Abstract
In the United States, the manufacturing ecosystem is rebuilt and developed through innovation with the promotion of AMP 2.0. For this reason, the industry has spurred the development of 5G, Artificial Intelligence (AI), and Machine Learning (ML) technologies which is being applied on the smart factories to integrate production process management, product service and distribution, collaboration, and customized production requirements. These smart factories need to effectively solve security problems with a high detection rate for a smooth operation. However, number of security related cases occurring in the smart factories has been increasing due to botnet Distributed Denial of Service (DDoS) attacks that threaten the network security operated on the Internet of Things (IoT) platform. Against botnet attacks, security network of the smart factory must improve its defensive capability. Among many security solutions, botnet detection using honeypot has been shown to be effective in early studies. In order to solve the problem of closely monitoring and acquiring botnet attack behaviour, honeypot is a method to detect botnet attackers by intentionally creating resources within the network. As a result, the traced content is recorded in a log file. In addition, these log files are classified quickly with high accuracy with a support of machine learning operation. Hence, productivity is increase, while stability of the smart factory is reinforced. In this study, a botnet detection model was proposed by combining honeypot with machine learning, specifically designed for smart factories. The investigation was carried out in a hardware configuration virtually mimicking a smart factory environment.
Highlights
Industry is changing rapidly its way of production with customized products to clients
The proposed model was simulated in a virtual smart factory being created based on a hardware configuration with Internet of Things (IoT) devices and two Raspberry Pi
The purpose of the present study was to present a model for botnet detection and rapid botnet classification in smart factories by combining honeypot and machine learning together
Summary
Industry is changing rapidly its way of production with customized products to clients. For smart factories to operate and maintain its autonomy, they should be trained to analyse by themselves and to accurately carry out quality process management, production management as well as product design. This is done by utilising important information such as process know-how, requirements of analysis data, product design drawings, business secrets and research. An example of botnet is the attack on the Dyn DNS infrastructure, which mobilized 100,000 IoT devices (mainly CCTV cameras) in October 2016. Another botnet attack on the IoT devices in 2017 using a new Mirai source code posed a serious threat to many manufacturing industries. It is urgent to identify and mitigate the impacts of the IoT botnet by developing new technologies [3]
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