Collaborative Data Engineering: Utilizing ML to facilitate better collaboration among data engineers, analysts, and scientists

Authors

  • Muneer Ahmed Salamkar Senior Associate at JP Morgan Chase, USA Author

Keywords:

Collaborative Data Engineering, Machine Learning

Abstract

Collaborative data engineering is at the heart of modern data-driven organizations, bridging the gaps between data engineers, analysts, and data scientists to drive actionable insights. This synergy, however, often encounters challenges like fragmented workflows, misaligned priorities, and communication barriers across teams. Machine Learning (ML) offers a transformative approach to fostering collaboration by automating repetitive tasks, improving data quality, and enabling innovative tools that adapt to diverse needs. Through ML-powered data catalogues, teams can quickly discover and understand datasets, reducing time spent on manual exploration. Intelligent version control systems allow engineers and scientists to work concurrently on models and data pipelines, minimizing conflicts and improving transparency. Additionally, ML can identify anomalies in data pipelines and suggest optimizations, enabling teams to focus on innovation rather than firefighting issues. By integrating ML-driven collaboration tools into the data engineering lifecycle, organizations empower their teams to work seamlessly, whether building robust ETL pipelines, analyzing trends, or deploying predictive models. This approach accelerates the workflow and fosters a culture of trust and shared understanding among stakeholders. Leveraging machine learning for collaborative data engineering aligns technical efforts with business goals. This ensures that all teams contribute effectively to creating scalable, high-quality data solutions that fuel organizational success.

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Published

05-08-2024

How to Cite

[1]
Muneer Ahmed Salamkar, “Collaborative Data Engineering: Utilizing ML to facilitate better collaboration among data engineers, analysts, and scientists”, Australian Journal of Machine Learning Research & Applications, vol. 4, no. 2, pp. 147–169, Aug. 2024, Accessed: Dec. 22, 2024. [Online]. Available: https://sydneyacademics.com/index.php/ajmlra/article/view/212

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