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ідея - Cybersecurity - # Data Manipulation Defense Strategies

Interactive Trimming for Defending Against Online Data Manipulation Attacks: A Game-Theoretic Approach


Основні поняття
Game-theoretic models can effectively defend against online data manipulation attacks through interactive trimming strategies.
Анотація

The exponential growth of data has raised concerns about data integrity, especially in the face of malicious data poisoning attacks. Distance-based defenses like trimming have been proposed but are easily evaded by attackers. Game theory offers a promising approach to address the evasiveness of poisoning attacks. Existing game-theoretical models often overlook the complexities of online data poisoning attacks, where strategies must adapt to dynamic data collection processes. An interactive game-theoretical model is presented in this paper to defend against online data manipulation attacks using the trimming strategy. The model accommodates a complete strategy space and simplifies the derivation of Stackelberg equilibrium. Two strategies, Tit-for-tat and Elastic, are devised from this analytical model and tested on real-world datasets to showcase their effectiveness.

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Статистика
"Extensive experiments on real-world datasets" "Two strategies derived from an analytical model: Tit-for-tat and Elastic"
Цитати
"Malicious data poisoning attacks disrupt machine learning processes and lead to severe consequences." "Game theory provides a promising approach to address the evasiveness of poisoning attacks."

Ключові висновки, отримані з

by Yue Fu,Qingq... о arxiv.org 03-18-2024

https://arxiv.org/pdf/2403.10313.pdf
Interactive Trimming against Evasive Online Data Manipulation Attacks

Глибші Запити

How can game theory be applied in other cybersecurity contexts beyond defending against data manipulation

Game theory can be applied in various cybersecurity contexts beyond defending against data manipulation. One application is in the field of network security, where game theory can help model interactions between attackers and defenders to optimize defense strategies. For example, it can be used to analyze optimal resource allocation for intrusion detection systems or to develop strategies for mitigating DDoS attacks. Additionally, game theory can also be applied in cybersecurity risk management to assess the trade-offs between investing in security measures and potential losses from cyber incidents.

What are potential drawbacks or limitations of using game-theoretic models for defense strategies

While game-theoretic models offer valuable insights into strategic interactions between adversaries and defenders, there are some drawbacks and limitations to consider: Complexity: Game-theoretic models often rely on simplifying assumptions that may not fully capture the complexities of real-world cybersecurity scenarios. Assumption of Rationality: These models assume rational behavior from all parties involved, which may not always hold true in practice. Information Assumptions: Game-theoretic models typically assume complete information about the opponent's strategies, which may not align with reality where asymmetric information exists. Scalability: Implementing complex game-theoretic solutions in large-scale systems may pose challenges due to computational complexity and scalability issues.

How might advancements in AI impact the effectiveness of these proposed defense strategies in the future

Advancements in AI have the potential to significantly impact the effectiveness of proposed defense strategies based on game theory: Enhanced Adversarial Capabilities: As AI technologies evolve, adversaries could leverage advanced AI algorithms for more sophisticated attacks that adapt dynamically to defensive measures. Improved Defense Mechanisms: On the flip side, AI-powered defense mechanisms could utilize machine learning algorithms for anomaly detection, pattern recognition, and automated response systems that enhance resilience against evolving threats. Increased Automation: AI-driven automation could streamline threat detection and response processes within a game-theoretic framework, enabling quicker decision-making and adaptive defenses. Ethical Considerations: The ethical implications of using AI in cybersecurity must also be considered as biases or unintended consequences from autonomous decision-making systems could impact strategy outcomes. These advancements highlight both opportunities for leveraging AI capabilities for robust defense strategies as well as challenges related to ensuring ethical use and managing adversarial advancements effectively within a game-theoretic context.
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