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Takahiro Shinagawa
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2020 – today
- 2024
- [i3]Momoko Shiraishi, Takahiro Shinagawa:
Context-aware Code Segmentation for C-to-Rust Translation using Large Language Models. CoRR abs/2409.10506 (2024) - 2023
- [j5]Rikima Mitsuhashi
, Yong Jin
Malicious DNS Tunnel Tool Recognition Using Persistent DoH Traffic Analysis. IEEE Trans. Netw. Serv. Manag. 20(2): 2086-2095 (2023) - [c37]Rikima Mitsuhashi
Detection of DGA-based Malware Communications from DoH Traffic Using Machine Learning Analysis. CCNC 2023: 224-229 - [c36]Vasily A. Sartakov, Lluís Vilanova, Munir Geden, David M. Eyers, Takahiro Shinagawa, Peter R. Pietzuch:
ORC: Increasing Cloud Memory Density via Object Reuse with Capabilities. OSDI 2023: 573-587 - [c35]Shai Bergman, Mark Silberstein, Takahiro Shinagawa, Peter R. Pietzuch, Lluís Vilanova:
Translation Pass-Through for Near-Native Paging Performance in VMs. USENIX ATC 2023: 753-768 - 2022
- [c34]Shu Anzai, Masanori Misono, Ryo Nakamura, Yohei Kuga, Takahiro Shinagawa
Towards isolated execution at the machine level. APSys 2022: 68-77 - [c33]Rikima Mitsuhashi
Exploring Optimal Deep Learning Models for Image-based Malware Variant Classification. COMPSAC 2022: 779-788 - [c32]Vasily A. Sartakov, Lluís Vilanova, David M. Eyers, Takahiro Shinagawa, Peter R. Pietzuch:
CAP-VMs: Capability-Based Isolation and Sharing in the Cloud. OSDI 2022: 597-612 - [c31]Masanori Misono, Toshiki Hatanaka, Takahiro Shinagawa
DMAFV: testing device drivers against DMA faults. SAC 2022: 1176-1182 - [c30]Rikima Mitsuhashi
Deriving optimal deep learning models for image-based malware classification. SAC 2022: 1727-1731 - [c29]Keiichi Matsuzawa, Takahiro Shinagawa
LLLFS: A Low-latency Library File System for Persistent Memory. UCC 2022: 352-359 - [i2]Vasily A. Sartakov, Lluís Vilanova, David M. Eyers, Takahiro Shinagawa, Peter R. Pietzuch:
CAP-VMs: Capability-Based Isolation and Sharing for Microservices. CoRR abs/2202.05732 (2022) - 2021
- [j4]Takaaki Fukai
Live Migration in Bare-Metal Clouds. IEEE Trans. Cloud Comput. 9(1): 226-239 (2021) - [c28]Yosuke Ozawa, Takahiro Shinagawa
Exploiting Sub-page Write Protection for VM Live Migration. CLOUD 2021: 484-490 - [c27]Masanori Misono, Takahiro Shinagawa
POSTER: OS Independent Fuzz Testing of I/O Boundary. CCS 2021: 2453-2455 - [c26]Shotaro Gotanda, Takahiro Shinagawa
Short Paper: Highly Compatible Fast Container Startup with Lazy Layer Pull. IC2E 2021: 53-59 - [c25]Rikima Mitsuhashi
Identifying Malicious DNS Tunnel Tools from DoH Traffic Using Hierarchical Machine Learning Classification. ISC 2021: 238-256 - 2020
- [j3]Keiichi Matsuzawa, Mitsuo Hayasaka, Takahiro Shinagawa
Practical Quick File Server Migration. ACM Trans. Storage 16(2): 13:1-13:30 (2020) - [c24]Hidehito Yabuuchi, Takahiro Shinagawa
Multi-resource Low-latency Cluster Scheduling without Execution Time Estimation. CCGRID 2020: 310-319 - [c23]Takaya Saeki, Yuichi Nishiwaki, Takahiro Shinagawa
A robust and flexible operating system compatibility architecture. VEE 2020: 129-142 - [i1]Rikima Mitsuhashi, Takahiro Shinagawa:
High-Accuracy Malware Classification with a Malware-Optimized Deep Learning Model. CoRR abs/2004.05258 (2020)
2010 – 2019
- 2018
- [c22]Ilias Avramidis, Michael Mackay, Fung Po Tso
Live migration on ARM-based micro-datacentres. CCNC 2018: 1-6 - [c21]Masanori Misono, Masahiro Ogino, Takaaki Fukai, Takahiro Shinagawa
FaultVisor2: Testing Hypervisor Device Drivers Against Real Hardware Failures. CloudCom 2018: 204-211 - [c20]Masanori Misono, Kaito Yoshida, Juho Hwang, Takahiro Shinagawa
Distributed Denial of Service Attack Prevention at Source Machines. DASC/PiCom/DataCom/CyberSciTech 2018: 488-495 - [c19]Iori Yoneji, Takaaki Fukai, Takahiro Shinagawa
Unified hardware abstraction layer with device masquerade. SAC 2018: 1102-1108 - [c18]Keiichi Matsuzawa, Mitsuo Hayasaka, Takahiro Shinagawa
The Quick Migration of File Servers. SYSTOR 2018: 65-75 - 2017
- [c17]Takaya Saeki, Yuichi Nishiwaki, Takahiro Shinagawa
Bash on Ubuntu on macOS. APSys 2017: 17:1-17:8 - [c16]Keiichi Matsuzawa, Takahiro Shinagawa
VM-Aware Adaptive Storage Cache Prefetching. CloudCom 2017: 65-73 - [c15]Takaaki Fukai, Satoru Takekoshi, Kohei Azuma, Takahiro Shinagawa
BMCArmor: A Hardware Protection Scheme for Bare-Metal Clouds. CloudCom 2017: 322-330 - 2016
- [c14]Satoru Takekoshi, Takahiro Shinagawa
Testing device drivers against hardware failures in real environments. SAC 2016: 1858-1864 - 2015
- [c13]Yushi Omote, Takahiro Shinagawa
Improving Agility and Elasticity in Bare-metal Clouds. ASPLOS 2015: 145-159 - [c12]Takaaki Fukai, Yushi Omote, Takahiro Shinagawa
OS-Independent Live Migration Scheme for Bare-Metal Clouds. UCC 2015: 80-89 - [e1]Kenji Kono, Takahiro Shinagawa:
Proceedings of the 6th Asia-Pacific Workshop on Systems, APSys 2015, Tokyo, Japan, July 27-28, 2015. ACM 2015, ISBN 978-1-4503-3554-6 [contents] - 2012
- [j2]Yohei Matsuhashi, Takahiro Shinagawa
Transparent VPN failure recovery with virtualization. Future Gener. Comput. Syst. 28(1): 78-84 (2012) - [c11]Yoshihiro Oyama, Tran Truong Duc Giang, Yosuke Chubachi, Takahiro Shinagawa
Detecting malware signatures in a thin hypervisor. SAC 2012: 1807-1814 - [c10]Yushi Omote, Yosuke Chubachi, Takahiro Shinagawa
Hypervisor-based background encryption. SAC 2012: 1829-1836 - 2010
- [c9]Tsutomu Nomoto, Yoshihiro Oyama, Hideki Eiraku, Takahiro Shinagawa
Using a Hypervisor to Migrate Running Operating Systems to Secure Virtual Machines. COMPSAC 2010: 37-46 - [c8]Yosuke Chubachi, Takahiro Shinagawa
Hypervisor-based prevention of persistent rootkits. SAC 2010: 214-220
2000 – 2009
- 2009
- [j1]Toshihiro Yokoyama, Miyuki Hanaoka, Makoto Shimamura, Kenji Kono, Takahiro Shinagawa
Reducing Security Policy Size for Internet Servers in Secure Operating Systems. IEICE Trans. Inf. Syst. 92-D(11): 2196-2206 (2009) - [c7]Manabu Hirano, Takahiro Shinagawa
A Two-Step Execution Mechanism for Thin Secure Hypervisors. SECURWARE 2009: 129-135 - [c6]Takahiro Shinagawa
BitVisor: a thin hypervisor for enforcing i/o device security. VEE 2009: 121-130 - 2008
- [c5]Manabu Hirano, Takahiro Shinagawa
Introducing Role-Based Access Control to a Secure Virtual Machine Monitor: Security Policy Enforcement Mechanism for Distributed Computers. APSCC 2008: 1225-1230 - [c4]Yuka Ikebe, Takehiro Nakayama, Masaji Katagiri, Satoshi Kawasaki, Hirotake Abe, Takahiro Shinagawa
Efficient Anomaly Detection System for Mobile Handsets. SECURWARE 2008: 154-160 - 2006
- [c3]Takahiro Shinagawa
SegmentShield: Exploiting Segmentation Hardware for Protecting against Buffer Overflow Attacks. SRDS 2006: 277-288 - 2004
- [c2]Takahiro Shinagawa, Kenji Kono:
Implementing a secure setuid program. Parallel and Distributed Computing and Networks 2004: 301-309 - 2002
- [c1]Takahiro Shinagawa
Flexible and Efficient Sandboxing Based on Fine-Grained Protection Domains. ISSS 2002: 172-184
Coauthor Index
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last updated on 2024-10-14 23:32 CEST by the dblp team
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