Abstract

Bitcoin becomes the focus of scientific research in the modern era. Blockchain is the underlying technology of Bitcoin because of its decentralization, transparency, trust-less and immutability features. However, blockchain can be considered the cause of Bitcoin scalability issues, especially storage. Nodes in the Bitcoin network need to store the full blockchain to validate transactions. Over time, the blockchain size will be bulky. So, the full nodes will prefer to leave the network. This leads to the blockchain being centralized and trusted and the security will be adversely affected. This paper proposes a Stateful Layered Chain Model based on storing accounts’ balances to reduce the Bitcoin blockchain size. This model changes the structure of the traditional blockchain from blocks to layers. The experimental results demonstrated that the proposed model reduces the blockchain size by about 50.6 %. Implicitly, the transaction throughput can also be doubled.

Details

Title
STATEFUL LAYERED CHAIN MODEL TO IMPROVE THE SCALABILITY OF BITCOIN
Author
Elwi, Dalia; Abu-Elnasr, Osama; Tolba, A S; Elmougy, Samir
Publication year
2023
Publication date
Jun 2023
Publisher
Scientific Research Support Fund of Jordan Princess Sumaya University for Technology
ISSN
24139351
e-ISSN
24151076
Source type
Scholarly Journal
Language of publication
Arabic; English
ProQuest document ID
2821939334
Copyright
© 2023. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the associated terms available at https://www.jjcit.org/page/Open-Access-Policy .