André Augusto scite author profile

et al. 2023

Preprint

The last few years have seen a steep increase in blockchain interoperability research. Most solutions connect public blockchains; hence, the main cross-chain use case is token transfer. By-design platform transparency, tamper-resistance, and auditability make blockchains an infrastructure candidate for Central Bank Digital Currencies (CBDCs), but bridging CBDCs is an important missing piece in general. In this paper, we leverage an asset transfer protocol, ODAP/SATP, to define an extendable and dependable blockchain interoperability middleware that can bridge CBDC from Hyperledger Fabric to EVM-based permissioned blockchains. The key interoperation enabler in the solution is a shared asset definition enforced by both sides of the bridge, accompanied by a mapping between Fabric Identities and Ethereum addresses for Identity management. We implement our design for the CBDC use case utilizing Hyperledger Cactus. Through a preliminary performance evaluation, we show that the underlying ledgers heavily influence the latency of the solution, not the bridging components.

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CBDC bridging between Hyperledger Fabric and permissioned EVM-based blockchains

Augusto¹,

Belchior²,

Vasconcelos³

et al. 2023

Preprint

1

0

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The last few years have seen a steep increase in blockchain interoperability research. Most solutions connect public blockchains; hence, the main cross-chain use case is token transfer. By-design platform transparency, tamper-resistance, and auditability make blockchains an infrastructure candidate for Central Bank Digital Currencies (CBDCs), but bridging CBDCs is an important missing piece in general. In this paper, we leverage an asset transfer protocol, ODAP/SATP, to define an extendable and dependable blockchain interoperability middleware that can bridge CBDC from Hyperledger Fabric to EVM-based permissioned blockchains. The key interoperation enabler in the solution is a shared asset definition enforced by both sides of the bridge, accompanied by a mapping between Fabric Identities and Ethereum addresses for Identity management. We implement our design for the CBDC use case utilizing Hyperledger Cactus. Through a preliminary performance evaluation, we show that the underlying ledgers heavily influence the latency of the solution, not the bridging components.

show abstract

CBDC bridging between Hyperledger Fabric and permissioned EVM-based blockchains

Augusto¹,

Belchior²,

Vasconcelos³

et al. 2023

Preprint

0

View full text Add to dashboard Cite

The last few years have seen a steep increase in blockchain interoperability research. Most solutions connect public blockchains; hence, the main cross-chain use case is token transfer. By-design platform transparency, tamper-resistance, and auditability make blockchains an infrastructure candidate for Central Bank Digital Currencies (CBDCs), but bridging CBDCs is an important missing piece in general. In this paper, we leverage an asset transfer protocol, ODAP/SATP, to define an extendable and dependable blockchain interoperability middleware that can bridge CBDC from Hyperledger Fabric to EVM-based permissioned blockchains. The key interoperation enabler in the solution is a shared asset definition enforced by both sides of the bridge, accompanied by a mapping between Fabric Identities and Ethereum addresses for Identity management. We implement our design for the CBDC use case utilizing Hyperledger Cactus. Through a preliminary performance evaluation, we show that the underlying ledgers heavily influence the latency of the solution, not the bridging components.

show abstract

CBDC Bridging between Hyperledger Fabric and Permissioned EVM-based Blockchains

Augusto¹,

Belchior

²

,

Kocsis³

et al. 2023

4

0

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The last few years have seen a steep increase in blockchain interoperability research. Most solutions connect public blockchains, where the main cross-chain use case is token transfer. By-design platform transparency, tamper resistance, and auditability make blockchains a candidate infrastructure for Central Bank Digital Currencies (CBDCs), but bridging CBDCs is an important missing piece in that scenario. In this paper, we leverage an asset transfer protocol, SATP, to define an extendable and dependable blockchain interoperability middleware that can bridge CBDC between Hyperledger Fabric and EVM-based permissioned blockchains. The key interoperation enabler in the solution is a shared asset definition enforced by both sides of the bridge, accompanied by a mapping between Fabric identities and Ethereum addresses for identity management. We implemented our design using Hyperledger Cacti. A preliminary evaluation shows that latency is more influenced by the ledgers than the bridging components.

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Multi-Party Cross-Chain Asset Transfers

Augusto¹,

Belchior²,

Hardjono³

et al. 2023

Preprint

0

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With the growing interest in blockchain technology, researchers and developers in different industries are shifting their attention to creating interoperability mechanisms. Existing mechanisms usually encompass asset exchanges, asset transfers, and general data transfers. However, most of the solutions based on these mechanisms only work for two permissionless blockchains falling short in use cases requiring more complex business relationships. Also, contrary to existing legacy systems, there is little standardization for cross-chain communication. Here we present MP-SATP, a resilient multi-party asset transfer protocol built on top of the Secure Asset Transfer Protocol (SATP). Furthermore, we enhance SATP's crash recovery mechanism that directly influences the reliability and performance of our solution. Using MP-SATP, we show how to perform N-to-N resilient asset transfers in permissioned environments by decoupling them into multiple 1-to-1 asset transfers. Our results demonstrate that the latency of the protocol is driven by the latency of the slowest 1-to-1 session; and how the usage of backup gateways avoid the overhead caused by rollbacks. Enterprise-grade environments such as supply-chain management systems can immediately leverage our solution to perform atomic multi-party asset transfers as shown by our use case.

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André Augusto

CBDC bridging between Hyperledger Fabric and permissioned EVM-based blockchains

CBDC bridging between Hyperledger Fabric and permissioned EVM-based blockchains

CBDC bridging between Hyperledger Fabric and permissioned EVM-based blockchains

CBDC Bridging between Hyperledger Fabric and Permissioned EVM-based Blockchains

Multi-Party Cross-Chain Asset Transfers

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