[논문]DoS Attack Control Design of IoT System for 5G Era

Rim, Kwangcheol; Lim, Dongho

doi:10.6109/jicce.2018.16.2.93

DoS Attack Control Design of IoT System for 5G Era 원문보기

Journal of information and communication convergence engineering, v.16 no.2, 2018년, pp.93 - 98

Rim, Kwangcheol (Department of Mathematics, Chosun University) , Lim, Dongho (Department of Mathematics Education, Sehan University)

Abstract ▼ AI-Helper

The Internet of Things (IoT) is a form of the emerging 4th industry in the 5G era. IoT is expected to develop naturally in our daily life in the 5G era in which high-speed communication will be completed. Along with the rise of IoT, concerns about security and malicious attacks are also increasing. This paper examines DoS attacks, which are one of the representative security threats of IoT and proposes a local detection and blocking system that are suitable for response to such attacks. First, systems of the LoRaWAN type, which are most actively researched in the IoT system field and DoS attacks that can occur in such systems were examined. Then, the inverse order tree algorithm using regional characteristics was designed as a cluster analysis form. Finally, a system capable of defending denial-of-service attacks in the 5G IoT system using local detection and blocking with the Euclidean distance was designed.

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가설 설정

1. Determine the gateway cluster by the end node cluster.
1. The system has no problem because it requires a small amount of additional traffic.
2. Data and layer value are sent to the gateway determined by the Euclidean distance.
2. Determine the gateway cluster by the Euclidean distance.
2. It is easy to analyze in the 5G IoT system of the upstream transmission mode.
3. Determine the logical network server layer by the Euclidean distance.
3. It is easy to respond to unknown attacks owing to the steady accumulation of specific data.
4. If the cumulative sum of the layer values is determined as a singularity, the lower network is blocked.
5. A small loss of power and traffic is generated even if it is small because the transmission of specific data is required inevitably.

제안 방법

The network connection between things forms a network of adjacent things, and their traffic is gathered in a gateway within the Euclidean distance. Thus, in this study, the total network is configured by forming layers based on the Euclidean distance and expressing the components for the occurrence of specific data between layers.
To cope with this, this study examined an open system of the LoRaWAN type that is widely known and designed a reverse tree structure using the Euclidean distance as a way to control attacks to this system. The inverse tree structure was applied to the LoRaWAN system to set up regional groups of the traffic generated at the lowest node to accumulate the number of specific data generation in the upper layer to promote the security of the entire system through local control.

성능/효과

4. It is cheaper because only logical modifications are made to the existing method.

참고문헌 (8)

D. Y. Kim, J. S. Park, Y. H. Choi, and Y. C. Choi, "Device state and packet transmission control scheme of 5G networks for supporting uplink-oriented IoT services," in Proceedings of the 2016 Institute of Electronics and Information Engineers Fall Conference, Daegu, Korea, pp. 335-337, 2016.
J. H. Lee, "A literature review on security for Internet of Things in Korea based on IoT S-P-N-D-Se ecosystem model," Journal of Security Engineering, vol. 12, no. 4, pp. 397-414, 2015. DOI: 10.14257/jse.2015.08.05.
Y. A. Hur and K. H. Lee, "A study on countermeasures of convergence for big data and security threats to attack DRDoS in u-healthcare device," Journal of the Korea Convergence Society, vol. 6, no. 4, pp. 243-248, 2015. DOI: 10.15207/JKCS.6.4.243.

원문보기 상세보기
S. H. Park and J. K. Park, "Security technology trend of IoTs," in Proceedings of the Korea Institute of Information & Telecommunication Facilities Engineering Summer Conference, pp. 169-171, 2016.
H. S. Chang, H. J. Kim, and T. Shon, "Study of cyber security issues in industrial IoT," KIISE Review, vol. 25, no. 5, pp. 12-17, 2015.
S. J. Na, J. W. Lee, and K. H. Kim, "A study of DoS attack scenario in LoRaWAN," in Proceedings of the Korea Institute of Information & Telecommunication Facilities Engineering Summer Conference, pp. 53-55, 2016.
LoRa Alliance, "LoRaWAN Specification v1.0," 2015 [Internet], Available: https://lora-alliance.org/resource-hub/lorawantm-specificationv10.
K. C. Rim and K. B. Lee, "An analysis of voter behavior in campaign scenes utilizing an inverse-order tree and a smartphone application," International Journal of Applied Engineering Research, vol. 11, no. 2, pp. 815-819, 2016.

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DoS Attack Control Design of IoT System for 5G Era 원문보기

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DoS Attack Control Design of IoT System for 5G Era 원문보기

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