2002 |
23 | EE | Mahmoud Meribout,
Mamoru Nakanishi,
Takeshi Ogura:
A parallel algorithm for real-time object recognition.
Pattern Recognition 35(9): 1917-1931 (2002) |
22 | EE | Mahmoud Meribout,
Mamoru Nakanishi,
Takeshi Ogura:
Accurate and Real-time Image Processing on a New PC-compatible Board.
Real-Time Imaging 8(1): 35-51 (2002) |
21 | EE | Hiroe Iwasaki,
Katsuyuki Ochiai,
Jiro Naganuma,
Makoto Endo,
Takeshi Ogura:
Advanced concurrent design environment for multimedia system LSIs.
Systems and Computers in Japan 33(14): 72-80 (2002) |
2000 |
20 | | Tetsuo Sawaragi,
Takeshi Ogura:
Concept sharing between human and interface agent under time criticality.
Advanced Network Enterprises 2000: 269-278 |
19 | EE | Ken Nakamura,
Mitsuo Ikeda,
Takeshi Yoshitome,
Takeshi Ogura:
Global Rate Control Scheme for MPEG-2 HDTV Parallel Encoding System.
ITCC 2000: 195-200 |
18 | EE | Mahmoud Meribout,
Mamoru Nakanishi,
Eiichi Hosoya,
Takeshi Ogura:
Hough Transform Algorithm for Three-Dimensional Segment Extraction and its Parallel Hardware Implementation.
Computer Vision and Image Understanding 78(2): 177-205 (2000) |
17 | EE | Takeshi Ikenaga,
Takeshi Ogura:
Real-time morphology processing using highly parallel 2-D cellular automata CAM2.
IEEE Transactions on Image Processing 9(12): 2018-2026 (2000) |
16 | EE | Mahmoud Meribout,
Takeshi Ogura,
Mamoru Nakanishi:
On using the CAM concept for parametric curve extraction.
IEEE Transactions on Image Processing 9(12): 2126-2130 (2000) |
15 | EE | Mamoru Nakanishi,
Takeshi Ogura:
Real-time CAM-based Hough transform algorithm and its performance evaluation.
Mach. Vis. Appl. 12(2): 59-68 (2000) |
1999 |
14 | EE | Katsuyuki Ochiai,
Hiroe Iwasaki,
Jiro Naganuma,
Makoto Endo,
Takeshi Ogura:
High-speed Software-based Platform for Embedded Software of a Single-chip MPEG-2 Video Encoder LSI with HDTV Scalabilit.
DATE 1999: 303-308 |
13 | EE | Mitsuo Ikeda,
Toshio Kondo,
Koyo Nitta,
Kazuhito Suguri,
Takeshi Yoshitome,
Toshihiro Minami,
Jiro Naganuma,
Takeshi Ogura:
An MPEG-2 Video Encoder LSI with Scalability for HDTV based on Three-layer Cooperative Architecture.
DATE 1999: 44- |
12 | EE | Hiroe Iwasaki,
Jiro Naganuma,
Makoto Endo,
Takeshi Ogura:
On-Chip Multimedia Real-Time OS and its MPEG-2 Applications.
RTCSA 1999: 200-203 |
11 | EE | Mahmoud Meribout,
Mamoru Nakanishi,
Takeshi Ogura:
A Real-Time Image Segmentation on a Massively Parallel Architecture.
Real-Time Imaging 5(4): 279-291 (1999) |
1998 |
10 | | Eiichi Hosoya,
Mamoru Nakanishi,
Takeshi Ogura:
Real-time 3D Reconstruction System using CAM-based Highly Parallel Processing Board.
Three-Dimensional Image Capture and Applications 1998: 159-167 |
9 | | Takeshi Ikenaga,
Takeshi Ogura:
CAM2: A Highly-Parallel Two-Dimensional Cellular Architecture.
IEEE Trans. Computers 47(7): 788-801 (1998) |
1997 |
8 | EE | Takeshi Ikenaga,
Takeshi Ogura:
Real-Time Morphology Processing Using Highly Parallel 2D Cellular Automata CAM2.
ICIP (2) 1997: 562-565 |
7 | EE | Mamoru Nakanishi,
Takeshi Ogura:
Real-Time Line Extraction Using a Highly Parallel Hough Tranform Board.
ICIP (2) 1997: 582-585 |
1996 |
6 | | Takeshi Ikenaga,
Takeshi Ogura:
CAM²: A Highly-Parallel 2D Cellular Automata Architecture for Real-Time and Palm-Top Pixel-Level Image Processing.
Euro-Par, Vol. II 1996: 203-212 |
5 | EE | Mahmoud Meribout,
Takeshi Ogura,
Mamoru Nakanishi:
Real-time Hough Transform Based Circular Shape Extraction.
MVA 1996: 178-182 |
4 | EE | Eiichi Hosoya,
Takeshi Ogura,
Mamoru Nakanishi:
Real-time 3D Feature Extraction Hardware Algorithm with Feature Point Matching Capability.
MVA 1996: 430-433 |
1994 |
3 | | Jiro Naganuma,
Takeshi Ogura,
Tamio Hoshino:
High-Level Design Validation Using Algorithmic Debugging.
EDAC-ETC-EUROASIC 1994: 474-480 |
2 | | Jiro Naganuma,
Takeshi Ogura:
A Highly OR-Parallel Inference Machine (Multi-ASCA) and Its Performance Evaluation: An Architecture and Its Load Balancing Algorithms.
IEEE Trans. Computers 43(9): 1062-1075 (1994) |
1988 |
1 | | Jiro Naganuma,
Takeshi Ogura,
Shin-Ichiro Yamada,
Takashi Kimura:
High-Speed CAM-Based Architecture for a Prolog Machine (ASCA).
IEEE Trans. Computers 37(11): 1375-1383 (1988) |