A Secure Operating System Architecture Based on Linux against Communication Offense with Root Exploit for Unmanned Aerial Vehicles

KwangMin Koo; Woo-yeob Lee; Sung-Ryung Cho; Inwhee Joe

A Secure Operating System Architecture Based on Linux against Communication Offense with Root Exploit for Unmanned Aerial Vehicles

KwangMin Koo, Woo-yeob Lee, Sung-Ryung Cho, Inwhee Joe, Journal of Information Processing Systems Vol. 16, No. 1, pp. 42-48, Feb. 2020

https://doi.org/10.3745/JIPS.03.0130
Keywords: Architecture, Microkernel, Root Exploit, Security, UAV
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Abstract

This paper proposes an operating system architecture for unmanned aerial vehicle (UAV), which is secure against root exploit, resilient to connection loss resulting in the control loss, and able to utilize common applications used in Linux. The Linux-based UAVs are exposed to root exploit. On the other hand, the microkernel-based UAVs are not able to use the common applications utilized in Linux, even though which is secure against root exploit. For this reason, the proposed architecture uses a virtualized microkernel on the Linux operating system to isolate communication roles and prevent root exploit. As a result, the suggested Operating system is secure against root exploit and is able to utilize the common applications at the same time.

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Cite this article

[APA Style]

Koo, K., Lee, W., Cho, S., & Joe, I. (2020). A Secure Operating System Architecture Based on Linux against Communication Offense with Root Exploit for Unmanned Aerial Vehicles. Journal of Information Processing Systems, 16(1), 42-48. DOI: 10.3745/JIPS.03.0130.

[IEEE Style]

K. Koo, W. Lee, S. Cho, I. Joe, "A Secure Operating System Architecture Based on Linux against Communication Offense with Root Exploit for Unmanned Aerial Vehicles," Journal of Information Processing Systems, vol. 16, no. 1, pp. 42-48, 2020. DOI: 10.3745/JIPS.03.0130.

[ACM Style]

KwangMin Koo, Woo-yeob Lee, Sung-Ryung Cho, and Inwhee Joe. 2020. A Secure Operating System Architecture Based on Linux against Communication Offense with Root Exploit for Unmanned Aerial Vehicles. Journal of Information Processing Systems, 16, 1, (2020), 42-48. DOI: 10.3745/JIPS.03.0130.