Article contents
Decentralized Digital Art Platforms: Architecture and Implementation Using Java Cloud Microservices
Abstract
This article examines the architectural foundations and implementation strategies for decentralized digital art platforms built using Java-based microservices in cloud environments. The article explores how these technologies converge to create robust infrastructures that support the unique requirements of blockchain-integrated creative marketplaces. The article analyzes the evolution from centralized platforms to decentralized ecosystems, identifying key components including wallet authentication services, content management systems, marketplace operation engines, and analytics frameworks. Particular attention is given to the technical challenges of maintaining consistency between on-chain and off-chain data, scaling during high-demand periods, and implementing effective cross-chain interoperability. The article presents architectural patterns and best practices derived from existing implementations, highlighting the advantages of reactive programming models, event-driven communication, and containerized deployments. Case studies offer a comparative analysis of leading platforms, revealing how technical design choices impact both system performance and marketplace dynamics. The article of future directions identifies emerging standards, governance mechanisms, and machine learning integration as pivotal areas for ongoing development. The article provides valuable insights for system architects and developers seeking to build resilient, scalable, and user-friendly decentralized platforms that empower artists while maintaining technical excellence.
Article information
Journal
Journal of Computer Science and Technology Studies
Volume (Issue)
7 (6)
Pages
1065-1073
Published
Copyright
Open access

This work is licensed under a Creative Commons Attribution 4.0 International License.