Yehoon Jang scite author profile

Yehoon Jang

4Publications

6Citation Statements Received

18Citation Statements Given

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Kyonggi University

Publications

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An Efficient Network Resource Management in SDN for Cloud Services

et al. 2020

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With the recent advancements in cloud computing technology, the number of cloud-based services has been gradually increasing. Symmetrically, users are asking for quality of experience (QoE) to be maintained or improved. To do this, it has become necessary to manage network resources more efficiently inside the cloud. Many theoretical studies for improving the users’ QoE have been proposed. However, there are few practical solutions due to the lack of symmetry between implementation and theoretical researches. Hence, in this study, we propose a ranking table-based network resource allocation method that dynamically allocates network resources per service flow based on flow information periodically collected from a software defined network (SDN). It dynamically identifies the size of the data transmission for each service flow on the SDN and differentially allocates network resources to each service flow based on this size. As a result, it maintains the maximum QoE for the user by increasing the network utilization. The experimental results show that the proposed method achieves 29.4% higher network efficiency than the general Open Shortest Path First (OSPF) method on average.

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A New Flow Entry Replacement Scheme Considering Traffic Characteristics in Software-Defined Networks

Kim

Jang

et al. 2020

Applied Sciences

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The Software Defined Network (SDN) decouples control and data planes of the existing network architecture and a controller carries out centralized management and control of the network. This provides flexibility for the networks and enables efficient operation, depending on their condition. However, when the performance of switches comprising the SDN varies, any switches with low performance can cause flow table overflow and subsequent bottleneck with overhead concentrating in the controller. Besides, packet processing can be delayed, declining user QoS. The paper proposes a flow entry replacement scheme that takes into account the flow features to address the issue. The proposed Short Flow First (SFF) scheme discriminates the flow features based on the matching period of flow entry and determines a subject of the flow entry replacement with the features. For evaluation, the paper built the SDN environment using the Mininet emulator and compared the performance of the proposed SFF scheme with the representative flow entry replacement schemes. According to the results, the proposed scheme showed a good performance in the flow entry miss rate and packet delay due to failure of matching the flow entry.

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Traffic classification using distributions of latent space in software-defined networks: An experimental evaluation

Jang

Kim

Lee

2023

Engineering Applications of Artificial Intelligence

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Deep Learning-based Automatic Detection of Radiopaque Markers for Measuring Colon Transit Time

Lee¹,

학생²,

Jang³

et al. 2020

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Yehoon Jang

An Efficient Network Resource Management in SDN for Cloud Services

A New Flow Entry Replacement Scheme Considering Traffic Characteristics in Software-Defined Networks

Traffic classification using distributions of latent space in software-defined networks: An experimental evaluation

Deep Learning-based Automatic Detection of Radiopaque Markers for Measuring Colon Transit Time

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