Advancing Digital Supply Chains through Generative AI: A Strategic Framework with the ELECTRE III Method

Advancing Digital Supply Chains through Generative AI: A Strategic Framework with the ELECTRE III Method

This study evaluates the role of Generative AI in optimizing digital supply chain performance, focusing on IoT integration, predictive analytics, and blockchain security. The primary objective is to determine which AI-driven initiatives offer the greatest benefits in enhancing resilience and operat...

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Bibliographic Details
Main Authors: Fadoua Tamtam, Amina Tourabi
Format: Article
Language:English
Published: Riga Technical University Press 2025-07-01
Series:Complex Systems Informatics and Modeling Quarterly
Subjects:
Generative AI
ELECTRE III
Digital Supply Chain
Multi-Criteria Decision-Making
IoT-Driven Real-Time Tracking
Predictive Analytics
Online Access:https://csimq-journals.rtu.lv/csimq/article/view/329
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Summary:This study evaluates the role of Generative AI in optimizing digital supply chain performance, focusing on IoT integration, predictive analytics, and blockchain security. The primary objective is to determine which AI-driven initiatives offer the greatest benefits in enhancing resilience and operational efficiency. A structured multi-criteria decision-making approach is applied using the ELECTRE III method, leveraging quantitative data from DHL’s operational records (2022–2025). The evaluation is conducted with a panel of 18 industry experts, including logistics professionals and AI specialists, who participated in structured interviews and expert assessments to establish weighting criteria and performance metrics. Findings indicate that IoT-driven real-time tracking and predictive analytics for maintenance rank highest in enhancing supply chain resilience, improving operational responsiveness, and reducing downtime. Additionally, blockchain-supported security mechanisms reinforce data integrity and transparency, strengthening logistics security. Conversely, OCR-based automation and NLP-powered logistics systems demonstrate comparatively lower impact, emphasizing the need for targeted AI adoption strategies. This study contributes to structured AI evaluation methodologies by establishing a repeatable decision-making framework, ensuring scalability beyond DHL’s logistics operations. Limitations include the reliance on industry-specific datasets, which require further validation across diverse supply chain environments.
ISSN:2255-9922

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