Artificial intelligence-based smart cloud computing schema model

In the contemporary digital era, cloud computing offers an ideal platform for artificial intelligence (AI) applications by providing the necessary computational power, memory, and scalability to handle the massive volumes of data required by intelligent algorithms. AI systems enable computing devices to make expert-level decisions by effectively leveraging information. However, challenges, related to adaptability, efficiency, privacy preservation, and the latent requirement for minimal user intervention remain critical. Notably, error detection efficiency can be improved by distributing data across multiple cloud storage services, akin to spreading data across physical disk drives. Nevertheless, continuously optimizing the performance and cost-efficiency of multiple cloud providers remains a complex task, due to varying pricing models and service quality levels. This paper aims to clarify how rule enforcement for distributed systems can be improved through the use of diverse cloud hosting services guided by authorization patterns. We propose an Effective AI Architecture for File Distribution Enhancement (EAIFDE), which aims to minimize costs and waiting times across various cloud platforms. The proposed architecture is validated using a cloud storage system simulator to evaluate the operational complexity and performance differences among multiple providers.