This paper explores the potential of Distributed Ledger Technologies (DLT) to support solidarity networks such as service exchange networks. Traditional centralized platforms often face challenges regarding privacy, security, and resource limitations. We propose a novel approach based on block typing, emphasizing modularity and cost-efficiency. This paper introduces Dynamic Block Typing, as an extension of Nano’s block-lattice structure, to support decentralized applications. Through the case study of the Accordrerie, a Quebec-based solidarity cooperative, we illustrate our proposal with a simple scenario of burnt-out light bulb replacement. This approach offers a scalable and flexible model for a wide range of applications, ensuring accessibility through lightweight and feeless technologies.

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Dynamic Block Typing to Favour High Modularity in Feeless and Lightweight Distributed Ledger Technologies

  • Baptiste Beltzer,
  • Emmanuel Conchon,
  • Sylvain Giroux

摘要

This paper explores the potential of Distributed Ledger Technologies (DLT) to support solidarity networks such as service exchange networks. Traditional centralized platforms often face challenges regarding privacy, security, and resource limitations. We propose a novel approach based on block typing, emphasizing modularity and cost-efficiency. This paper introduces Dynamic Block Typing, as an extension of Nano’s block-lattice structure, to support decentralized applications. Through the case study of the Accordrerie, a Quebec-based solidarity cooperative, we illustrate our proposal with a simple scenario of burnt-out light bulb replacement. This approach offers a scalable and flexible model for a wide range of applications, ensuring accessibility through lightweight and feeless technologies.