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ORCIDJunji Takemasa
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2020 – today
- 2024
[j11]Yutaro Yoshinaka
, Mio Kochiyama, Yuki Koizumi, Junji Takemasa, Toru Hasegawa:
A lightweight anonymity protocol at terabit speeds on programmable switches. Comput. Networks 253: 110721 (2024)- [c22]Takumi Suimon, Yuki Koizumi, Junji Takemasa, Toru Hasegawa:
A Data Reconstruction Attack Against Vertical Federated Learning Based on Knowledge Transfer. INFOCOM (Workshops) 2024: 1-6 - [c21]Shu Ichinoseki, Yuki Koizumi, Junji Takemasa, Toru Hasegawa:
Analysis on a Performance and Fairness Tradeoff in Entanglement Routing for Quantum Networks. NOMS 2024: 1-5 - 2023
- [j10]Hiroki Masuda, Kentaro Kita, Yuki Koizumi, Junji Takemasa, Toru Hasegawa:
Byzantine-Resilient Secure Federated Learning on Low-Bandwidth Networks. IEEE Access 11: 51754-51766 (2023) - [j9]Yutaro Yoshinaka, Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
Design and analysis of lightweight anonymity protocol for host- and AS-level anonymity. Comput. Networks 222: 109559 (2023) - [j8]Yutaro Yoshinaka, Kentaro Kita, Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
Programmable Name Obfuscation Framework for Controlling Privacy and Performance on CCN. IEEE Trans. Netw. Serv. Manag. 20(3): 2460-2474 (2023) - [c20]Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
A P4-based NDN Tester for Evaluating Forwarder Performance under Non-Uniform Request Patterns. ICN 2023: 19-25 - [c19]Kentaro Kita, Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
Secure Middlebox Channel over TLS and its Resiliency against Middlebox Compromise. INFOCOM 2023: 1-10 - 2022
- [c18]Ryo Nakasuji, Yuki Koizumi, Junji Takemasa, Toru Hasegawa:
On cache-aware dynamic adaptive streaming over information-centric networking. ICN 2022: 186-188 - [c17]Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
Terabytes and Terabits/s Packet Caching in ICN Routers using Programmable Switches. CloudNet 2022: 67-72 - [c16]Yutaro Yoshinaka, Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
On implementing ChaCha on a programmable switch. EuroP4@CoNEXT 2022: 15-18 - [c15]Yutaro Yoshinaka, Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
Feasibility of Network-layer Anonymity Protocols at Terabit Speeds using a Programmable Switch. NetSoft 2022: 292-296 - [c14]Yutaro Yoshinaka, Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
gPHI: Lightweight Anonymity Protocol for Anonymity at Host and AS Levels. IFIP Networking 2022: 1-9 - 2021
- [j7]Shunsuke Higuchi, Junji Takemasa, Yuki Koizumi, Atsushi Tagami, Toru Hasegawa:
Feasibility of Longest Prefix Matching using Learned Index Structures. SIGMETRICS Perform. Evaluation Rev. 48(4): 45-48 (2021) - [c13]Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
Vision: toward 10 Tbps NDN forwarding with billion prefixes by programmable switches. ICN 2021: 13-19 - [c12]Junji Takemasa, Ryoma Yamada, Yuki Koizumi, Toru Hasegawa:
ccnGen: a high-speed generator of bidirectional CCN traffic using a programmable switch. ICN 2021: 124-126 - [c11]Shunsuke Higuchi, Yuki Koizumi, Junji Takemasa, Atsushi Tagami, Toru Hasegawa:
Learned FIB: Fast IP Forwarding without Longest Prefix Matching. ICNP 2021: 1-11 - [c10]Hiroki Masuda, Kentaro Kita, Yuki Koizumi, Junji Takemasa, Toru Hasegawa:
Model Fragmentation, Shuffle and Aggregation to Mitigate Model Inversion in Federated Learning. LANMAN 2021: 1-6 - 2020
- [j6]Yoji Yamamoto, Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
A Packet-Level Caching Algorithm for Mitigating Negative Effects Caused by Large Objects in ICN Networks. IEEE Access 8: 108247-108259 (2020) - [j5]Junji Takemasa, Atsushi Tagami, Yuki Koizumi, Toru Hasegawa:
Load Balancing for Stateful Forwarding by Mitigating Heavy Hitters: A Case for Multi-Threaded NDN Software Routers. IEEE Access 8: 155071-155085 (2020) - [j4]Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
Data prefetch for fast NDN software routers based on hash table-based forwarding tables. Comput. Networks 173: 107188 (2020)
2010 – 2019
- 2019
- [j3]Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
Lightweight Cache Admission Algorithm for Fast NDN Software Routers. J. Inf. Process. 27: 125-134 (2019) - 2018
- [c9]Yoji Yamamoto, Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
Analysis on caching large content for information centric networking. ICN 2018: 24-30 - [c8]Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
Analysis of mutual exclusion overhead of NDN packet forwarding on multi-core software router. ICN 2018: 198-199 - [c7]Yuki Koizumi, Junji Takemasa, Toru Hasegawa:
A Game-Theoretic Approach to Resolve Conflict Between Traffic Engineering for Energy Efficiency and Load Balancing. LANMAN 2018: 43-48 - 2017
- [c6]Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
Toward an ideal NDN router on a commercial off-the-shelf computer. ICN 2017: 43-53 - [c5]Yoji Yamamoto, Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
On an impact of large content on packet-level caching of information centric networking. ICNP 2017: 1-2 - 2016
- [j2]Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
Is Caching a Key to Energy Reduction of NDN Networks? IEICE Trans. Commun. 99-B(12): 2489-2497 (2016) - [j1]Kaito Ohsugi, Junji Takemasa, Yuki Koizumi, Toru Hasegawa, Ioannis Psaras:
Power Consumption Model of NDN-Based Multicore Software Router Based on Detailed Protocol Analysis. IEEE J. Sel. Areas Commun. 34(5): 1631-1644 (2016) - [c4]Kosuke Taniguchi, Junji Takemasa, Yuki Koizumi, Toru Hasegawa:
A Method for Designing High-speed Software NDN Routers. ICN 2016: 203-204 - [c3]Junji Takemasa, Kosuke Taniguchi, Yuki Koizumi, Toru Hasegawa:
Identifying Highly Popular Content Improves Forwarding Speed of NDN Software Router. GLOBECOM Workshops 2016: 1-6 - 2015
- [c2]Junji Takemasa, Yuki Koizumi, Toru Hasegawa, Ioannis Psaras:
On Energy Reduction and Green Networking Enhancement Due to In-Network Caching. MASS 2015: 513-518 - 2014
- [c1]Toru Hasegawa, Yuto Nakai, Kaito Ohsugi, Junji Takemasa, Yuki Koizumi, Ioannis Psaras:
Empirically modeling how a multicore software ICN router and an ICN network consume power. ICN 2014: 157-166
Coauthor Index
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