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篇名 |
Lightweight, Low-Rate Denial-of-Service Attack Prevention and Control Program for IoT Devices
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並列篇名 | Lightweight, Low-Rate Denial-of-Service Attack Prevention and Control Program for IoT Devices |
作者 | Yan Zhang、Ling-ling Li、Hsiung-Cheng Lin、Zewen Ma、Jiang Zhao |
英文摘要 | As information technology has become more advanced, the Internet of things (IoT) has evolved from being a mere concept to becoming a part of everyday life. IoTbased home appliance applications have matured, and numerous relevant software programs have been made commercially available. Therefore, IoT-created security issues have become an issue that must be addressed. Hypertext transfer protocol (HTTP) transmission is one of the main transmission methods used in IoT-based communication. As HTTP evolves from the original HTTP/1.0 to the current HTTP/2, transmission efficiency and security have undergone considerable improvements. However, despite these improvements, HTTP/2 remains exposed to various risks, one of the most common of which is low-rate denial-of-service attacks (DoS attacks). Using this type of attack, hackers can paralyze target hosts. This hinders the target hosts’ ability to respond promptly, causing substantial damage to their systems. Although DoS attacks are one of the most commonly used methods by hackers to attack target hosts, most mainframe computers are equipped with excellent DoS attack prevention and control programs. Nevertheless, most IoT devices do not have high computing power and are thus prone to DoS attacks. Therefore, this study examined the feasibility of using a lightweight, low-rate DoS attack prevention and control program in IoT devices with low computing power. The objective is to enable these devices to prevent and control DoS attacks. |
起訖頁 | 877-886 |
關鍵詞 | Automated guided vehicles (AGV)、A-star algorithm、Path planning、Heuristic search algorithm |
刊名 | 網際網路技術學刊 |
期數 | 201905 (20:3期) |
出版單位 | 台灣學術網路管理委員會 |
DOI |
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| Cloud Storage: A Review on Secure Deduplication and Issues |
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| An Improved Single Packet Traceback Scheme for IoT Devices |