Cloud-Native Data Warehousing: Implementing AI and Machine Learning for Scalable Business Analytics
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Keywords

cloud-native data warehousing
artificial intelligence
machine learning
business analytics
data lakes
data warehouses
performance optimization

How to Cite

[1]
J. Reddy Machireddy, S. Kumar Rachakatla, and P. Ravichandran, “Cloud-Native Data Warehousing: Implementing AI and Machine Learning for Scalable Business Analytics ”, Journal of AI in Healthcare and Medicine, vol. 2, no. 1, pp. 144–169, Feb. 2022, Accessed: Nov. 23, 2024. [Online]. Available: https://healthsciencepub.com/index.php/jaihm/article/view/78

Abstract

The advent of cloud-native data warehousing represents a paradigm shift in the realm of business analytics, driven by the need for scalable and efficient data management solutions. This paper delves into the integration of artificial intelligence (AI) and machine learning (ML) within cloud-native data warehousing systems, elucidating their role in enhancing the capabilities and performance of business analytics platforms. As organizations increasingly transition to cloud environments, the traditional on-premises data warehousing models are being supplemented or replaced by cloud-native architectures that leverage the inherent advantages of cloud computing, such as elasticity, scalability, and cost-effectiveness.

The integration of AI and ML into cloud-native data warehousing offers transformative potential for business analytics by enabling advanced data processing, predictive modeling, and automated decision-making. This study explores the architectural frameworks that facilitate the seamless incorporation of AI and ML technologies into cloud-native data warehousing environments. Key components of these architectures include data lakes, which serve as scalable repositories for vast amounts of raw data, and data warehouses, which organize and optimize data for analytical queries. The paper also examines the deployment strategies for these technologies, emphasizing the importance of a hybrid approach that combines the strengths of cloud-native platforms with AI-driven analytics tools.

Performance considerations are pivotal in the context of cloud-native data warehousing, as the efficiency of data processing and retrieval directly impacts the effectiveness of business analytics. The paper provides a comprehensive analysis of various performance metrics, including query response times, data throughput, and system scalability. It also discusses the role of AI and ML in optimizing these performance metrics through techniques such as automated data partitioning, indexing, and query optimization.

Furthermore, the study investigates case studies that highlight the practical applications of AI and ML in cloud-native data warehousing. These case studies illustrate how organizations across different industries have leveraged these technologies to achieve significant improvements in data analysis and business intelligence. By examining these real-world examples, the paper underscores the practical benefits and challenges associated with implementing AI and ML in cloud-native environments.

The paper also addresses several technical challenges associated with the deployment of AI and ML in cloud-native data warehousing systems. These challenges include data integration and quality issues, model training and validation, and the need for robust data governance and security measures. The discussion extends to the future directions of research and development in this field, emphasizing the potential for emerging technologies to further enhance the capabilities of cloud-native data warehousing systems.

Integration of AI and ML into cloud-native data warehousing represents a significant advancement in the field of business analytics. By leveraging the strengths of cloud computing and advanced analytical techniques, organizations can achieve more scalable, efficient, and insightful data analysis. This paper provides a thorough examination of the architectural, deployment, and performance considerations associated with this integration, offering valuable insights for both academic researchers and industry practitioners.

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References

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