Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
COMP, IPSJ-AL |
2023-09-07 10:00 |
Osaka |
Osaka Metropolitan Univ. (Osaka, Online) (Primary: On-site, Secondary: Online) |
On a self-stabilizing distributed algorithm for st-edge-ordering problems using ear decomposition Yoshiaki Katayama, Jin Higa, Yonghwan Kim (NITech) COMP2023-9 |
In this report, a self-stabilizing distributed algorithm for solving st-edge-ordering problems on any 2-edge-connected g... [more] |
COMP2023-9 pp.6-13 |
R |
2023-03-10 17:15 |
Hiroshima |
(Hiroshima, Online) (Primary: On-site, Secondary: Online) |
[Invited Talk]
A Note on Generalized Ordering Policy Naoto Kaio (Hiroshima Shudo Univ) R2022-57 |
In this paper, we discuss the generalized ordering policy, in which when an ordered spare is delivered after a randomize... [more] |
R2022-57 pp.53-57 |
AI |
2022-07-04 16:00 |
Hokkaido |
(Hokkaido, Online) (Primary: On-site, Secondary: Online) |
Unsupervised Learning of a Dynamic Task Ordering Model for Crowdsourcing Ryo Yanagisawa (Waseda Univ.), Susumu Saito, Teppei Nakano (ifLab Inc.), Tetsunori Kobayashi, Tetsuji Ogawa (Waseda Univ.) AI2022-14 |
An unsupervised learning method for a dynamic task ordering model that optimizes the number of orders according to the d... [more] |
AI2022-14 pp.72-76 |
R |
2022-05-28 14:50 |
Online |
Online (Online) |
A Note on Ordering Policies Taking Account of Free Warranty Period Naoto Kaio (Hiroshima Shudo Univ.) R2022-5 |
In this paper, we discuss the extended ordering model taking account of free warranty period. We adopt the expected cos... [more] |
R2022-5 pp.21-25 |
NS |
2021-05-13 15:15 |
Online |
Online (Online) |
Graph Reordering while Acquiring Graph Data Managed Distributedly by Random Walk Kohei Tsuchida, Kunitake Kaneko (Keio Univ.) NS2021-20 |
It is known that cache misses occur so many times, which leads to slow down the calculation speed while graph processing... [more] |
NS2021-20 pp.32-37 |
QIT (2nd) |
2020-12-10 17:10 |
Online |
Online (Online) |
Quantum Algorithm for Finding the Optimal Variable Ordering for Binary Decision Diagrams Seiichiro Tani (NTT) |
An ordered binary decision diagram (OBDD) is a directed acyclic graph that represents a Boolean function.
Since OBDDs h... [more] |
|
VLD, DC, RECONF, ICD, IPSJ-SLDM (Joint) [detail] |
2020-11-17 14:25 |
Online |
Online (Online) |
Variable Ordering for Minimizing Power Consumption of BDD-based Optical Logic Circuits Ryosuke Matsuo, Shin-ichi Minato (Kyoto Univ) VLD2020-24 ICD2020-44 DC2020-44 RECONF2020-43 |
Optical logic circuits based on integrated nanophotonics have attracted significant interest due to their ultra-high-spe... [more] |
VLD2020-24 ICD2020-44 DC2020-44 RECONF2020-43 pp.78-83 |
COMP |
2019-12-13 14:10 |
Gunma |
Ikaho Seminar House, Gunma University (Gunma) |
Computational Complexity of Relaxed Optimal Rule Ordering Takashi Harada (Kochi Univ. of Tech.), Ken Tanaka (Kanagawa Univ.), Kenji Mikawa (Niigata Univ.) COMP2019-36 |
The packet classification aims to determine the behavior of the incoming packets of network devices. The linear search c... [more] |
COMP2019-36 pp.47-54 |
COMP |
2019-10-25 14:40 |
Hokkaido |
Sapporo Campus, Hokkaido University (Hokkaido) |
A Rule Reordering Method via Deleting 0 Weights Rules Takashi Fuchino (Kanagawa Univ.), Takashi Harada (Kochi Univ. of Tech.), Tanaka Ken (Kanagawa Univ.), Kenji Mikawa (Niigata Univ.) COMP2019-24 |
Packet classification is to determine the behaviors of packets incoming to network devices. Since it is achieved using l... [more] |
COMP2019-24 pp.47-52 |
OCS, PN, NS (Joint) |
2019-06-21 11:20 |
Iwate |
MALIOS(Morioka) (Iwate) |
Datapath Parallelization for Improving the I/O Performance on NFV Nodes Masahiro Asada, Ryota Kawashima (NITech), Hiroki Nakayama, Tsunemasa Hayashi (BOSCO), Hiroshi Matsuo (NITech) NS2019-37 |
NFV-nodes with DPDK (Data Plane Development Kit) based on Commercial off-the-shelf servers cannot handle incoming traffi... [more] |
NS2019-37 pp.11-16 |
ASN, NS, RCS, SR, RCC (Joint) |
2018-07-13 16:40 |
Hokkaido |
Hakodate Arena (Hokkaido) |
A Study on Application Effect of Delay Spread Estimation Method based on Level Crossing Rate to Ordering Cost Reduction Method in MU-MIMO-OFDM THP Yukiko Shimbo, Hirofumi Suganuma, Fumiaki Maehara (Waseda Univ.) RCS2018-129 |
Broadband mobile wireless systems suffer from frequency selective fading due to multipath, which motivates us to
establ... [more] |
RCS2018-129 pp.249-254 |
MRIS, ITE-MMS |
2018-07-06 13:50 |
Tokyo |
Waseda Univ. (Tokyo) |
Structural Control of Electrodeposited FePtCu for Enhancing L10 Ordering Yuya Tsutsumi, Mana Kambe (Waseda Univ.), Giovanni Zangari (UVA), Takayuki Homma (Waseda Univ.) MRIS2018-13 |
We have developed fabrication process of ferromagnetic nanodot arrays for bit patterned media (BPM) by using lithography... [more] |
MRIS2018-13 pp.13-17 |
CAS, SIP, MSS, VLD |
2018-06-15 09:00 |
Hokkaido |
Hokkaido Univ. (Frontier Research in Applied Sciences Build.) (Hokkaido) |
Packet Filter Reconstruction by rules encapsulation Takashi Harada, Ken Tanaka (Kanagawa Univ.), Kenji Mikawa (Niigata Univ.) CAS2018-18 VLD2018-21 SIP2018-38 MSS2018-18 |
Packet filtering is achieved by linear search of the rule list denoting a filtering policy. The increase in the number o... [more] |
CAS2018-18 VLD2018-21 SIP2018-38 MSS2018-18 pp.93-98 |
IN, RCS, NV (Joint) |
2018-05-11 10:05 |
Kanagawa |
Keio University (Kanagawa) |
A Study on Theoretical System Capacity Performance of MU-MIMO THP in the Presence of Terminal Mobility Hirofumi Suganuma, Yukiko Shimbo, Nobuhiro Hiruma (Waseda Univ.), Hiromichi Tomeba, Takashi Onodera (Sharp), Fumiaki Maehara (Waseda Univ.) RCS2018-32 |
MU-MIMO Tomlinson-Harashima precoding (THP) achieves higher system capacity than MU-MIMO linear precoding (LP) thanks to... [more] |
RCS2018-32 pp.59-64 |
COMP |
2018-03-05 14:50 |
Osaka |
Osaka Prefecture Univ. (Osaka) |
A recognition algorithm for simple-triangle graphs Asahi Takaoka (Kanagawa Univ.) COMP2017-50 |
A simple-triangle graph is the intersection graph of triangles that are defined by a point on a horizontal line and an i... [more] |
COMP2017-50 pp.27-34 |
CQ (2nd) |
2017-10-16 16:15 |
Fukuoka |
Nishijin Plaza, Kyushu Univ. (Fukuoka) |
[Poster Presentation]
Theoretical Analysis of System Capacity in MU-MIMO THP with Ordering
-- Effect of Modulo Loss on System Capacity -- Hirofumi Suganuma, Nobuhiro Hiruma, Fumiaki Maehara (Waseda Univ.) |
MU-MIMO Tomlinson-Harashima precoding (THP) realizes non-linear precoding by the simple modulo operation, which makes it... [more] |
|
RCS, SAT (Joint) |
2017-08-17 11:15 |
Niigata |
Niigata Univ. (Niigata) |
Theoretical Analysis of System Capacity Performance in MU-MIMO THP Hirofumi Suganuma, Hiruma Nobuhiro (Waseda Univ.), Hiromichi Tomeba, Takashi Onodera (Sharp), Fumiaki Maehara (Waseda Univ.) RCS2017-148 |
MU-MIMO Tomlinson-Harashima precoding (THP) achieves higher system capacity comparing with MU-MIMO linear precoding (LP)... [more] |
RCS2017-148 pp.31-35 |
MRIS, ITE-MMS |
2017-07-07 13:00 |
Tokyo |
Tokyo Tech (Tokyo) |
Enhancement of L10 Ordering and Structural Analysis of Electrodeposited FePt Nanodot Arrays Mana Kambe, Siggi Wodarz, Shogo Hashimoto (Waseda Univ.), Giovanni Zangari (UVA), Takayuki Homma (Waseda Univ.) MR2017-11 |
We have developed fabrication process of ferromagnetic nanodot arrays for bit patterned media (BPM) by using lithography... [more] |
MR2017-11 pp.1-5 |
IA, SITE, IPSJ-IOT [detail] |
2017-03-03 13:00 |
Okinawa |
Culture Resort Festone (Okinawa) (Okinawa) |
Performance Evaluation of TCP variants with Packet Reordering Yutaka Fukuda, Daiki Nobayashi, Takeshi Ikenaga (KIT) SITE2016-60 IA2016-90 |
The packet reordering in the short fixed period is considered in this paper. We believe that the data will be transmitte... [more] |
SITE2016-60 IA2016-90 pp.1-6 |
MRIS, ITE-MMS |
2016-07-08 13:00 |
Tokyo |
Chuo Univ. (Tokyo) |
The Study on Electrodeposited FePt Nanodot Array with Multilayer Structure for Low L10-ordering Temperature Manabu Saito, Siggi Wodarz, Shogo Hashimoto (Waseda Univ.), Giovanni Zangari (Univ. of Virginia), Takayuki Homma (Waseda Univ.) MR2016-13 |
We have been developing the fabrication process of ferromagnetic nanodot arrays for bit patterned media (BPM) by using e... [more] |
MR2016-13 pp.1-5 |