This study was conducted considering that there is a need to link these services someday at the time when various blockchain-based services are active.
In this study, for the interconnection of blockchain services, First, we studied Smart Consensus based on a consensus algorithm because...
This study was conducted considering that there is a need to link these services someday at the time when various blockchain-based services are active.
In this study, for the interconnection of blockchain services, First, we studied Smart Consensus based on a consensus algorithm because consensus must be reached between each blockchain service. The CBFT consensus algorithm used in this study showed better performance than other consensus algorithms in energy consumption, proof-of-safety, and proof of liveness, and consensus can be reached with only the minimum number of nodes of 2F+2.
Second, we studied Multichannel because it is necessary to enable private communication between each blockchain service.
Third, we studied a Smart Contract that can prove the interworking between blockchains.
Fourth, we researched the Blockchain Signature Infrastructure that can verify the interworking,
Lastly, we studied RadioStation for linking with external legacy system.
Through these research results, a test environment related to interworking of four blockchains was created, and transactions were generated, and each block hash value was verified in CircleChain to verify interoperability and data integrity.
It has been proven that blockchain interconnection for heterogeneous blockchain interworking is possible with the above elemental technology implementation. Although this study was able to secure key ideas and feasibility, additional research is needed to be applied to many systems. In the case of a hybrid blockchain interworking service model that links cryptocurrency and non-cryptocurrency, more research is required.
This study was conducted considering that there is a need to link these services someday at the time when various blockchain-based services are active.
In this study, for the interconnection of blockchain services, First, we studied Smart Consensus based on a consensus algorithm because consensus must be reached between each blockchain service. The CBFT consensus algorithm used in this study showed better performance than other consensus algorithms in energy consumption, proof-of-safety, and proof of liveness, and consensus can be reached with only the minimum number of nodes of 2F+2.
Second, we studied Multichannel because it is necessary to enable private communication between each blockchain service.
Third, we studied a Smart Contract that can prove the interworking between blockchains.
Fourth, we researched the Blockchain Signature Infrastructure that can verify the interworking,
Lastly, we studied RadioStation for linking with external legacy system.
Through these research results, a test environment related to interworking of four blockchains was created, and transactions were generated, and each block hash value was verified in CircleChain to verify interoperability and data integrity.
It has been proven that blockchain interconnection for heterogeneous blockchain interworking is possible with the above elemental technology implementation. Although this study was able to secure key ideas and feasibility, additional research is needed to be applied to many systems. In the case of a hybrid blockchain interworking service model that links cryptocurrency and non-cryptocurrency, more research is required.
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