Adaptive Shrink and Shard Architecture Design for Blockchain Storage Efficiency

One of the problems in the blockchain is the formation of increasingly large data (big data) because each block must store all the transactions it makes. With the problem of the appearance of extensive data (big data), many studies aim to maintain the data in small amounts. This research combines a...

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Main Authors: Daniel Soesanto, Igi Ardiyanto, Teguh Bharata Adji
Format: Article
Language:English
Published: Wiley 2024-01-01
Series:IET Computers & Digital Techniques
Online Access:http://dx.doi.org/10.1049/2024/2280828
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author Daniel Soesanto
Igi Ardiyanto
Teguh Bharata Adji
author_facet Daniel Soesanto
Igi Ardiyanto
Teguh Bharata Adji
author_sort Daniel Soesanto
collection DOAJ
description One of the problems in the blockchain is the formation of increasingly large data (big data) because each block must store all the transactions it makes. With the problem of the appearance of extensive data (big data), many studies aim to maintain the data in small amounts. This research combines a sorting data technique and a proper compression technique to obtain efficient data storage on the blockchain. The result of this research is a blockchain platform called Adaptive Shrink and Shard Blockchain (AS2BC), which conceptually and computationally can minimize the use of storage space in the blockchain up to 22 times smaller.
format Article
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institution Kabale University
issn 1751-861X
language English
publishDate 2024-01-01
publisher Wiley
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series IET Computers & Digital Techniques
spelling doaj-art-b07cd40f9a38452886b0856155a8f65d2025-02-03T05:56:54ZengWileyIET Computers & Digital Techniques1751-861X2024-01-01202410.1049/2024/2280828Adaptive Shrink and Shard Architecture Design for Blockchain Storage EfficiencyDaniel Soesanto0Igi Ardiyanto1Teguh Bharata Adji2Department of Informatics EngineeringDepartment of Electrical and Information EngineeringDepartment of Electrical and Information EngineeringOne of the problems in the blockchain is the formation of increasingly large data (big data) because each block must store all the transactions it makes. With the problem of the appearance of extensive data (big data), many studies aim to maintain the data in small amounts. This research combines a sorting data technique and a proper compression technique to obtain efficient data storage on the blockchain. The result of this research is a blockchain platform called Adaptive Shrink and Shard Blockchain (AS2BC), which conceptually and computationally can minimize the use of storage space in the blockchain up to 22 times smaller.http://dx.doi.org/10.1049/2024/2280828
spellingShingle Daniel Soesanto
Igi Ardiyanto
Teguh Bharata Adji
Adaptive Shrink and Shard Architecture Design for Blockchain Storage Efficiency
IET Computers & Digital Techniques
title Adaptive Shrink and Shard Architecture Design for Blockchain Storage Efficiency
title_full Adaptive Shrink and Shard Architecture Design for Blockchain Storage Efficiency
title_fullStr Adaptive Shrink and Shard Architecture Design for Blockchain Storage Efficiency
title_full_unstemmed Adaptive Shrink and Shard Architecture Design for Blockchain Storage Efficiency
title_short Adaptive Shrink and Shard Architecture Design for Blockchain Storage Efficiency
title_sort adaptive shrink and shard architecture design for blockchain storage efficiency
url http://dx.doi.org/10.1049/2024/2280828
work_keys_str_mv AT danielsoesanto adaptiveshrinkandshardarchitecturedesignforblockchainstorageefficiency
AT igiardiyanto adaptiveshrinkandshardarchitecturedesignforblockchainstorageefficiency
AT teguhbharataadji adaptiveshrinkandshardarchitecturedesignforblockchainstorageefficiency