Web3.0 Security: Privacy Enhancing and Anonym Auditing in Blockchain-based Structures

TL;DR

This paper addresses security challenges in Web 3.0 by proposing a blockchain-based architecture with privacy-preserving techniques and anonymous auditing, enhancing security and user privacy in decentralized internet systems.

Contribution

It introduces a novel security protocol for Web 3.0 that integrates privacy-enhancing methods and Tor for anonymous auditing, filling gaps in existing security frameworks.

Findings

The proposed framework effectively preserves user privacy during runtime.

Our model outperforms existing methods in security and anonymity metrics.

Evaluation shows improved privacy and security in Web 3.0 environments.

Abstract

The advent of Web 3.0, underpinned by blockchain technologies, promises to transform the internet's landscape by empowering individuals with decentralized control over their data. However, this evolution brings unique security challenges that need to be addressed. This paper explores these complexities, focusing on enhancing privacy and anonymous auditing within blockchain structures. We present the architecture of Web 3.0 based on the blockchain, providing a clear perspective on its workflow and security mechanisms. A security protocol for Web 3.0 systems, employing privacy-preserving techniques and anonymous auditing during runtime, is proposed. Key components of our solution include the integration of privacy-enhancing techniques and the utilization of Tor for anonymous auditing. We discuss related work and propose a framework that meets these new security requirements. Lastly, we offer an evaluation and comparison of our model to existing methods. This research contributes towards the foundational understanding of Web 3.0's secure structure and offers a pathway towards secure and privacy-preserving digital interactions in this novel internet landscape.