Towards bitcoin transaction anonymity with recurrent attack prevention

【Author】 Adu-Gyamfi, Daniel; Ansah, Albert Kofi Kwansah; Armah, Gabriel Kofi; Alornyo, Seth; Adom, Dominic Kwasi; Zhang, Fengli

【Source】INTERNATIONAL JOURNAL OF SYSTEM ASSURANCE ENGINEERING AND MANAGEMENT

【影响因子】0.000

【Abstract】The unprecedented financial and economic ledger performing bitcoin is continuously suffering from anonymity troubles. In bitcoin framework, users as nodes submit coins publicly in which transactions lead to privacy breaches resulting from recurrent attacks by malicious and/or dishonest nodes. Thereby, introducing anonymity into bitcoin transaction becomes an utmost necessity such that adversaries will find it relatively impossible to trace the transaction trajectories of the original bitcoin users. Thus, anonymity is seen to improve the difficulties in revealing the true identities of users, original transactions, transaction addresses and coins. Nonetheless, the perfectly honest condition of mixing services in the bitcoin framework is subjected to compromising attacks. Moreover, Lockmix model and other related mixing service schemes in recent decades are introduced to specifically secure bitcoin and to generally enhance the privacy and accountability framework of blockchain ecosystem. However, providing flexible anonymous and secure mixing services remain a challenge. Therefore, this paper adopts attribute-based signcryption scheme and further proposes Anonymix technique to obfuscates the true identity of clients and their coins prior to transacting with mixing services. The security protocol underlying the Anonymix technique overlays the existing Lockmix model technique to enhance flexibility and achieve complete anonymized bitcoin transaction. The proposed Anonymix technique is composed of properties such as unforgeability, confidentiality, fine-grained access control, authentication, privacy and public verifiability. Anonymix technique is compatible with bitcoin framework and supports trust requirement management for mixing services. Our theoretical analysis proves the Anonymix technique as secured against possible recurrent attacks in the bitcoin framework.

【Keywords】Anonymity; Attribute-based signcryption; Bitcoin; Blockchain; Overlay mixing protocol; Recurrent attacks

【发表时间】

【收录时间】2022-01-28

【文献类型】期刊

【主题类别】

区块链技术--