Enabling inter-organizational analytics in business networks through meta machine learning

Abstract Successful analytics solutions that provide valuable insights often hinge on the connection of various data sources. While it is often feasible to generate larger data pools within organizations, the application of analytics within (inter-organizational) business networks is still severely...

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Bibliographic Details
Published in:Information technology and management 2023-06, p.1-25
Main Authors: Hirt, Robin, Kühl, Niklas, Martin, Dominik, Satzger, Gerhard
Format: Article
Language:English
Subjects:
Business network
Data confidentiality
Distributed analytics
Meta machine learning
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Summary:Abstract Successful analytics solutions that provide valuable insights often hinge on the connection of various data sources. While it is often feasible to generate larger data pools within organizations, the application of analytics within (inter-organizational) business networks is still severely constrained. As data is distributed across several legal units, potentially even across countries, the fear of disclosing sensitive information as well as the sheer volume of the data that would need to be exchanged are key inhibitors for the creation of effective system-wide solutions—all while still reaching superior prediction performance. In this work, we propose a meta machine learning method that deals with these obstacles to enable comprehensive analyses within a business network. We follow a design science research approach and evaluate our method with respect to feasibility and performance in an industrial use case. First, we show that it is feasible to perform network-wide analyses that preserve data confidentiality as well as limit data transfer volume. Second, we demonstrate that our method outperforms a conventional isolated analysis and even gets close to a (hypothetical) scenario where all data could be shared within the network. Thus, we provide a fundamental contribution for making business networks more effective, as we remove a key obstacle to tap the huge potential of learning from data that is scattered throughout the network.
ISSN:1573-7667
1385-951X
1573-7667
DOI:10.1007/s10799-023-00399-7