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ORCIDDilawaer Duolikun
Dilawaer Doulikun – Dilewaer Doulikun
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- affiliation: Hosei University, Japan
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2020 – today
- 2024
[c134]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Improved Purpose-Based Concurrency Control to Reduce the Electric Energy Consumption of a Server Cluster. AINA (3) 2024: 374-384- [c133]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An Energy Consumption Model to Change the TBFC Model of the IoT. AINA (2) 2024: 465-475 - [c132]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An Algorithm to Change the TBFC Model to Reduce the Energy Consumption of the IoT. EIDWT 2024: 285-296 - 2023
- [j24]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An energy-aware negotiation protocol for live migration of virtual machines. Int. J. Web Grid Serv. 19(4): 446-462 (2023) - [c131]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Energy-Efficient Role-Based Concurrency Control with Virtual Machines. 3PGCIC 2023: 81-91 - [c130]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Model of an Energy-Aware IoT. 3PGCIC 2023: 139-149 - [c129]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Energy-Efficient Two Phase Locking (2PL) Protocol by Not Performing Meaningless Methods in Virtual Machine Environments. AINA (1) 2023: 1-8 - [c128]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An Energy-Aware Algorithm for Changing Tree Structure and Process Migration in the Flexible Tree-Based Fog Computing Model. AINA (2) 2023: 268-278 - [c127]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Energy-Saving Multi-version Timestamp Ordering Algorithm for Virtual Machine Environments. CISIS 2023: 13-20 - [c126]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An Energy-Aware Dynamic Algorithm for the FTBFC Model of the IoT. CISIS 2023: 38-47 - [c125]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Energy-Efficient Locking Protocol in Virtual Machine Environments. EIDWT 2023: 248-255 - [c124]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Flexible Fog Computing (FTBFC) Model to Reduce Energy Consumption of the IoT. EIDWT 2023: 256-267 - [c123]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Reducing Electric Energy Consumption of Servers in Multi-version Timestamp Ordering Algorithm. NBiS 2023: 33-41 - [c122]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Evaluation of the FTBFC Model for Energy-Efficient IoT. NBiS 2023: 62-70 - 2022
- [j23]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
An energy-efficient quorum-based locking protocol by omitting meaningless methods on object replicas. J. High Speed Networks 28(3): 181-203 (2022) - [c121]Dilawaer Duolikun, Tomoya Enokido, Leonard Barolli, Makoto Takizawa:
An Energy Consumption Model of Servers to Make Virtual Machines Migrate. AINA (1) 2022: 24-36 - [c120]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Energy-Efficient Concurrency Control by Omitting Meaningless Write Methods in Object-Based Systems. AINA (1) 2022: 129-139 - [c119]Dilawaer Duolikun, Shigenari Nakamura, Tomoya Enokido, Makoto Takizawa:
Energy-Consumption Evaluation of the Tree-Based Fog Computing (TBFC) Model. BWCCA 2022: 66-77 - [c118]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Multi-Version Concurrency Control to Reduce the Electric Energy Consumption of Servers. BWCCA 2022: 180-191 - [c117]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Energy-Efficient Two-Phase Locking Protocol by Omitting Meaningless Read and Write Methods. CISIS 2022: 26-36 - [c116]Dilawaer Duolikun, Tomoya Enokido, Leonard Barolli, Makoto Takizawa:
An Energy-Efficient Algorithm to Make Virtual Machines Migrate in a Server Cluster. EIDWT 2022: 130-141 - [c115]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
An Energy-Efficient Process Replication to Reduce the Execution of Meaningless Replicas. EIDWT 2022: 395-405 - [c114]Akihito Asakura, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Kuninao Nashimoto, Makoto Takizawa:
A Byzantine Fault Tolerant Protocol for Realizing the Blockchain. EIDWT 2022: 406-416 - [c113]Dilawaer Duolikun, Tomoya Enokido, Leonard Barolli, Makoto Takizawa:
Autonomous Migration of Virtual Machines to Reduce Energy Consumption of Servers. IMIS 2022: 18-30 - [c112]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Negotiation Protocol Among Servers for Virtual Machines to Migrate to Reduce the Energy Consumption. NBiS 2022: 1-12 - [c111]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Energy-Efficient Multi-Version Concurrency Control (EEMVCC) for Object-Based Systems. NBiS 2022: 13-24 - 2021
- [c110]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
The Improved Redundant Active Time-Based (IRATB) Algorithm for Process Replication. AINA (1) 2021: 172-180 - [c109]Dilawaer Duolikun, Tomoya Enokido, Leonard Barolli, Makoto Takizawa:
An Energy-Efficient Algorithm to Make Virtual Machines Migrate in a Server Cluster. BWCCA 2021: 25-36 - [c108]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
An Energy-Efficient Process Replication by Differentiating Starting Time of Process Replicas in Virtual Machine Environments. BWCCA 2021: 57-66 - [c107]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
The Redundant Active Time-Based Algorithm with Forcing Meaningless Replica to Terminate. CISIS 2021: 206-213 - [c106]Naomichi Noaki, Takumi Saito, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An Energy-Efficient Migration Algorithm for Virtual Machines to Reduce the Number of Migrations. EIDWT 2021: 58-70 - [c105]Kaiya Noguchi, Takumi Saito, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An Algorithm to Select an Energy-Efficient Server for an Application Process in a Cluster. EIDWT 2021: 82-92 - [c104]Dilawaer Duolikun, Tomoya Enokido, Leonard Barolli, Makoto Takizawa:
A Monotonically Increasing (MI) Algorithm to Estimate Energy Consumption and Execution Time of Processes on a Server. NBiS 2021: 1-12 - [c103]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
The Improved Redundant Active Time-Based Algorithm with Forcing Termination of Meaningless Replicas in Virtual Machine Environments. NBiS 2021: 50-58 - 2020
- [j22]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa
:
Energy consumption laxity-based quorum selection for distributed object-based systems. Evol. Intell. 13(1): 71-82 (2020) - [c102]Kaiya Noguchi, Takumi Saito, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An Algorithm to Select a Server to Minimize the Total Energy Consumption of a Cluster. 3PGCIC 2020: 18-28 - [c101]Naomichi Noaki, Takumi Saito, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An Energy-Efficient Algorithm for Virtual Machines to Migrate Considering Migration Time. BWCCA 2020: 341-354 - [c100]Kaiya Noguchi, Takumi Saito, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An Algorithm to Select an Energy-Efficient Sever for an Application Process in a Cluster of Servers. INCoS 2020: 101-111 - [c99]Naomichi Noaki, Takumi Saito, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Energy-Efficient Migration of Virtual Machines. NBiS 2020: 309-319
2010 – 2019
- 2019
- [j21]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
The energy consumption laxity-based algorithm to perform computation processes in virtual machine environments. Int. J. Grid Util. Comput. 10(5): 545-555 (2019) - [j20]Ryuji Oma, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A fault-tolerant tree-based fog computing model. Int. J. Web Grid Serv. 15(3): 219-239 (2019) - [j19]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Static and Dynamic Group Migration Algorithms of Virtual Machines to Reduce Energy Consumption of a Server Cluster. Trans. Comput. Collect. Intell. 33: 144-166 (2019) - [c98]Naohiro Ogura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Model of Virtual Machines to Support Storage Processes. AINA Workshops 2019: 57-66 - [c97]Ryuji Oma, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Energy-Efficient Recovery Algorithm in the Fault-Tolerant Tree-Based Fog Computing (FTBFC) Model. AINA 2019: 132-143 - [c96]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Energy-Efficient Group Migration of Virtual Machines in a Cluster. AINA 2019: 144-155 - [c95]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
The Improved Energy-Efficient Quorum Selection with Excluding Meaningless Methods. AINA 2019: 225-237 - [c94]Takumi Saito, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Evaluation of TBC and OBC Precedent Relations Among Messages in P2P Type of Topic-Based Publish/Subscribe System. AINA Workshops 2019: 570-581 - [c93]Yinzhe Guo, Ryuji Oma, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Two-Way Flow Model for Fog Computing. AINA Workshops 2019: 612-620 - [c92]Ryuji Oma, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Subprocess Transmission Strategies for Recovering from Faults in the Tree-Based Fog Computing (TBFC) Model. CISIS 2019: 50-61 - [c91]Shohei Hayashi, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Evaluation of a Protocol to Prevent Illegal Information Flow Based on Maximal Roles in the RBAC Model. EIDWT 2019: 80-91 - [c90]Ryusei Chida, Yinzhe Guo, Ryuji Oma, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Implementation of Fog Nodes in the Tree-Based Fog Computing (TBFC) Model of the IoT. EIDWT 2019: 92-102 - [c89]Yinzhe Guo, Ryuji Oma, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Evaluation of a Two-Way Tree-Based Fog Computing (TWTBFC) Model. IMIS 2019: 72-81 - [c88]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
The Improved Energy Consumption Laxity Based (IECLB) Algorithm to Perform Computation Processes. IMIS 2019: 94-105 - [c87]Yinzhe Guo, Ryuji Oma, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Data and Subprocess Transmission on the Edge Node of TWTBFC Model. INCoS 2019: 80-90 - [c86]Ryuji Oma, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Evaluation of Data and Subprocess Transmission Strategies in the Tree-Based Fog Computing Model. NBiS 2019: 15-26 - [c85]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
An Energy-Efficient Process Replication Algorithm with Multi-threads Allocation. NBiS 2019: 120-131 - 2018
- [j18]Ryo Watanabe, Dilawaer Duolikun, Makoto Takizawa:
Simple estimation and energy-aware migration models of virtual machines in a server cluster. Concurr. Comput. Pract. Exp. 30(21) (2018) - [j17]Dilawaer Duolikun, Hiroki Kataoka, Tomoya Enokido, Makoto Takizawa:
Simple algorithms for selecting an energy-efficient server in a cluster of servers. Int. J. Commun. Networks Distributed Syst. 21(1): 1-25 (2018) - [j16]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Dynamic migration of virtual machines to reduce energy consumption in a cluster. Int. J. Grid Util. Comput. 9(4): 357-366 (2018) - [j15]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A dynamic model for energy-efficiently migrating a group of virtual machines from a host server to a guest server. Int. J. Space Based Situated Comput. 8(3): 138-150 (2018) - [j14]Ryuji Oma, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An energy-efficient model for fog computing in the Internet of Things (IoT). Internet Things 1-2: 14-26 (2018) - [c84]Ryuji Oma, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Fault-Tolerant Fog Computing Models in the IoT. 3PGCIC 2018: 14-25 - [c83]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
An Energy-Efficient Process Replication Algorithm Based on the Active Time of Cores. AINA 2018: 165-172 - [c82]Dilawaer Duolikun, Ryo Watanabe, Tomoya Enokido, Makoto Takizawa:
An Eco Migration Algorithm of Virtual Machines in a Server Cluster. AINA 2018: 189-196 - [c81]Ryo Watanabe, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Simple Models of Processes Migration with Virtual Machines in a Cluster of Servers. AINA 2018: 197-204 - [c80]Atsuhiro Sawada, Dilawaer Duolikun, Ryo Watanabe, Tomoya Enokido, Makoto Takizawa:
A Simple Algorithm to Select Energy-Efficient Servers for Storage and Computation Processes. AINA Workshops 2018: 293-300 - [c79]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Group Migration of Virtual Machines in a Server Cluster. BWCCA 2018: 168-180 - [c78]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
The Improved Transmission Energy Consumption Laxity-Based Algorithm with Parallel Data Transmission. BWCCA 2018: 181-192 - [c77]Takumi Saito, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Object-Based Selective Delivery of Event Messages in Topic-Based Publish/Subscribe Systems. BWCCA 2018: 444-455 - [c76]Shohei Hayashi, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Synchronization Protocol to Prevent Illegal Information Flow Based on Maximal Roles in the Role-Based Access Control Model. BWCCA 2018: 525-533 - [c75]Naohiro Ogura, Dilawaer Duolikun, Tomoya Enokido, Ryo Watanabe, Makoto Takizawa:
A Virtual Machine Migration for Storage Processes. BWCCA 2018: 751-758 - [c74]Dilawaer Duolikun, Ryo Watanabe, Tomoya Enokido, Makoto Takizawa:
An Eco IDMMV Migration Algorithm of Dynamic Virtual Machines in a Server Cluster. CISIS 2018: 115-126 - [c73]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Energy-Efficient Process Replication by Forcing Meaningless Replicas to Terminate in Virtual Machine Environment. CISIS 2018: 149-160 - [c72]Ryo Watanabe, Dilawaer Duolikun, Cuiqin Qin, Tomoya Enokido, Makoto Takizawa:
Eco Migration Algorithms of Processes with Virtual Machines in a Server Cluster. EIDWT 2018: 130-141 - [c71]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Improved Energy-Efficient Quorum Selection Algorithm by Omitting Meaningless Methods. EIDWT 2018: 171-182 - [c70]Ryo Watanabe, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Virtual Machine Migration Algorithms to Reduce Electric Energy Consumption of a Server Cluster. IMIS 2018: 116-127 - [c69]Dilawaer Duolikun, Shigenari Nakamura, Tomoya Enokido, Makoto Takizawa:
An Energy-Efficient Dynamic Live Migration of Multiple Virtual Machines. NBiS 2018: 87-98 - [c68]Ryuji Oma, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Evaluation of an Energy-Efficient Tree-Based Model of Fog Computing. NBiS 2018: 99-109 - [c67]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
The Improved Transmission Energy Consumption Laxity Based (ITECLB) Algorithm for Virtual Machine Environments. NBiS 2018: 156-167 - 2017
- [j13]Hiroki Kataoka, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Multi-level power consumption model and energy-aware server selection algorithm. Int. J. Grid Util. Comput. 8(3): 201-210 (2017) - [j12]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An energy-aware algorithm to migrate virtual machines in a server cluster. Int. J. Space Based Situated Comput. 7(1): 32-42 (2017) - [j11]Tomoya Enokido, Dilawaer Doulikun, Makoto Takizawa:
An energy-aware load balancing algorithm to perform computation type application processes in a cluster of servers. Int. J. Web Grid Serv. 13(2): 145-169 (2017) - [j10]Ryo Watanabe, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Simply Energy-efficient Migration Algorithm of Processes with Virtual Machines in Server Clusters. J. Wirel. Mob. Networks Ubiquitous Comput. Dependable Appl. 8(2): 1-18 (2017) - [c66]Ryo Watanabe, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Energy-Aware Virtual Machine Migration Models in a Scalable Cluster of Servers. AINA 2017: 85-92 - [c65]Dilawaer Duolikun, Ryo Watanabe, Tomoya Enokido, Makoto Takizawa:
An Eco Migration of Virtual Machines in a Server Cluster. AINA 2017: 1098-1105 - [c64]Ryo Watanabe, Dilawaer Duolikun, Cuiqin Qin, Tomoya Enokido, Makoto Takizawa:
A Simple Migration Algorithm of Virtual Machine in a Server Cluster. BWCCA 2017: 149-160 - [c63]Dilawaer Duolikun, Ryo Watanabe, Tomoya Enokido, Makoto Takizawa:
Energy-Aware Dynamic Migration of Virtual Machines in a Server Cluster. BWCCA 2017: 161-172 - [c62]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
An Energy Efficient Load Balancing Algorithm Based on the Active Time of Cores. BWCCA 2017: 185-196 - [c61]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Energy-Efficient Quorum Selection Algorithm for Distributed Object-Based Systems. CISIS 2017: 31-42 - [c60]Dilawaer Duolikun, Ryo Watanabe, Tomoya Enokido, Makoto Takizawa:
Energy-Aware Dynamic Migration of Virtual Machines in a Server Cluster. CISIS 2017: 70-81 - [c59]Ryo Watanabe, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An Energy-Efficient Migration Algorithm of Virtual Machines in Server Clusters. CISIS 2017: 94-105 - [c58]Dilawaer Duolikun, Ryo Watanabe, Makoto Takizawa:
Eco Models of Distributed Systems. FDSE 2017: 3-22 - [c57]Atsuhiro Sawada, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Simple Energy-Aware Algorithms to Selecting a Server for Storage and Computation Processes in a Cluster. IMIS 2017: 98-109 - [c56]Dilawaer Duolikun, Ryo Watanabe, Tomoya Enokido, Makoto Takizawa:
An Eco Algorithm for Dynamic Migration of Virtual Machines in a Server Cluster. NBiS 2017: 42-54 - [c55]Ryo Watanabe, Dilawaer Duolikun, Cuiqin Qin, Tomoya Enokido, Makoto Takizawa:
A Simple Energy-Aware Virtual Machine Migration Algorithm in a Server Cluster. NBiS 2017: 55-65 - [c54]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
Energy-Efficient Role Ordering Scheduler. NBiS 2017: 78-90 - 2016
- [j9]Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A read-write abortion protocol to prevent illegal information flow in role-based access control systems. Int. J. Space Based Situated Comput. 6(1): 43-53 (2016) - [c53]Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Influential Abortion Probability in a Flexible Read-Write Abortion Protocol. AINA 2016: 1-8 - [c52]Hiroaki Honda, Shigenari Nakamura, Hiroki Nakayama, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Scalable Group Communication Protocol in Heterogeneous Networks. AINA Workshops 2016: 294-299 - [c51]Atsuhiro Sawada, Hiroki Kataoka, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Energy-Aware Clusters of Servers for Storage and Computation Applications. AINA 2016: 400-407 - [c50]Dilawaer Duolikun, Ryo Watanabe, Hiroki Kataoka, Shigenari Nakamura, Tomoya Enokido, Makoto Takizawa:
An Energy-Aware Migration of Virtual Machines. AINA 2016: 557-564 - [c49]Hiroki Kataoka, Atsuhiro Sawada, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Energy-Aware Server Selection Algorithms in a Scalable Cluster. AINA 2016: 565-572 - [c48]Hiroki Nakayama, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Reduction of Unnecessarily Ordered Event Messages in Peer-to-Peer Model of Topic-Based Publish/Subscribe Systems. AINA 2016: 1160-1167 - [c47]Dilawaer Duolikun, Shigenari Nakamura, Ryo Watanabe, Tomoya Enokido, Makoto Takizawa:
Energy-aware Migration of Virtual Machines in a Cluster. BWCCA 2016: 21-32 - [c46]Ryo Watanabe, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An Energy-efficient Migration Model of Processes with Virtual Machines in a Server Cluster. BWCCA 2016: 33-44 - [c45]Atsuhiro Sawada, Hiroki Kataoka, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Energy-aware Server Selection Algorithms for Storage and Computation Processes. BWCCA 2016: 45-56 - [c44]Hiroki Kataoka, Atsuhiro Sawada, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Simple Energy-efficient Server Selection Algorithm in a Scalable Cluster. BWCCA 2016: 573-584 - [c43]Dilawaer Duolikun, Ryo Watanabe, Tomoya Enokido, Makoto Takizawa:
A Model for Migration of Virtual Machines to Reduce Electric Energy Consumption. CISIS 2016: 159-166 - [c42]Hiroki Kataoka, Atsuhiro Sawada, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Energy-Aware Algorithms to Select Servers in Scalable Clusters. CISIS 2016: 308-315 - [c41]Atsuhiro Sawada, Hiroki Kataoka, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Design and Evaluation of Algorithms to Energy-Efficiently Select Servers for Storage and Computation Processes. IMIS 2016: 162-169 - [c40]Dilawaer Duolikun, Ryo Watanabe, Tomoya Enokido, Makoto Takizawa:
A Model for Energy-Aware Migration of Virtual Machines. NBiS 2016: 50-57 - [c39]Hiroki Kataoka, Atsuhiro Sawada, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Multi-level Power Consumption and Computation Models and Energy-Efficient Server Selection Algorithms in a Scalable Cluster. NBiS 2016: 210-217 - [c38]Atsuhiro Sawada, Hiroki Kataoka, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Selection Algorithms to Select Energy-Efficient Servers for Storage and Computation Processes. NBiS 2016: 218-225 - [c37]Ryo Watanabe, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
An Eco Model of Process Migration with Virtual Machines. NBiS 2016: 292-297 - 2015
- [j8]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
The delay time-based server selection algorithm for energy-efficient redundant execution of processes. Int. J. Commun. Networks Distributed Syst. 15(4): 366-385 (2015) - [j7]Dilawaer Duolikun, Shigenari Nakamura, Tomoya Enokido, Makoto Takizawa:
An energy-efficient process migration approach to reducing electric energy consumption in a cluster of servers. Int. J. Commun. Networks Distributed Syst. 15(4): 400-420 (2015) - [j6]Shigenari Nakamura, Dilawaer Duolikun, Makoto Takizawa:
Read-abortion (RA) based synchronization protocols to prevent illegal information flow. J. Comput. Syst. Sci. 81(8): 1441-1451 (2015) - [j5]Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Flexible Read-Write Abortion Protocol to Prevent Illegal Information Flow among Objects. J. Mobile Multimedia 11(3&4): 263-280 (2015) - [j4]Dilawaer Duolikun, Tomoya Enokido, Ailixier Aikebaier, Makoto Takizawa:
Energy-efficient dynamic clusters of servers. J. Supercomput. 71(5): 1642-1656 (2015) - [j3]Tomoya Enokido, Dilawaer Duolikun, Makoto Takizawa:
An extended improved redundant power consumption laxity-based (EIRPCLB) algorithm for energy efficient server cluster systems. World Wide Web 18(6): 1603-1629 (2015) - [c36]Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Flexible Read-Write Abortion Protocol to Prevent Illegal Information Flow. AINA 2015: 155-162 - [c35]Hiroki Kataoka, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Power Consumption and Computation Models of a Server with a Multi-core CPU and Experiments. AINA Workshops 2015: 217-222 - [c34]Dilawaer Duolikun, Tomoya Enokido, Hui-Huang Hsu, Makoto Takizawa:
Asynchronous Migration of Process Replicas in a Cluster. AINA 2015: 271-278 - [c33]Kazuaki Kouno, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Broadcast Protocols in Wireless Networks. AINA Workshops 2015: 272-277 - [c32]Hiroki Nakayama, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Causally Ordered Delivery of Event Messages with Keyword Vectors in P2P Publish/Subscribe Systems. AINA 2015: 534-541 - [c31]Dilawaer Duolikun, Hiroki Kataoka, Shigenari Nakamura, Tomoya Enokido, Makoto Takizawa:
Energy-Aware Migration and Replication of Processes in a Cluster. BWCCA 2015: 283-287 - [c30]Hiroki Kataoka, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Energy-Efficient Virtualisation of Threads in a Server Cluster. BWCCA 2015: 288-295 - [c29]Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Role Safety in a Flexible Read-Write Abortion Protocol. BWCCA 2015: 333-340 - [c28]Atsuhiro Sawada, Hiroki Kataoka, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Power Consumption and Computation Models of a Storage Server. BWCCA 2015: 472-477 - [c27]Dilawaer Duolikun, Shigenari Nakamura, Tomoya Enokido, Makoto Takizawa:
Energy-Efficient Replication and Migration of Processes in a Cluster. CISIS 2015: 118-125 - [c26]Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Flexible Read-Write Abortion Protocol with Sensitivity of Objects to Prevent Illegal Information Flow. CISIS 2015: 289-296 - [c25]Hiroki Kataoka, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Evaluation of Energy-Aware Server Selection Algorithms. CISIS 2015: 318-325 - [c24]Hiroki Nakayama, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Synchronization of Peers in Peer-to-Peer Publish/Subscribe Systems. IMIS 2015: 252-259 - [c23]Hiroki Kataoka, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Multi-level Computation and Power Consumption Models. NBiS 2015: 40-47 - [c22]Hiroaki Honda, Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Reduction of Unnecessarily Ordered Messages in Scalable Group Communication. NBiS 2015: 99-106 - [c21]Shigenari Nakamura, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Flexible Read-Write Abortion Protocol with Sensitivity of Roles. NBiS 2015: 132-139 - [c20]Hiroki Nakayama, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
Selective Delivery of Event Messages in Peer-to-Peer Topic-Based Publish/Subscribe Systems. NBiS 2015: 379-386 - 2014
- [j2]Dilawaer Duolikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Design and evaluation of a quorum-based synchronisation protocol of multimedia replicas. Int. J. Ad Hoc Ubiquitous Comput. 17(2/3): 100-109 (2014) - [c19]Dilawaer Duolikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Energy-Aware Replication Models of Mobile Agents. AINA 2014: 1132-1139 - [c18]Shigenari Nakamura, Dilawaer Doulikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Role-Based Information Flow Control Models. AINA 2014: 1140-1147 - [c17]Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A Process Migration Approach to Energy-Efficient Computation in a Cluster of Servers. BWCCA 2014: 191-198 - [c16]Hiroki Nakayama, Dilawaer Duolikun, Tomoya Enokido, Makoto Takizawa:
A P2P Model of Publish/Subscribe Systems. BWCCA 2014: 383-388 - [c15]Dilawaer Duolikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Power Consumption Models for Redundantly Performing Mobile-Agents. CISIS 2014: 185-190 - [c14]Shigenari Nakamura, Dilewaer Doulikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Synchronization Protocols to Prevent Illegal Information Flow in Role-Based Access Control Systems. CISIS 2014: 279-286 - [c13]Hiroki Nakayama, Dilawaer Duolikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Situation-Aware Group Communication Protocols. CISIS 2014: 415-420 - [c12]Dilawaer Duolikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Power Consumption Models for Migrating Processes in a Server Cluster. NBiS 2014: 15-22 - [c11]Shigenari Nakamura, Dilewaer Doulikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Read-Write Abortion (RWA) Based Synchronization Protocols to Prevent Illegal Information Flow. NBiS 2014: 120-127 - [c10]Hiroki Nakayama, Dilawaer Duolikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Causal Order of Application Events is P2P Publish/Subscribe Systems. NBiS 2014: 444-449 - 2013
- [j1]Dilawaer Duolikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Energy-Aware Passive Replication of Processes. J. Mobile Multimedia 9(1&2): 53-65 (2013) - [c9]Dilawaer Duolikun, Hiroyuki Hama, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Group Communication Protocols for Scalable Groups of Peers. AINA Workshops 2013: 1027-1032 - [c8]Dilawaer Doulikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Energy-Efficient Dynamic Clusters of Servers. BWCCA 2013: 253-260 - [c7]Dilawaer Doulikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Group Communication Protocols Based on Hybrid Types of Logical and Physical Clocks. BWCCA 2013: 494-499 - [c6]Dilawaer Duolikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
A Scalable Group Communication Protocol on P2P Overlay Networks. CISIS 2013: 428-433 - [c5]Dilawaer Doulikun, Ailixier Aikebaier, Tomoya Enokido, Leonard Barolli, Makoto Takizawa:
Energy-efficient Passive Replication of a Process in Mobile Environment. MoMM 2013: 416 - [c4]Dilawaer Duolikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Dynamic Clusters of Servers for Reducing Electric Power in P2P Overlay Networks. NBiS 2013: 149-155 - [c3]Dilawaer Duolikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Experimentation of Group Communication Protocols. NBiS 2013: 476-481 - 2012
- [c2]Dilawaer Duolikun, Makoto Takizawa:
Communication Protocols in Layered Groups with Heterogeneous Clocks. BWCCA 2012: 568-572 - [c1]Dilawaer Duolikun, Ailixier Aikebaier, Tomoya Enokido, Makoto Takizawa:
Ordered Delivery of Messages in Group Communication Protocols. NBiS 2012: 397-401
Coauthor Index
[c134] [c133] [c132] [j24] [c131] [c130] [c129] [c128] [c127] [c126] [c125] [c124] [c123] [c122] [j23] [c121] [c120] [c119] [c118] [c117] [c116] [c115] [c114] [c113] [c112] [c111] [c110] [c109] [c108] [c107] [c106] [c105] [c104] [c103] [j22] [c102] [c101] [c100] [c99] [j21] [j20] [j19] [c98] [c97] [c96] [c95] [c94] [c93] [c92] [c91] [c90] [c89] [c88] [c87] [c86] [c85] [j17] [j16] [j15] [j14] [c84] [c83] [c82] [c81] [c80] [c79] [c78] [c77] [c76] [c75] [c74] [c73] [c72] [c71] [c70] [c69] [c68] [c67] [j13] [j12] [j11] [j10] [c66] [c65] [c64] [c63] [c62] [c61] [c60] [c59] [c57] [c56] [c55] [c54] [j9] [c53] [c52] [c51] [c50] [c49] [c48] [c47] [c46] [c45] [c44] [c43] [c42] [c41] [c40] [c39] [c38] [c37] [j8] [j7] [j5] [j4] [j3] [c36] [c35] [c34] [c33] [c32] [c31] [c30] [c29] [c28] [c27] [c26] [c25] [c24] [c23] [c22] [c21] [c20] [j2] [c19] [c18] [c17] [c16] [c15] [c14] [c13] [c12] [c11] [c10] [j1] [c9] [c8] [c7] [c6] [c5] [c4] [c3] [c1]
[c134] [c133] [c132] [j24] [c131] [c130] [c129] [c128] [c127] [c126] [c125] [c124] [c123] [c122] [j23] [c121] [c120] [c119] [c118] [c117] [c116] [c115] [c114] [c113] [c112] [c111] [c110] [c109] [c108] [c107] [c106] [c105] [c104] [c103] [j22] [c102] [c101] [c100] [c99] [j21] [j20] [j19] [c98] [c97] [c96] [c95] [c94] [c93] [c92] [c91] [c90] [c89] [c88] [c87] [c86] [c85] [j18] [j17] [j16] [j15] [j14] [c84] [c83] [c82] [c81] [c80] [c79] [c78] [c77] [c76] [c75] [c74] [c73] [c72] [c71] [c70] [c69] [c68] [c67] [j13] [j12] [j11] [j10] [c66] [c65] [c64] [c63] [c62] [c61] [c60] [c59] [c58] [c57] [c56] [c55] [c54] [j9] [c53] [c52] [c51] [c50] [c49] [c48] [c47] [c46] [c45] [c44] [c43] [c42] [c41] [c40] [c39] [c38] [c37] [j8] [j7] [j6] [j5] [j4] [j3] [c36] [c35] [c34] [c33] [c32] [c31] [c30] [c29] [c28] [c27] [c26] [c25] [c24] [c23] [c22] [c21] [c20] [j2] [c19] [c18] [c17] [c16] [c15] [c14] [c13] [c12] [c11] [c10] [j1] [c9] [c8] [c7] [c6] [c5] [c4] [c3] [c2] [c1]
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