Shigeki Yamada scite author profile

Shigeki Yamada

5Publications

126Citation Statements Received

60Citation Statements Given

How they've been cited

237

126

How they cite others

102

Affiliations

Rikkyo University, National Institute of Informatics, Research Organization of Information and Systems

Publications

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PopCache: Cache more or less based on content popularity for information-centric networking

Suksomboon

Tarnoi

et al. 2013

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Due to a mismatch between downloading and caching content, the network may not gain significant benefit from the sophisticated in-network caching of information-centric networking (ICN) architectures by using a basic caching mechanism. This paper aims to seek an effective caching decision policy to improve the content dissemination in ICN. We propose PopCache-a caching decision policy with respect to the content popularity-that allows an individual ICN router to cache content more or less in accordance with the popularity characteristic of the content. We propose an analytical model to evaluate the performance of different caching decision policies in terms of the server-hit rate and expected round-trip time. The analysis confirmed by simulation results shows that PopCache yields the lowest expected round-trip time compared with three benchmark caching decision policies, i.e., the always, fixed probability and path-capacity-based probability, and PopCache provides the server-hit rate comparable to the lowest ones.

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A Software-Defined Networking Approach for Disaster-Resilient WANs

Nguyen

Minh

Yamada

2013

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eICIC Configuration Algorithm with Service Scalability in Heterogeneous Cellular Networks

Zhou

Wang

et al. 2017

IEEE/ACM Trans. Networking

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On-the-fly establishment of multihop wireless access networks for disaster recovery

et al. 2014

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ERI-MAC: An Energy-Harvested Receiver-Initiated MAC Protocol for Wireless Sensor Networks

Nguyen

Nguyen²,

et al. 2014

International Journal of Distributed Sensor Networks

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Energy harvesting technology potentially solves the problem of energy efficiency, which is the biggest challenge in wireless sensor networks. The sensor node, which has a capability of harvesting energy from the surrounding environment, is able to achieve infinitive lifetime. The technology promisingly changes the fundamental principle of communication protocols in wireless sensor networks. Instead of saving energy as much as possible, the protocols should guarantee that the harvested energy is equal to or bigger than the consumed energy. At the same time, the protocols are designed to have the efficient operation and maximum network performance. In this paper, we propose ERI-MAC, a new receiver-initiated MAC protocol for energy harvesting sensor networks. ERI-MAC leverages the benefit of receiver-initiated and packet concatenation to achieve good performance both in latency and in energy efficiency. Moreover, ERI-MAC employs a queueing mechanism to adjust the operation of a sensor node following the energy harvesting rate from the surrounding environment. We have extensively evaluated ERI-MAC in a large scale network with a realistic traffic model using the network simulator ns-2. The simulation results show that ERI-MAC achieves good network performance, as well as enabling infinitive lifetime of sensor networks.

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Shigeki Yamada

PopCache: Cache more or less based on content popularity for information-centric networking

A Software-Defined Networking Approach for Disaster-Resilient WANs

eICIC Configuration Algorithm with Service Scalability in Heterogeneous Cellular Networks

On-the-fly establishment of multihop wireless access networks for disaster recovery

ERI-MAC: An Energy-Harvested Receiver-Initiated MAC Protocol for Wireless Sensor Networks

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