IEICE Technical Committee Submission System
Conference Schedule
Online Proceedings
[Sign in]
Tech. Rep. Archives
    [Japanese] / [English] 
( Committee/Place/Topics  ) --Press->
 
( Paper Keywords:  /  Column:Title Auth. Affi. Abst. Keyword ) --Press->

All Technical Committee Conferences  (Searched in: All Years)

Search Results: Conference Papers
 Conference Papers (Available on Advance Programs)  (Sort by: Date Descending)
 Results 1 - 17 of 17  /   
Committee Date Time Place Paper Title / Authors Abstract Paper #
NLP, MSS 2024-03-14
13:35
Misc. Kikai-Shinko-Kaikan Bldg. Fixed-Rate-Taxation-based Stabilization of Nonequilibrium Target State in Replicator Dynamics
Takafumi Kanazawa (Setsunan Univ.) MSS2023-92 NLP2023-144
In the population that consists of many agents interacting among each other, selfish behavior of each agent may leads t... [more] MSS2023-92 NLP2023-144
pp.103-106
MSS, CAS, SIP, VLD 2023-07-07
10:50
Hokkaido
(Primary: On-site, Secondary: Online)
Population-Game-Based Distributed Allocation Method of Dynamic Coverage and Target Tracking Tasks for Mobile Sensor Networks
Takafumi Kanazawa (Setsunan Univ.) CAS2023-19 VLD2023-19 SIP2023-35 MSS2023-19
This paper focuses on mobile sensor networks with a large number of heterogeneous mobile sensor nodes. Dynamic area cove... [more] CAS2023-19 VLD2023-19 SIP2023-35 MSS2023-19
pp.93-96
MSS, NLP 2022-03-29
16:10
Online Online On an Integrator-based Toll Design for Selfish Routing with Departure Time Selection
Takafumi Kanazawa, Ryuichiro Shihara (Setsunan Univ.) MSS2021-81 NLP2021-152
Selfish routing is a model of agents who select their traveling paths selfishly in order to minimize their latencies. Th... [more] MSS2021-81 NLP2021-152
pp.139-142
MSS, CAS, IPSJ-AL [detail] 2020-11-26
15:00
Online Online Globally Optimal Task Allocation to Multiple Types of Agents with Reduction of Selectable Tasks
Hiroki Watanabe (Osaka Univ.), Takafumi Kanazawa (Setsunan Univ.) CAS2020-33 MSS2020-25
In allocation problems of a variety of tasks to multiple types of agents with different abilities, the efficiency of an ... [more] CAS2020-33 MSS2020-25
pp.79-84
SS, MSS 2020-01-14
15:00
Hiroshima   Smith Dynamics-Based Task Allocation Considering Differences of Abilities among Agents
Hiroki Watanabe, Takafumi Kanazawa (Osaka Univ.) MSS2019-45 SS2019-29
In task allocation problems, efficiency of an allocation is strongly dependent on relationship between properties of tas... [more] MSS2019-45 SS2019-29
pp.25-30
CAS, MSS, IPSJ-AL [detail] 2019-11-28
10:25
Fukuoka   A Population Game Model of Customers' Behaviors based on Review Score Ranking
Daiki Kuromi, Takafumi Kanazawa (Osaka Univ.) CAS2019-45 MSS2019-24
In recent years, the online shopping has become common.In many review sites, customers can refer to an average rating ra... [more] CAS2019-45 MSS2019-24
pp.7-10
CAS, MSS, IPSJ-AL [detail] 2019-11-29
14:15
Fukuoka   Edge Taxation Method for Selfish Routing in Elastic Demand Networks
Yoshiki Matsui, Takafumi Kanazawa (Osaka univ.) CAS2019-61 MSS2019-40
A selfish routing is a model of selfish players in networks. Each player tries to select a path that minimizes his/her t... [more] CAS2019-61 MSS2019-40
pp.121-124
MSS, CAS, SIP, VLD 2019-07-30
13:00
Iwate Iwate Univ. Subsidy Allocation Methods for Realizing Target Strategy Distribution in Population-Independent Imitative Dynamics
Kou Kajiyama, Takafumi Kanazawa (Osaka Univ.) CAS2019-5 VLD2019-11 SIP2019-21 MSS2019-5
We propose two subsidy allocation methods to realize a target strategy distribution in a society for population games.In... [more] CAS2019-5 VLD2019-11 SIP2019-21 MSS2019-5
pp.21-26
NLP, MSS
(Joint)
2019-03-14
14:45
Fukui Bunkyo Camp., Univ. of Fukui Population Game Model of Customers with Erroneous Perceptions of Values on Reviews
Daiki Kuromi, Takafumi Kanazawa (Osaka Univ.) MSS2018-86
In recent years, the online shopping has become common.
On the review site, consumers can estimate values of the contri... [more]
MSS2018-86
pp.29-34
CAS, SIP, MSS, VLD 2018-06-15
10:25
Hokkaido Hokkaido Univ. (Frontier Research in Applied Sciences Build.) Edge Taxation Method of Selfish Routing Games Based on Network Structure
Yoshiiki Matsui, Takafumi Kanazawa (Osaka Univ.) CAS2018-22 VLD2018-25 SIP2018-42 MSS2018-22
A selfish routing is a model of selfish players in networks. Each player tries to select a path that minimizes his trave... [more] CAS2018-22 VLD2018-25 SIP2018-42 MSS2018-22
pp.115-118
CAS, SIP, MSS, VLD 2018-06-15
10:45
Hokkaido Hokkaido Univ. (Frontier Research in Applied Sciences Build.) Analysis of Stealth Marketing based on Imitative Dynamics with Reference to Another Customer's Evaluation on Current Action
Daiki Kuromi, Takafumi Kanazawa (Osaka Univ.) CAS2018-23 VLD2018-26 SIP2018-43 MSS2018-23
In recent years, the online shopping has become common.
Since there is no common standard in the evaluation on the revi... [more]
CAS2018-23 VLD2018-26 SIP2018-43 MSS2018-23
pp.119-124
MSS, NLP
(Joint)
2018-03-14
09:15
Osaka   Subsidy Based PI Controller for Multipopulation Replicator Dynamics under the Existence of Unobservable Populations
Ryo Kadoya, Takafumi Kanazawa (Osaka Univ.) MSS2017-88
Many social systems consist of many selfish players. Each player may not have the same senses of values. Therefore, ther... [more] MSS2017-88
pp.57-60
SIP, CAS, MSS, VLD 2017-06-20
10:30
Niigata Niigata University, Ikarashi Campus On Customer Review-based Imitative Dynamics and Effects of Stealth Marketing
Sho Hattori, Takafumi Kanazawa (Osaka Univ.) CAS2017-15 VLD2017-18 SIP2017-39 MSS2017-15
In this paper, we model consumers' behaviors based on customer review on the Web as a population game.
The review-based... [more]
CAS2017-15 VLD2017-18 SIP2017-39 MSS2017-15
pp.75-80
MSS, SS 2017-01-27
09:30
Kyoto Kyoto Institute of Technology Subsidy Based Implementation of PI Controller for Multipopulation Replicator Dynamics
Ryo Kadoya, Takafumi Kanazawa (Osaka Univ.) MSS2016-68 SS2016-47
In social systems, each player is considered to make a decision selfishly, and desirable states are not always realized.... [more] MSS2016-68 SS2016-47
pp.65-69
MSS, CAS, IPSJ-AL [detail] 2016-11-25
14:10
Hyogo Kobe Institute of Computing Subsidy-based Stabilization of Nonequilibrium Target State in Population Games with Unknown Payoff Functions
Masaya Kinoshita, Takafumi Kanazawa (Osaka Univ.) CAS2016-76 MSS2016-56
In populations that consist of many selfish players, a desirable state for populations may not be realized.In order to r... [more] CAS2016-76 MSS2016-56
pp.113-116
MSS, CAS, SIP, VLD 2015-06-18
09:20
Hokkaido Otaru University of Commerce Stabilization of Nonequilibrium Target State in Population Games Using Capitation Tax and Subsidy
Masaya Kinoshita, Takafumi Kanazawa (Osaka Univ.) CAS2015-13 VLD2015-20 SIP2015-44 MSS2015-13
In a large population which consists of many selfish players, their selfish strategy selection may lead an undesirable p... [more] CAS2015-13 VLD2015-20 SIP2015-44 MSS2015-13
pp.67-70
MSS, CAS, SIP, VLD 2015-06-18
09:45
Hokkaido Otaru University of Commerce Multipopulation Game Dynamics Generated by Population-Independent Pairwise Proportional Imitation
Manao Machida, Takafumi Kanazawa (Osaka Univ.) CAS2015-14 VLD2015-21 SIP2015-45 MSS2015-14
Multipopulation games model conflicts among many players who have various roles. The imitative protocol describes when a... [more] CAS2015-14 VLD2015-21 SIP2015-45 MSS2015-14
pp.71-76
 Results 1 - 17 of 17  /   
Choose a download format for default settings. [NEW !!]
Text format pLaTeX format CSV format BibTeX format
Copyright and reproduction : All rights are reserved and no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopy, recording, or any information storage and retrieval system, without permission in writing from the publisher. Notwithstanding, instructors are permitted to photocopy isolated articles for noncommercial classroom use without fee. (License No.: 10GA0019/12GB0052/13GB0056/17GB0034/18GB0034)


[Return to Top Page]

[Return to IEICE Web Page]


The Institute of Electronics, Information and Communication Engineers (IEICE), Japan