Machine Learning Algorithms for Enhancing Supplier Relationship Management in Retail: Techniques, Tools, and Real-World Case Studies

Authors

  • Mohit Kumar Sahu Independent Researcher and Senior Software Engineer, CA, USA Author

Keywords:

machine learning, supplier relationship management

Abstract

The ever-evolving landscape of retail necessitates the constant development and refinement of strategies for optimizing supplier relationships. This research investigates the transformative potential of machine learning algorithms in enhancing supplier relationship management (SRM) within the retail sector. By harnessing the power of data-driven insights, this study explores a comprehensive spectrum of machine learning techniques, along with the necessary tools and their practical implementation, to fortify collaborative partnerships, mitigate risks, and augment operational efficiency throughout the supply chain.

The research commences with a foundational exploration of the theoretical underpinnings of machine learning, emphasizing its particular relevance to the complexities of SRM in retail environments. This includes an in-depth examination of the core concepts of machine learning, such as supervised and unsupervised learning paradigms, algorithm selection strategies, and model evaluation techniques. Subsequently, the study proceeds to delineate a comprehensive taxonomy of machine learning algorithms that are particularly well-suited for application within various SRM domains.

A meticulous analysis is then undertaken to elucidate the integration of these algorithms into various SRM domains, including supplier selection, performance evaluation, risk assessment, and contract negotiation. For instance, the study explores how supervised learning algorithms, such as support vector machines (SVMs) and decision trees, can be leveraged to streamline supplier selection processes by analyzing historical purchase data, quality metrics, financial stability indicators, and past performance in sustainability initiatives to identify high-performing partners who are aligned with the retailer's environmental and social responsibility goals. In the realm of performance evaluation, the research investigates the application of unsupervised learning algorithms, such as k-means clustering and hierarchical clustering, to segment suppliers based on key performance indicators (KPIs) such as on-time delivery rates, defect rates, and responsiveness to communication. This segmentation empowers retailers to prioritize collaboration efforts and resource allocation strategies, focusing on nurturing relationships with high-performing suppliers while implementing targeted improvement plans for underperforming ones. Furthermore, the study delves into the application of advanced analytics and data mining tools in extracting actionable intelligence from complex supply chain data. These tools play a pivotal role in data pre-processing, feature engineering, and model training, ultimately empowering machine learning algorithms to uncover hidden patterns, generate robust predictions, and identify emerging risks within the supplier network.

To illuminate the practical utility of these methodologies, the research presents in-depth case studies of retail organizations that have successfully harnessed machine learning to achieve tangible improvements in SRM outcomes. These case studies serve as exemplars of best practices and offer valuable lessons for industry practitioners. By bridging the gap between theoretical constructs and real-world applications, this research contributes to the advancement of SRM practices in retail, empowering organizations to cultivate stronger, more resilient supply chains through the strategic deployment of machine learning technologies.

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References

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Published

05-05-2020

How to Cite

[1]
Mohit Kumar Sahu, “Machine Learning Algorithms for Enhancing Supplier Relationship Management in Retail: Techniques, Tools, and Real-World Case Studies ”, Distrib Learn Broad Appl Sci Res, vol. 6, pp. 227–271, May 2020, Accessed: Dec. 27, 2024. [Online]. Available: https://dlabi.org/index.php/journal/article/view/112

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