Ki Joon Chae scite author profile

IPTV uses open platform so not only service providers but also general users can provide contents to other users. Open IPTV system has many content providers, so existing security solution of IPTV cannot be adopted. In this paper, we suggest user authentication and key distribution mechanism on Open IPTV. Our proposed mechanism is based on Kerberos, so it can support distribution environment such asOpen IPTV. We demonstrate that proposed mechanism can guarantee secure transmission of contents and reduce the delay of user authentication on Open IPTV system compared to other authentication mechanisms. We also compare our proposal and other mechanisms in various aspects, and analyze efficiency and safety of proposed mechanism. As a result, we insist that this mechanism satisfies the security requirements for IPTV.

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Mutual Authentication Mechanism for Secure Group Communications in Sensor Network

Ko¹,

Doh²,

Chae³

2010

The KIPS Transactions:PartC

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Recently, a lot of interest is increased in sensor network which gathers various data through many sensor nodes deployed in wired and wireless network environment. However, because of the limitation in memory, computation, and energy of the sensor nodes, security problem is very important issue. In sensor network, not only the security problem, but also computing power should be seriously considered.In this paper, considering these characteristics, we make the sensor network consist of normal sensor nodes and clusterheaders with enough space and computing power, and propose a group key rekeying scheme adopting PCGR(Predistribution and local Collaborationbased Group Rekeying) for secure group communication. In our proposal, we enhance the security by minimizing the risk to safety of the entire network through verifying the new key value from clusterheader by sensor nodes. That is, to update the group keys, clusterheaders confirm sensor nodes through verifying the information from sensor nodes and send the new group keys back to authentic member nodes.The group keys sent back by the clusterheaders are verified again by sensor nodes. Through this mutual authentication, we can check if clusterheaders are compromised or not. Qualnet simulation result shows that our scheme not only guarantees secure group key rekeying but also decreasesstorage and communication overhead.

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The Chamois Reconfigurable Data-Mining Architecture.

Kim

Chae²,

Cho³

et al. 2002

JOT

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The process of knowledge discovery in data (KDD) stored in computers in general requires iterations of three stages: data preparation, data mining, and results analysis. A variety of software tools are available for each of the stages. KDD environments, objectives of KDD, and types of data to be mined affect the choice of software tools in each stage. This article proposes a component-based architecture for an "end-to-end" integrated suite of KDD software tools that supports the entire KDD process. The architecture allows the configuring of an integrated tool suite with software tools appropriate for a given KDD environment and a given set of KDD objectives. The architecture is a part of the Chamois component-based knowledge-engineering framework under development at Ewha Women's University in Korea.

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Organizing committee members

Chae¹,

Kim

Yamazaki

2016

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Ki Joon Chae

Security Based Semantic Context Awareness System for M2M Ubiquitous Healthcare Service

User Authentication and Key Distribution on Open IPTV System

Mutual Authentication Mechanism for Secure Group Communications in Sensor Network

The Chamois Reconfigurable Data-Mining Architecture.

Organizing committee members

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