Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
VLD, DC, CPSY, RECONF, CPM, ICD, IE, IPSJ-SLDM, IPSJ-EMB, IPSJ-ARC (Joint) [detail] |
2017-11-07 09:00 |
Kumamoto |
Kumamoto-Kenminkouryukan Parea |
Novel Implementation of FFT for Mixed Grained Reconfigurable Architecture Using Via-switch Tetsuaki Fujimoto (Ritsumeikan Univ.), Wataru Takahashi, Kazutoshi Wakabayashi (NEC), Takashi Imagawa, Hiroyuki Ochi (Ritsumeikan Univ.) VLD2017-38 DC2017-44 |
This report proposes an optimal implementation of FFT circuit for mixed grained reconfigurable architecture using via-sw... [more] |
VLD2017-38 DC2017-44 pp.67-72 |
SCE |
2017-08-09 14:35 |
Aichi |
Nagoya Univ. (Higashiyama Campus) |
Design of Component Circuits for Rapid Single-Flux-Quantum Gate-Level-Pipelined Microprocessors Yuki Hatanaka, Yuichi Matsui, Masamitsu Tanaka, Kyosuke Sano, Akira Fujimaki (Nagoya Univ.), Koki Ishida, Takatsugu Ono, Koji Inoue (Kyushu Univ.) SCE2017-17 |
We have started development of high-throughput rapid single-flux-quantum (RSFQ) microprocessors with the aim of higher p... [more] |
SCE2017-17 pp.37-42 |
SDM, ICD, ITE-IST [detail] |
2017-08-02 14:10 |
Hokkaido |
Hokkaido-Univ. Multimedia Education Bldg. |
A Quadrature-modulation EPWM Transmitter with Parallel-Output MASH Delta-Sigma Modulator Takumi Yamamoto, Yohtaro Umeda (Tokyo Univ. of Science), Yusuke Kozawa (Ibaraki Univ.) SDM2017-48 ICD2017-36 |
In this paper, Multi StAge Noise Shaping (MASH) architecture is employed to realize high noise reduction capability by n... [more] |
SDM2017-48 ICD2017-36 pp.123-128 |
CPSY, DC, IPSJ-ARC (Joint) [detail] |
2017-07-26 14:00 |
Akita |
Akita Atorion-Building (Akita) |
A Study on Implementation Method of Byzantine Fault Tolerant Systems Takeru Nanao, Yudai Ishikawa, Masashi Imai (Hirosaki Univ.) DC2017-17 |
A fault tolerant system does not cause a failure even if a fault occurs. The algorithm OM has been proposed as a basic B... [more] |
DC2017-17 pp.7-12 |
SIS |
2017-03-03 10:10 |
Kanagawa |
Kanagawa Inst. Tech. Yokohama Office |
Acceleration of Dehazing Processing Based on Min-Max Bilateral Filter on an Embedded System Ayaka Yasuda (NIT, Tokuyama Col.), Shota Furukawa, Noriaki Suetake (Yamaguchi Univ.), Takanori Koga (NIT, Tokuyama Col.) SIS2016-56 |
Currently, researches on dehazing processing to remove haze such as fog included in images have been actively conducted.... [more] |
SIS2016-56 pp.83-86 |
SP, SIP, EA |
2017-03-01 12:40 |
Okinawa |
Okinawa Industry Support Center |
[Poster Presentation]
GPU Implementation of Blur-Based Object Detection Using Spatial Domain Filtering Shuhei Aoki, Shingo Kobayashi, Ryusuke Miyamoto (Meiji Univ.) EA2016-99 SIP2016-154 SP2016-94 |
We proposed a novel object detection scheme based on image blur evaluated
by Haar-like Features and DFT.
The scheme sh... [more] |
EA2016-99 SIP2016-154 SP2016-94 pp.99-102 |
AI |
2017-02-27 16:00 |
Kyoto |
Kyoto Univ. |
Parallel Execution of Actions in IoT Complex Event Processing Masayuki Otani, Toru Ishida, Takao Nakaguchi, Yohei Murakami (Kyoto Univ.) AI2016-39 |
Complex event processing (CEP) has been attracting much attention as a method for analyzing streaming data in the IoT en... [more] |
AI2016-39 pp.25-30 |
MI |
2017-01-18 14:15 |
Okinawa |
Tenbusu Naha |
Basic study for pose estimation of patella from single-plane X-ray image using intensity-based 2D/3D registration Yuichi Hayashi, Takaharu Yamazaki (SIT), Tetsuya Tomita (Osaka Univ), Kenichi Kono (Tokyo Univ), Yoshinobu Sato (NAIST), Kazuomi Sugamoto (Osaka Univ) MI2016-90 |
This study presents a method to determine 3D kinematics of patella using single-plane fluoroscopy. 3D pose of patella is... [more] |
MI2016-90 pp.71-76 |
MI |
2017-01-18 14:15 |
Okinawa |
Tenbusu Naha |
GPU Programming for MIST Library Hirohisa Oda, Masahiro Oda (Nagoya Univ.), Takayuki Kitasaka (Aichi. Inst. Tech.), Kensaku Mori (Nagoya Univ.) MI2016-106 |
In recent years, there is a trend toward the development of high-speed computation techniques due to the improvement in ... [more] |
MI2016-106 pp.133-136 |
EE, WPT (Joint) |
2016-10-07 15:15 |
Kyoto |
|
Design of Series- Parallel Combined Resonant Circuit with Rotary Transformer used for Ultrasonic Spindle Drive Myoungsik Nam, Jun Imaoka, Masahito Shoyama (Kyushu Univ.), Hideaki Fujita (Orii&Mec Co.,) EE2016-28 |
The ultrasonic spindle is one of the processing equipment which is attached a ultrasonic transducer to a rotation axis, ... [more] |
EE2016-28 pp.55-60 |
CCS |
2016-08-10 12:30 |
Hokkaido |
Yoichi Chuo kominkan |
[Invited Lecture]
Topology-based Approach for Network Sensing and its Applications Kazuki Nakada (Hiroshima City Univ.), Keiji Miura (Kwansei Gakuin Univ.) CCS2016-25 |
In this presentation, we review a topology-based approach for network sensing and its applications. We here explain rece... [more] |
CCS2016-25 pp.47-52 |
NLP |
2016-07-22 10:00 |
Hokkaido |
Hokkaido Univ. Centennial Hall |
An Artificial Bee Colony Algorithm Suited for Parallel Distributed Processing Yu Isono, Tomoyuki Sasaki, Hidehiro Nakano, Arata Miyauchi (Tokyo City Univ.) NLP2016-40 |
As approximate solutions in large-scale problems are obtained by evolutionary computation algorithms, many search indivi... [more] |
NLP2016-40 pp.33-38 |
DC |
2016-06-20 15:40 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Partially Parallel Time Domain Reed Solomon Decoder Kentaro Kato (NIT, Tsuruoka College), Somsak Choomchuay (KMITL) DC2016-15 |
This paper proposes a partially parallel time domain reed solomon decoder to reduce the decoding
time. The proposed dec... [more] |
DC2016-15 pp.31-36 |
RECONF |
2016-05-20 11:40 |
Kanagawa |
FUJITSU LAB. |
Evaluation of an OpenCL-Based FPGA Platform for Particle Filter Masanori Hariyama, Shunsuke Tatsumi (Tohoku Univ.), Norikazu Ikoma (Nippon Institute of Technology) RECONF2016-22 |
Particle filter is one promising method to estimate the internal states in dynamical systems,
and can be used for vari... [more] |
RECONF2016-22 pp.109-113 |
CS, CQ, NV (Joint) |
2016-04-21 10:45 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Parallel Implementation of Cipher on CPU/GPU for Programmable Optical Access Equipment Takahiro Suzuki, Sang-Yuep Kim, Jun-ichi Kani, Ken-Ichi Suzuki, Akihiro Otaka (NTT) CS2016-1 |
Recently, NFV and SDN are attracting attention with the goal being enhanced networks efficiency. In access network, soft... [more] |
CS2016-1 pp.1-6 |
IE, IMQ, MVE, CQ (Joint) [detail] |
2016-03-08 09:15 |
Okinawa |
|
Dynamically Assigned Distributed Processing System with SDN Switches Masahiko Kitamura, Hiroyuki Kimiyama, Tomoko Sawabe, Tatsuya Fujii (NTT), Kazunari Kojima, Mitsuru Maruyama (KAIT) CQ2015-134 |
The cloud services that enable us to use computing and networking resources on our demand drive many workflows into dist... [more] |
CQ2015-134 pp.147-151 |
SS, MSS |
2016-01-26 13:20 |
Ishikawa |
Shiinoki-Geihin-Kan |
Implementation of Parallel Distributed Graph Clustering Algorithm on Apache Spark with Node Partition and Aggregation in Large-Scale Graphs Riku Asayama, Kohei Sakurai, Satoshi Yamane (Kanazawa Univ.) MSS2015-60 SS2015-69 |
In this paper, we propose the rapid clustering method with the large-scaled graph structured data. Our approach is a dat... [more] |
MSS2015-60 SS2015-69 pp.141-146 |
SIS |
2015-12-03 17:00 |
Fukui |
Matsuya-sensen (Awara city, Fukui) |
Processing Time Reduction of Iterative Shrinkage Smoothing Using Parallel Processing Seijiro Imai, Dabwitso Kasauka, Takashi Imagawa, Hiroshi Tsutsui (Hokkaido Univ.), Hiroyuki Okuhata (Synthesis Co.), Yoshikazu Miyanaga (Hokkaido Univ.) SIS2015-39 |
Iterative shrinkage smoothing algorithm can perform image smoothing with
eliminating fine details and preserving princi... [more] |
SIS2015-39 pp.57-60 |
R |
2015-10-16 11:00 |
Fukuoka |
|
Irregularity Countermeasures in Massively Parallel BigData Processors Marat Zhanikeev (Kyutech) R2015-53 |
The term Massively Parallel BigData Processor names a recent advance in bigdata processing technology which has advanced... [more] |
R2015-53 pp.7-14 |
SC |
2015-10-02 13:05 |
Tokyo |
NII |
[Invited Talk]
Policy-Aware Service Composition Mai Xuan Trang, Yohei Murakami, Toru Ishida (Kyoto Univ.) |
Parallel execution and cloud technologies are the keys to speed-up service invocation when processing large-scale data. ... [more] |
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