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Hideyuki Shimonishi
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2020 – today
- 2024
- [j18]Hideyuki Shimonishi, Daichi Kominami, Yuichi Ohsita, Hiroshi Yoshida, Kousuke Nogami, Dai Kanetomo, Masayuki Murata:
Probabilistic Representation and Its Application of Digital-Twin of Spatio-Temporal Real-World Toward Trustable Cyber-Physical Interactions. IEEE Netw. 38(6): 130-137 (2024) - [c48]Hikaru Katayama, Hideto Yano, Tomoki Yoshihisa, Hideyuki Shimonishi:
A Real-Time Human Tracking System Using Multiple Cameras to Reduce Network Loads. CCNC 2024: 210-213 - [c47]Satoru Matsumoto, Tomoki Yoshihisa, Hideyuki Shimonishi, Tomoya Kawakami, Yuuichi Teranishi:
Implementation and Evaluation of a Facial Image Obscuring Method for Person Identification to Protect Personal Data. CCNC 2024: 214-217 - [c46]Daiki Kodama, Kenji Ohira, Hideyuki Shimonishi, Toshiro Nakahira, Daisuke Murayama, Tomoaki Ogawa:
Enhancing Indoor Millimeter Radio Communication: A Probabilistic Approach to RSS Map Estimation. CCNC 2024: 241-247 - [c45]Yang Lou, Hideyuki Shimonishi, Masayuki Murata, Nattaon Techasarntikul:
Energy Optimization of Distributed Video Processing System in Dynamic Environment. CCNC 2024: 602-603 - [c44]Amato Otsuki, Daichi Kominami, Hideyuki Shimonishi, Masayuki Murata, Tatsuya Otoshi:
Adaptive Network Slicing Control Method for Unpredictable Network Variations Using Quality-Diversity Algorithms. CCNC 2024: 819-822 - [c43]Koichi Owaki, Matsuki Yamamoto, Nattaon Techasarntikul, Yuichi Ohsita, Hideyuki Shimonishi, Kouki Higashioka, Yoshihisa Toshima, Takanori Ogura, Shinji Shimojo:
Proposal of a Scalable Building Operating System Architecture and Data Model Toward Software-Defined Building. COMPSAC 2024: 1586-1591 - [c42]Seishiro Inoue, Masaaki Yamauchi, Daichi Kominami, Hideyuki Shimonishi, Masayuki Murata:
Genetic Algorithm with Gene Regulatory Networks Based Optimization Method for Distributed Video Analysis System. ICIN 2024: 257-264 - [c41]Nattaon Techasarntikul, Hideyuki Shimonishi, Masayuki Murata:
A Simulation of Energy Optimized Distributed Video Processing on 28 GHz Network. ICIN 2024: 265-271 - [c40]Haruhito Ando, Daichi Kominami, Ryoga Seki, Masayuki Murata, Hideyuki Shimonishi:
Multimodal Object Recognition Using Bayesian Attractor Model for 2D and 3D data. ICIN 2024: 272-278 - [c39]Tatsuya Otoshi, Hideyuki Shimonishi, Tetsuya Shimokawa, Masayuki Murata:
Power Efficient Edge-Cloud Cooperation by Value-Sensitive Bayesian Attractor Model. INFOCOM (Workshops) 2024: 1-6 - [c38]Takumi Nagahara, Nattaon Techasarntikul, Yuichi Ohsita, Hideyuki Shimonishi:
Visualization of three-dimensional radio wave conditions for indoor drone teleoperation support. ISMAR-Adjunct 2024: 379-380 - 2023
- [c37]Tatsuya Otoshi, Masayuki Murata, Hideyuki Shimonishi, Tetsuya Shimokawa:
Hierarchical Bayesian Attractor Model for Dynamic Task Allocation in Edge-Cloud Computing. ICNC 2023: 12-18 - [c36]Shusuke Matsuda, Nattaon Techasarntikul, Hideyuki Shimonishi:
Multi-Camera 3D Position Estimation using Conditional Random Field. ICCV (Workshops) 2023: 1900-1908 - [c35]Koichi Owaki, Nattaon Techasarntikul, Hideyuki Shimonishi:
Human Behavior Analysis in Human-Robot Cooperation with AR Glasses. ISMAR 2023: 20-28 - [c34]Hideyuki Shimonishi, Masayuki Murata, Go Hasegawa, Nattaon Techasarntikul:
Energy Optimization of Distributed Video Processing System using Genetic Algorithm with Bayesian Attractor Model. NetSoft 2023: 35-43 - [c33]Tatsuya Otoshi, Masayuki Murata, Hideyuki Shimonishi, Tetsuya Shimokawa:
Distributed Timeslot Allocation in mMTC Network by Magnitude-Sensitive Bayesian Attractor Model. NetSoft 2023: 212-216 - 2022
- [c32]Ryoga Seki, Daichi Kominami, Hideyuki Shimonishi, Masayuki Murata, Masaya Fujiwaka:
Object Estimation Method for Edge Devices Inspired by Multimodal Information Processing in the Brain. CCNC 2022: 945-946 - [c31]Ryoga Seki, Daichi Kominami, Hideyuki Shimonishi, Masayuki Murata, Masaya Fujiwaka:
Multi-Object Recognition Method Inspired by Multimodal Information Processing in the Human Brain. GLOBECOM (Workshops) 2022: 569-574 - [c30]Yuki Fujita, Daichi Kominami, Hideyuki Shimonishi, Masayuki Murata:
Spreading Factor Allocation Method Adaptive to Changing Environments for LoRaWAN Based on Thermodynamical Genetic Algorithm. IWCMC 2022: 796-801 - [c29]Ryoga Seki, Daichi Kominami, Hideyuki Shimonishi, Masayuki Murata, Masaya Fujiwaka:
Realtime Object Recognition Method Inspired by Multimodal Information Processing in the Brain for Distributed Digital Twin Systems. IWCMC 2022: 913-918 - 2021
- [j17]Hideyuki Shimonishi:
Foreword. IEICE Trans. Commun. 104-B(7): 705 (2021) - [j16]Hideyuki Shimonishi:
Foreword. IEICE Trans. Commun. 104-B(12): 1454 (2021) - 2020
- [c28]Daichi Kominami, Yohei Hasegawa, Kosuke Nogami, Hideyuki Shimonishi, Masayuki Murata:
Bayesian-based channel quality estimation method for LoRaWAN with unpredictable interference. GLOBECOM 2020: 1-7 - [e1]Yuming Jiang, Hideyuki Shimonishi, Kenji Leibnitz:
32nd International Teletraffic Congress, ITC 2020, Osaka, Japan, September 22-24, 2020. IEEE 2020, ISBN 978-3-948377-02-1 [contents]
2010 – 2019
- 2019
- [j15]Takuya Kuwahara, Takayuki Kuroda, Manabu Nakanoya, Yutaka Yakuwa, Hideyuki Shimonishi:
Scalable State Space Search with Structural-Bottleneck Heuristics for Declarative IT System Update Automation. IEICE Trans. Commun. 102-B(3): 439-451 (2019) - [c27]Florian Beye, Yusuke Shinohara, Hideyuki Shimonishi:
Towards Accurate and Scalable Performance Prediction for Automated Service Design in NFV. CCNC 2019: 1-7 - [c26]Takayuki Kuroda, Takuya Kuwahara, Takashi Maruyama, Kozo Satoda, Hideyuki Shimonishi, Takao Osaki, Katsushi Matsuda:
Weaver: A Novel Configuration Designer for IT/NW Services in Heterogeneous Environments. GLOBECOM 2019: 1-6 - [c25]Manabu Nakanoya, Yoichi Sato, Hideyuki Shimonishi:
Environment-Adaptive Sizing and Placement of NFV Service Chains with Accelerated Reinforcement Learning. IM 2019: 36-44 - 2018
- [c24]Takuya Kuwahara, Takayuki Kuroda, Manabu Nakanoya, Yutaka Yakuwa, Hideyuki Shimonishi:
Scalable Declarative IT System Update Automation by A* Search with Critical-Element Heuristics. CloudNet 2018: 1-7 - 2017
- [c23]Daichi Kominami, Takanori Iwai, Hideyuki Shimonishi, Masayuki Murata:
A control method for autonomous mobility management systems toward 5G mobile networks. ICC Workshops 2017: 498-503 - [c22]Yuichi Nakamura, Hideyuki Shimonishi, Yuki Kobayashi, Kozo Satoda, Yashuhiro Matsunaga, Dai Kanetomo:
Novel heterogeneous computing platforms and 5G communications for IoT applications. ICCAD 2017: 874-879 - 2016
- [j14]Daisuke Kotani, Kazuya Suzuki, Hideyuki Shimonishi:
A Multicast Tree Management Method Supporting Fast Failure Recovery and Dynamic Group Membership Changes in OpenFlow Networks. J. Inf. Process. 24(2): 395-406 (2016) - [j13]Yusuke Sakumoto, Masaki Aida, Hideyuki Shimonishi:
Adaptive Function to Ensure Robustness of MCMC-based Autonomous Decentralized Control Mechanism against Changing Environment. J. Inf. Process. 24(6): 887-896 (2016) - 2015
- [j12]Yusuke Sakumoto, Masaki Aida, Hideyuki Shimonishi:
Autonomous Decentralized Control for Indirectly Controlling System Performance Variable of Large-Scale and Wide-Area Networks. IEICE Trans. Commun. 98-B(11): 2248-2258 (2015) - 2014
- [j11]Kazuya Suzuki, Kentaro Sonoda, Nobuyuki Tomizawa, Yutaka Yakuwa, Terutaka Uchida, Yuta Higuchi, Toshio Tonouchi, Hideyuki Shimonishi:
A Survey on OpenFlow Technologies. IEICE Trans. Commun. 97-B(2): 375-386 (2014) - [c21]Yusuke Sakumoto, Masaki Aida, Hideyuki Shimonishi:
An autonomous decentralized adaptive function for retaining control strength in large-scale and wide-area system. GLOBECOM 2014: 1923-1929 - 2013
- [c20]Takayuki Sasaki, Yoichi Hatano, Kentaro Sonoda, Yoichiro Morita, Hideyuki Shimonishi, Toshihiko Okamura:
Load distribution of an OpenFlow controller for role-based network access control. APNOMS 2013: 1-6 - [c19]Atsushi Ooka, Shingo Ata, Toshio Koide, Hideyuki Shimonishi, Masayuki Murata:
OpenFlow-based content-centric networking architecture and router implementation. Future Network & Mobile Summit 2013: 1-10 - 2012
- [c18]Daisuke Kotani, Kazuya Suzuki, Hideyuki Shimonishi:
A Design and Implementation of OpenFlow Controller Handling IP Multicast with Fast Tree Switching. SAINT 2012: 60-67 - 2011
- [j10]Yudai Honma, Masaki Aida, Hideyuki Shimonishi, Atsushi Iwata:
A New Multi-Path Routing Methodology Based on Logit-Type Probability Assignment. IEICE Trans. Commun. 94-B(8): 2282-2291 (2011) - [j9]Hideyuki Shimonishi, Shuji Ishii, Lei Sun, Yoshihiko Kanaumi:
Architecture, Implementation, and Experiments of Programmable Network Using OpenFlow. IEICE Trans. Commun. 94-B(10): 2715-2722 (2011) - 2010
- [c17]Yasunobu Chiba, Yusuke Shinohara, Hideyuki Shimonishi:
Source flow: handling millions of flows on flow-based nodes. SIGCOMM 2010: 465-466
2000 – 2009
- 2009
- [c16]Yusuke Shinohara, Hideyuki Shimonishi, Hideki Tode, Koso Murakami:
Programmable and Scalable Per-Flow Traffic Management Scheme Using a Control Server. ICC 2009: 1-5 - [c15]Hideyuki Shimonishi, Hideya Ochiai, Nobuyuki Enomoto, Atsushi Iwata:
Building Hierarchical Switch Network Using OpenFlow. INCoS 2009: 391-394 - 2008
- [j8]Yasuhiro Yamasaki, Hideyuki Shimonishi, Tutomu Murase:
Estimating TCP Packet Loss Ratio from Sampled ACK Packets. IEICE Trans. Commun. 91-B(2): 418-427 (2008) - [c14]Nobuyuki Enomoto, Hideyuki Shimonishi, Junichi Higuchi, Takashi Yoshikawa, Atsushi Iwata:
High-Speed, Short-Latency Multipath Ethernet for Data Center Area Communications. GLOBECOM 2008: 1550-1555 - [c13]Nobuyuki Enomoto, Hideyuki Shimonishi, Junichi Higuchi, Takashi Yoshikawa, Atsushi Iwata:
High-Speed, Short-Latency Multipath Ethernet Transport for Interconnections. Hot Interconnects 2008: 75-84 - [c12]Cesar Augusto Cavalheiro Marcondes, M. Y. Sanadidi, Mario Gerla, Hideyuki Shimonishi:
TCP Adaptive Westwood- Combining TCP Westwood and Adaptive Reno: A Safe Congestion Control Proposal. ICC 2008: 5569-5575 - [c11]Hideyuki Shimonishi, Takashi Yoshikawa, Atsushi Iwata:
Off-the-path flow handling mechanism forhigh-speed and programmable traffic management. PRESTO 2008: 15-20 - 2007
- [j7]Yohei Hasegawa, Ichiro Yamaguchi, Takayuki Hama, Hideyuki Shimonishi, Tutomu Murase:
Deployable multipath communication scheme with sufficient performance data distribution method. Comput. Commun. 30(17): 3285-3292 (2007) - [c10]Hideyuki Shimonishi, Takayuki Hama, Tutomu Murase:
TCP Congestion Control Enhancements for Streaming Media. CCNC 2007: 303-307 - [c9]Yasuhiro Yamasaki, Hideyuki Shimonishi, Tutomu Murase:
Diagnostic Method of Quality Degradation Segment from Sampled Packets. SAINT Workshops 2007: 88 - 2006
- [j6]Ichinoshin Maki, Hideyuki Shimonishi, Tutomu Murase, Masayuki Murata:
Hierarchically Aggregated Fair Queueing (HAFQ) for Per-Flow Fair Bandwidth Allocation. IEICE Trans. Commun. 89-B(2): 427-435 (2006) - [j5]Tutomu Murase, Hideyuki Shimonishi, Masayuki Murata:
Overlay Network Technologies for QoS Control. IEICE Trans. Commun. 89-B(9): 2280-2291 (2006) - [j4]Hideyuki Shimonishi, Takayuki Hama, M. Y. Sanadidi, Mario Gerla, Tutomu Murase:
TCP-Westwood Low-Priority for Overlay QoS Mechanism. IEICE Trans. Commun. 89-B(9): 2414-2423 (2006) - 2005
- [c8]Yohei Hasegawa, Ichiro Yamaguchi, Takayuki Hama, Hideyuki Shimonishi, Tutomu Murase:
Improved data distribution for multipath TCP communication. GLOBECOM 2005: 5 - [c7]Hideyuki Shimonishi, Tutomu Murase:
Improving efficiency-friendliness tradeoffs of TCP congestion control algorithm. GLOBECOM 2005: 5 - [c6]Yasuhiro Yamasaki, Hideyuki Shimonishi, Tutomu Murase:
Statistical estimation of TCP packet loss rate from sampled ACK packets. GLOBECOM 2005: 5 - [c5]Hideyuki Shimonishi, M. Y. Sanadidi, Mario Gerla:
Improving efficiency-friendliness tradeoffs of TCP in wired-wireless combined networks. ICC 2005: 3548-3552 - 2004
- [c4]Hideyuki Shimonishi, M. Y. Sanadidi, Mario Gerla:
Service differentiation at transport layer via TCP Westwood low-priority (TCPW-LP). ISCC 2004: 804-809 - 2003
- [c3]Ichinoshin Maki, Hideyuki Shimonishi, Tutomu Murase, Masayuki Murata, Hideo Miyahara:
Hierarchically aggregated fair queueing (HAFQ) for per-flow fair bandwidth allocation in high speed networks. ICC 2003: 1947-1951 - 2002
- [c2]Hideyuki Shimonishi, Ichinoshin Maki, Tutomu Murase, Masayuki Murata:
Dynamic fair bandwidth allocation for DiffServ classes. ICC 2002: 2348-2352 - 2001
- [j3]Hideyuki Shimonishi, Tutomu Murase:
A network processor architecture for very high speed line interfaces. J. Commun. Networks 3(1): 88-95 (2001)
1990 – 1999
- 1996
- [j2]Hideyuki Shimonishi, Tetsuya Takine, Masayuki Murata, Hideo Miyahara:
Performance Analysis of Fast Reservation Protocols in ATM Networks. Perform. Evaluation 26(4): 263-287 (1996) - [j1]Hideyuki Shimonishi, Tetsuya Takine, Masayuki Murata, Hideo Miyahara:
Performance Analysis of Fast Reservation Protocol in ATM Networks with Arbitrary Topologies. Perform. Evaluation 27/28(4): 41-69 (1996) - [c1]Hideyuki Shimonishi, Tetsuya Takine, Masayuki Murata, Hideo Miyahara:
Performance Analysis of Fast Reservation Protocol with Generalized Bandwidth Reservation Method. INFOCOM 1996: 758-767
Coauthor Index
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