Takanami Itsuo | Faculty Of Engineering Iwate University
スポンサーリンク
概要
関連著者
-
Takanami Itsuo
Faculty Of Engineering Iwate University
-
Inoue Katsushi
Faculty Of Engineering Yamaguchi University
-
Takanami Itsuo
Faculty of Engineering, Yamaguchi University
-
Inoue K
The Department Of Computer Science And Systems Engineering Faculty Of Engineering Yamaguchi Universi
-
Inoue Katsushi
Department Of Electronics Engineering
-
Takanami I
Faculty Of Engineering Yamaguchi University
-
HORITA Tadayoshi
Faculty of Engineering, Iwate University
-
Horita Tadayoshi
Faculty Of Engineering Iwate University
-
Wang Y
Media And Information Technology Center Yamaguchi University
-
Wang Yue
Faculty Of Engineering Yamaguchi University
-
Matsuno Hiroshi
Oshima National College Of Maritime Technology
-
Inoue K
Faculty Of Engineering Yamaguchi University
-
TAKANAMI Itsuo
Faculty of Engineering, Iwate University
-
YOSHINAGA Tsunehiro
Department of Computer Science and Electrics Engineering, Tokuyama College of Technology
-
Takanami Itsuo
Faculty Of Engineering Yamaguchi University
-
Yoshinaga Tsunehiro
Department Of Computer Science And Electrics Engineering
-
Sakamoto Makoto
Oshima National College of Maritime Technology
-
NAKAMURA Satoru
ICS (Iwate Computer System) Co.
-
Sakamoto M
Yamaguchi Univ. Yamaguchi Jpn
-
Horita T
Polytechnic Univ. Sagamihara‐shi Jpn
著作論文
- Leaf-Size Bounded Real-Time Synchronized Alternating One-Way Multicounter Machines
- Closure properties of alternating one-way multihead finite automata with constant leaf-sizes
- Multihead Finite Automata with Markers (Special Section on Discrete Mathematics and Its Applications)
- A Note on One-Way Multicounter Machines and Cooperating Systems of One-Way Finite Automata
- Some Hierarchy Results on Multihead Automata over a One-Letter Alphabet
- Hierarchical Properties of Realtime One-Way Alternating Multi-Stack-Counter Automata (Special Section on Discrete Mathematics and Its Applications)
- Three-Dimensionally Fully Space Constructible Functions
- Self-Reconstruction of 3D Mesh Arrays with 11/2-Track Switches by Digital Neural Circuits (Special Issue on Integrated Electronics and New System Paradigms)
- A Built-in Self-Reconfigurable Scheme for 3D Mesh Arrays
- An Efficient Method for Reconfiguring the 11/2 Track-Switch Mesh Array
- A Built-In Self-Reconstruction Approach for Partitioned Mesh-Arrays Using Neural Algorithm (Special Issue on Architectures, Algorithms and Networks for Massively parallel Computing)