Building operation and maintenance scheme based on sharding blockchain

Blockchain can ensure data security and reliability during the stage of building operation and maintenance (BOM), provide reliable data for decision-making. However, existing schemes based on single-chain architecture have the problems of storage limitation and scalability, and ignore the impact of event's priority and real-time on blockchain transaction. Therefore, for BOM, this paper provides a BOM framework based on sharding blockchain (SBC-BOMF), which constructs two-layer architecture based on master-chain and multiple shards, relieves the storage pressure of blockchain nodes and improves the concurrency capability. Priority-based transaction handling strategy is designed to achieve reasonable and rapid response for multi-level transactions. Finally, an actual BOM project is taken as example to illustrate the effectiveness of proposed scheme; experiments are conducted for performance testing and evaluation. Results show that proposed scheme can effectively solve the scalability problem caused by the application of blockchain in BOM, reduce storage overhead, and realize efficient handling for blockchain transactions.

Automated summary

This paper proposes a BOM framework based on sharding blockchain (SBC-BOMF) to solve the storage limitation and scalability issues in the application of blockchain in building operation and maintenance. It considers the impact of event's priority and real-time on blockchain transactions and designs a priority-based transaction handling strategy for multi-level transactions. The experimental results demonstrate that the proposed scheme effectively solves the scalability problem, reduces storage overhead, and achieves efficient handling for blockchain transactions in BOM.