing and Molecular Programming, 15th International Conference, DNA 15, Fayetteville, AR, USA, June 8-11, 2009, Revised Selected Papers. Lecture Notes in Computer Science 5877, Springer 2009, ISBN 978-3-642-10603-3 [contents] - 2008
- [j4]Zuwairie Ibrahim, John A. Rose, Akira Suyama, Marzuki Khalid:
Experimental implementation and analysis of a DNA computing readout method based on real-time PCR with TaqMan probes. Nat. Comput. 7(2): 277-286 (2008) - 2007
- [c16]Yasubumi Sakakibara, Takashi Yokomori, Satoshi Kobayashi, Akira Suyama:
Probabilistic Inference in Test Tube and its Application to Gene Expression Profiles. Formal Models, Languages and Applications 2007: 304-319 - [c15]Zuwairie Ibrahim, Muhammad Faiz Mohamed Saaid, Ali S. Paramita, Akira Suyama, John A. Rose:
An improved readout method of molecular computation based on real-time PCR implemented on DNA Engine Opticon 2 System. IEEE Congress on Evolutionary Computation 2007: 1829-1834 - [c14]Tetsuro Kitajima, Masahiro Takinoue, Ko-ichiroh Shohda, Akira Suyama:
Design of Code Words for DNA Computers and Nanostructures with Consideration of Hybridization Kinetics. DNA 2007: 119-129 - [c13]Masahiro Takinoue, Daisuke Kiga, Ko-ichiroh Shohda, Akira Suyama:
Design and Numerical Analysis of RNA Oscillator. IWNC 2007: 201-212 - 2006
- [c12]Ken Komiya, Satsuki Yaegashi, Masami Hagiya, Akira Suyama, John A. Rose:
Experimental Validation of the Statistical Thermodynamic Model for Prediction of the Behavior of Autonomous Molecular Computers Based on DNA Hairpin Formation. DNA 2006: 428-438 - 2005
- [c11]Yusuke Ogura, Taro Beppu, Masahiro Takinoue, Akira Suyama, Jun Tanida:
Control of DNA Molecules on a Microscopic Bead Using Optical Techniques for Photonic DNA Memory. DNA 2005: 213-223 - 2004
- [j3]John A. Rose, Akira Suyama:
Physical modeling of biomolecular computers: Models, limitations, and experimental validation. Nat. Comput. 3(4): 411-426 (2004) - [j2]John A. Rose, Russell J. Deaton, Akira Suyama:
Statistical thermodynamic analysis and designof DNA-based computers. Nat. Comput. 3(4): 443-459 (2004) - [c10]Yusuke Ogura, Takashi Kawakami, Fumika Sumiyama, Satoru Irie, Akira Suyama, Jun Tanida:
Methods for Manipulating DNA Molecules in a Micrometer Scale Using Optical Techniques. DNA 2004: 258-267 - 2003
- [j1]John A. Rose, Mitsunori Takano, Masami Hagiya, Akira Suyama:
A DNA Computing-based Genetic Program for In Vitro Protein Evolution via Constrained Pseudomodule Shuffling. Genet. Program. Evolvable Mach. 4(2): 139-152 (2003) - [c9]John A. Rose, Masami Hagiya, Akira Suyama:
The fidelity of the tag-antitag system II: reconciliation with the stringency picture. IEEE Congress on Evolutionary Computation 2003: 2740-2747 - [c8]Yusuke Ogura, Takashi Kawakami, Fumika Sumiyama, Akira Suyama, Jun Tanida:
Parallel Translation of DNA Clusters by VCSEL Array Trapping and Temperature Control with Laser Illumination. DNA 2003: 10-18 - [c7]Nao Nitta, Akira Suyama:
Autonomous Biomolecular Computer Modeled after Retroviral Replication. DNA 2003: 203-207 - 2002
- [c6]John A. Rose, Mitsunori Takano, Akira Suyama:
A PNA-mediated Whiplash PCR-based Program for In Vitro Protein Evolution. DNA 2002: 47-60 - 2001
- [c5]John A. Rose, Russell J. Deaton, Masami Hagiya, Akira Suyama:
PNA-mediated Whiplash PCR. DNA 2001: 104-116 - [c4]John A. Rose, Russell J. Deaton, Masami Hagiya, Akira Suyama:
The Fidelity of the Tag-Antitag System. DNA 2001: 138-149
1990 – 1999
- 1999
- [c3]Hiroshi Yoshida, Akira Suyama:
Solution to 3-SAT by breadth first search. DNA Based Computers 1999: 9-22 - 1997
- [c2]Nobuhiko Morimoto, Masanori Arita, Akira Suyama:
Stepwise Generation of Hamiltonian Path with Molecules. BCEC 1997: 184-192 - [c1]Nobuhiko Morimoto, Masanori Arita, Akira Suyama:
Solid phase DNA solution to the Hamiltonian path problem. DNA Based Computers 1997: 193-206
Coauthor Index
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