• The Journal of the Institute of Internet, Broadcasting and Communication
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• v.18 no.6
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• pp.1-9
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• 2018

In the fourth industrial revolution, which has become an issue now, we have been able to receive instant analysis results faster than the existing slow speed through various Big Data technologies, and to conduct real-time monitoring on mobile and web. First, various irregular sensor Data is generated using IoT device, Raspberry Pi. Sensor Data is collected in real time, and the collected data is distributed and stored using several nodes. Then, the stored Sensor Data is processed and refined. Visualize and output the analysis result after analysis. By using these methods, we can train the human resources required for Big Data and mobile related fields using IoT, and process data efficiently and quickly. We also provide information that can confirm the reliability of research results through real time monitoring.

• The Journal of the Institute of Internet, Broadcasting and Communication
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• v.19 no.1
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• pp.117-126
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• 2019

The data generated in the IoT environment is very diverse. Especially, the development of the fourth industrial revolution has made it possible to increase the number of fixed and unstructured data generated in manufacturing facilities such as Smart Factory. With Big Data related solutions, it is possible to collect, store, process, analyze and visualize various large volumes of data quickly and accurately. Therefore, in this paper, we will directly generate data using Raspberry Pi used in IoT environment, and analyze using various Big Data solutions. Collected by using an Sqoop solution collected and stored in the database to the HDFS, and the process is to process the data by using the solutions available Hive parallel processing is associated with Hadoop. Finally, the analysis and visualization of the processed data via the R programming will be used universally to end verification.

• Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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• 2017.05a
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• pp.551-554
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• 2017

The largest industry in the world is the medical industry, and due to aging and growing demand for well-being, it is necessary to review the competition strategy of the healthcare industry. We will secure competitiveness among medical institutions through the rapid dissemination of ICT convergence, study the intelligence level of digital health care by increasing the capacity of intelligent medical care by combining big data of medical data and artificial intelligence, And to find a countermeasure for constructing a medical optimization model.

• Information and Communications Magazine
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• v.34 no.3
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• pp.90-100
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• 2017

최근 다양한 산업 분야에서 사물인터넷(Internet of Things; IoT)에 관련된 연구가 활발히 진행되고 있다. 기존 네트워크 환경에서와 같이 IoT 또한 다양한 보안 공격으로부터 노출 되어 있으며, 여러 가지 보안 이슈가 존재한다. IoT 환경에서는 디바이스, 플랫폼, 통신프로토콜의 이종성 문제로 인하여 공통의 보안 서비스 제공이 힘들게 되고 이를 해결하기 위하여 상호운용성 제공이 가능한 표준이 필요하게 된다. 본고에서는 다양한 보안 이슈들로부터 안전한 IoT 환경 구축을 위하여, IoT 보안 관련 국내외 표준화 기관를 분석하고, 각 기관에서 제시하고 있는 IoT 보안 관련 표준 및 표준화 동향을 분석하고자 한다.

• Air Cleaning Technology
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• v.34 no.3
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• pp.28-37
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• 2021

• Journal of the Korea Society of Computer and Information
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• v.25 no.5
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• pp.127-135
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• 2020

In this paper, we propose an IoT-enabled solution for tour photography services with small-size investment and resources in the travel and tourism industries, being able to impact on economic, social, and cultural values. An IoT-enabled camera is developed based on an open hardware and software platform complying with oneM2M, which can make traditional embedded systems oneM2M-compliant devices due to a middleware solution called TAS (thing adaptation software). IoT cameras deployed around photo zones in a tour site could be remotely controlled via an IoT gateway with a Web-based application on a smartphone. Users would perform a pan and tilt camera control if they want and then take and download a perfect photo picture (even though they are away from the tour site). We expect that the proposed solution will promote the deployment IoT-enabled technologies in tour and travel industries which are important parts of the tertiary sector.

• Review of KIISC
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• v.29 no.6
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• pp.81-88
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• 2019

IoT 기술을 이용한 다양한 제품과 서비스의 출시로 국내·외 IoT 산업의 급성장 및 초연결사회로의 진입이 가속화되고 있는 가운데, 보안에 취약한 IoT 기기를 공격 목표 및 도구로 악용하여 다양한 침해사고가 발생되고 있다. 이와 같은 상황은 IoT 기기 보급 활성화와 더불어 더욱 증가할 것으로 전망되고 있으며, 피해의 범위 및 정도에 있어서 막대한 사회적·경제적 손실을 유발하게 될 것으로 우려되고 있다. IoT 기기를 대상으로 하는 침해사고는 주로 디폴트 계정이나 추측하기 쉬운 패스워드를 사용하는 등 관리적 미흡 혹은 기기 자체의 취약점을 악용하여 발생하는 공격으로 인하여 발생되고 있다. 이에 정부 및 산업체에서는 IoT 기기의 보안 내재화, 기기 소유자의 보안인식 제고 등 IoT 기기의 보안성 강화를 위한 다양한 활동을 진행하고 있다. 하지만 IoT 기기 및 사용 환경의 특징 상 모든 IoT 기기를 안전하게 배포하여 관리하는 데에는 한계가 존재하기 때문에, 침해사고 예방 및 대응의 관점에서 공격에 노출되기 쉬운 취약한 기기를 파악하여 사전에 조치하는 노력이 필요하다. 이와 관련하여 본 논문에서는 IoT 기기 취약점을 악용하여 발생하는 공격 대응을 위해, 다양한 채널을 통해 IoT 기기 취약점 및 익스플로잇 정보를 수집하여 IoT 기기 취약점 악용 공격의 유형을 분석하고 대응의 일례를 제시함으로써 IoT 위협 탐지 및 대응 전략 수립을 위한 기초정보를 제공하고자 한다.

• Journal of the Korean Institute of Gas
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• v.25 no.5
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• pp.70-77
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• 2021

As IoT technology develops along with the 4th industrial revolution, gas safety products to which IoT technology is applied are being developed. However, since the gas safety system was not allowed, system improvement and operation reliability test for IoT gas safety products are required. This thesis researches IoT fuse cock and smart multi-function meter among IoT gas safety products, and analyzes the empirical data of IoT fuse cock to secure operational reliability data, thereby becoming a leader in IoT gas safety products. It aims to develop gas barrier technology one step further through various test evaluations and methods in the future.

• Proceedings of the Korea Information Processing Society Conference
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• 2017.11a
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• pp.1326-1328
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• 2017

4차 산업 혁명을 맞이하여 다양한 사물 인터넷(IoT) 서비스가 폭발적으로 등장하고 있다. 현재의 IoT 서비스는 독립 서비스로 제공되는 상황이지만 향후 IoT 서비스는 기존 IoT 서비스의 활용과 결합을 목표로 개발되고 있다. IoT 서비스 간 결합 시 발생할 수 모듈의 중복성 문제를 해결하고 새로운 IoT 서비스의 이식성을 높이기 위해 본 연구에서는 K-means 알고리즘을 활용하여 IoT 서비스 간 유사도를 고려한 IoT 서비스 분류 알고리즘을 제안한다. 실험 및 분석을 통하여 K=8,9인 경우 37개의 상용 IoT 서비스가 효율적이고 적합하게 클러스터됨을 증명하였다.

• Journal of Korea Society of Digital Industry and Information Management
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• v.16 no.1
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• pp.11-19
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• 2020

IoT has been consistently used in various fields such as smart home, wearables, and healthcare. Since IoT devices are small terminals, relatively simple wireless communication protocols such as IEEE 802.15.4 and ISO 18000 series are used. In this paper, we designed the 802.15.4q 2.4 GHz TASK physical layer. Physical protocol data unit of TASK supports bit-level interleaving and shortened BCH encoding. It is spread by unique ternary sequences. There are four spreading factors to choose the data rate according to the communication channel environment. The TASK physical layer was designed using verilog-HDL and verified through the loop-back test of the transceiver. The designed TASK physical layer was implemented in a fpga and tested using MAXIM RFICs. The PER was about 0% at 10 dB SNR. It is expected to be used in small, low power IoT applications.