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2022-08-26
Zhao, Yue, Shen, Yang, Qi, Yuanbo.  2021.  A Security Analysis of Chinese Robot Supply Chain Based on Open-Source Intelligence. 2021 IEEE 1st International Conference on Digital Twins and Parallel Intelligence (DTPI). :219—222.

This paper argues that the security management of the robot supply chain would preferably focus on Sino-US relations and technical bottlenecks based on a comprehensive security analysis through open-source intelligence and data mining of associated discourses. Through the lens of the newsboy model and game theory, this study reconstructs the risk appraisal model of the robot supply chain and rebalances the process of the Sino-US competition game, leading to the prediction of China's strategic movements under the supply risks. Ultimately, this paper offers a threefold suggestion: increasing the overall revenue through cost control and scaled expansion, resilience enhancement and risk prevention, and outreach of a third party's cooperation for confrontation capabilities reinforcement.

2018-04-11
Deliu, I., Leichter, C., Franke, K..  2017.  Extracting Cyber Threat Intelligence from Hacker Forums: Support Vector Machines versus Convolutional Neural Networks. 2017 IEEE International Conference on Big Data (Big Data). :3648–3656.

Hacker forums and other social platforms may contain vital information about cyber security threats. But using manual analysis to extract relevant threat information from these sources is a time consuming and error-prone process that requires a significant allocation of resources. In this paper, we explore the potential of Machine Learning methods to rapidly sift through hacker forums for relevant threat intelligence. Utilizing text data from a real hacker forum, we compared the text classification performance of Convolutional Neural Network methods against more traditional Machine Learning approaches. We found that traditional machine learning methods, such as Support Vector Machines, can yield high levels of performance that are on par with Convolutional Neural Network algorithms.