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Automated Detection of Financial Bots on the Ethereum Blockchain


핵심 개념
This study presents a novel machine learning-based approach to detect financial bots deployed on the Ethereum blockchain, contributing to understanding the Ethereum ecosystem dynamics.
초록

The authors first systematize existing literature and collect anecdotal evidence to establish a taxonomy for financial bots on Ethereum, comprising 7 categories and 24 subcategories. They then create a ground-truth dataset of 133 human and 137 bot addresses by manually annotating Ethereum addresses.

Next, the authors employ both unsupervised and supervised machine learning algorithms to detect bots. The highest-performing clustering algorithm is a Gaussian Mixture Model with an average cluster purity of 82.6%, while the highest-performing binary classification model is a Random Forest with an accuracy of 83%.

The authors also investigate the most influential features for their best-performing models. They find that features based on the time, frequency, gas price, and gas limit of outgoing transactions are the most informative in distinguishing bots from humans and different types of bots.

The authors believe their work helps better understand the Ethereum ecosystem dynamics by shedding more light on the existing bot landscape and by proposing a novel ML-based detection mechanism. As these bots can significantly influence market dynamics, liquidity, and the overall network safety, it is important to monitor their prevalence and impact.

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통계
The number of transactions sent divided by the total number of blocks (100,000) is a key feature used in the models. The maximum gas price of outgoing transactions is an important feature for distinguishing bot behavior. The entropy of the distribution of timestamps of outgoing transactions is a useful feature for detecting bot activity.
인용구
"Bots can be used to provide critical infrastructure, e.g., enabling interfaces between centralized exchanges and the blockchain by managing assets automatically." "Bots are also exploited for predatory trading and market manipulation, posing financial threats to unwary users and potential systemic threats to the network's integrity."

핵심 통찰 요약

by Thomas Niede... 게시일 arxiv.org 03-29-2024

https://arxiv.org/pdf/2403.19530.pdf
Detecting Financial Bots on the Ethereum Blockchain

더 깊은 질문

How can the proposed bot detection approach be extended to other blockchain ecosystems beyond Ethereum?

The proposed bot detection approach can be extended to other blockchain ecosystems by adapting the methodology to the specific characteristics and features of each blockchain. Since the approach relies on machine learning algorithms and feature engineering, it can be applied to different blockchains by collecting relevant data, creating ground-truth datasets, and extracting features that are indicative of bot behavior. The taxonomy of bots established for Ethereum can serve as a foundation for categorizing bots on other blockchains. By systematically reviewing existing literature and collecting anecdotal evidence, a similar taxonomy can be developed for different blockchain ecosystems. Additionally, the clustering and classification models can be trained on data from other blockchains to detect financial bots effectively.

What are the potential unintended consequences of deploying bot detection systems, and how can they be mitigated?

One potential unintended consequence of deploying bot detection systems is the misclassification of legitimate users as bots, leading to false positives. This can result in user frustration, loss of trust, and negative impacts on user experience. To mitigate this risk, it is essential to continuously refine the detection algorithms, incorporate feedback mechanisms from users, and regularly update the models based on new data. Additionally, implementing transparent and explainable AI techniques, such as SHAP values, can help users understand why a certain classification was made and provide avenues for appeal or clarification. Another unintended consequence could be the evasion tactics employed by sophisticated bots to circumvent detection. Bots may adapt their behavior to avoid detection, leading to a cat-and-mouse game between bot developers and detection systems. To address this, continuous monitoring, dynamic feature engineering, and the use of advanced machine learning models that can adapt to evolving bot behaviors are crucial. Collaboration with cybersecurity experts and researchers in the field can also provide insights into emerging bot strategies and help enhance detection capabilities.

How might the emergence of decentralized autonomous organizations (DAOs) change the landscape of bots and their impact on blockchain networks?

The emergence of decentralized autonomous organizations (DAOs) could significantly impact the landscape of bots and their influence on blockchain networks. DAOs operate based on smart contracts and decentralized governance mechanisms, allowing for autonomous decision-making and execution of actions without human intervention. Bots could be utilized within DAOs to automate various functions, such as voting, fund management, and protocol execution. The use of bots within DAOs could enhance efficiency, transparency, and automation of processes, leading to increased productivity and streamlined operations. However, the presence of bots in DAOs could also raise concerns about manipulation, collusion, and unfair advantages in decision-making processes. Bots could potentially influence voting outcomes, exploit loopholes in governance mechanisms, or engage in malicious activities that undermine the integrity of DAO operations. To address these challenges, robust bot detection systems tailored to the unique characteristics of DAOs will be essential. These systems should be able to differentiate between legitimate automated processes within DAOs and malicious bot activities. Additionally, implementing governance mechanisms that promote transparency, accountability, and auditability within DAOs can help mitigate the risks associated with bot manipulation and ensure the integrity of decentralized decision-making processes.
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