AI Article Synopsis
- Cyber-Physical Systems (CPS) face security threats due to their increased vulnerability from cyber components that allow for remote accessibility and manipulation, leading to more complex attacks aimed at evading detection.
- Researchers are working on developing robust security techniques that focus on attack prevention, detection, and mitigation, while ensuring key security principles like confidentiality, integrity, and availability are upheld.
- The paper presents an adversarial learning-based defense strategy using machine learning models such as Random Forest, Artificial Neural Network, and Long Short-Term Memory to improve the detection of both known and unknown attacks in CPS, while also addressing vulnerabilities to adversarial attacks through evaluation on specific datasets.
Article Abstract
Cyber-Physical Systems (CPS) are prone to many security exploitations due to a greater attack surface being introduced by their cyber component by the nature of their remote accessibility or non-isolated capability. Security exploitations, on the other hand, rise in complexities, aiming for more powerful attacks and evasion from detections. The real-world applicability of CPS thus poses a question mark due to security infringements. Researchers have been developing new and robust techniques to enhance the security of these systems. Many techniques and security aspects are being considered to build robust security systems; these include attack prevention, attack detection, and attack mitigation as security development techniques with consideration of confidentiality, integrity, and availability as some of the important security aspects. In this paper, we have proposed machine learning-based intelligent attack detection strategies which have evolved as a result of failures in traditional signature-based techniques to detect zero-day attacks and attacks of a complex nature. Many researchers have evaluated the feasibility of learning models in the security domain and pointed out their capability to detect known as well as unknown attacks (zero-day attacks). However, these learning models are also vulnerable to adversarial attacks like poisoning attacks, evasion attacks, and exploration attacks. To make use of a robust-cum-intelligent security mechanism, we have proposed an adversarial learning-based defense strategy for the security of CPS to ensure CPS security and invoke resilience against adversarial attacks. We have evaluated the proposed strategy through the implementation of Random Forest (RF), Artificial Neural Network (ANN), and Long Short-Term Memory (LSTM) on the ToN_IoT Network dataset and an adversarial dataset generated through the Generative Adversarial Network (GAN) model.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10301964 | PMC |
| http://dx.doi.org/10.3390/s23125459 | DOI Listing |
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