A case-based reasoning tool to recommend drinking water source protection actions

In response to a need expressed by water actors to support them in identifying appropriate actions for protecting drinking water sources, we modelled, designed, implemented, tested, and validated a prototype case-based reasoning (CBR) system. This required an intensive knowledge acquisition and stru...

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Bibliographic Details
Published in:Journal of environmental management 2023-04, Vol.331, p.117228-117228, Article 117228
Main Authors: Cerutti, Jérôme, Abi-Zeid, Irène, Lamontagne, Luc, Lavoie, Roxane, Rodriguez-Pinzon, Manuel J.
Format: Article
Language:English
Subjects:
Canada
Case-based reasoning
Decision support
Design science research
Drinking Water
Drinking water source protection
Government
Quebec
Water management
Water Supply
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Summary:In response to a need expressed by water actors to support them in identifying appropriate actions for protecting drinking water sources, we modelled, designed, implemented, tested, and validated a prototype case-based reasoning (CBR) system. This required an intensive knowledge acquisition and structuring process which we conducted in collaboration with 102 water management and governance actors in Quebec, Canada. Knowledge was organized in a case base containing nearly 200 past experiences implementing water protection actions at different decision-making scales (local, regional, provincial), by various organizations (government, municipalities, water-related associations), over the last two decades. This paper describes our case engineering process to design case attributes based on content analysis. It presents the case edition, the case retrieval process, and the prototype's implementation and validation, conducted through a rigorous and transparent participatory procedure. This is, to our knowledge, the first successful attempt to apply a CBR approach to support water actors in protecting drinking water sources. It provides empirical evidence of the positive potential of such an approach for knowledge sharing and transfer and can be generalized to other similar contexts. •A successful DSR process implementing a CBR approach for drinking water source protection is presented.•The designed prototype CBR system (Q.SyAPSE) is depicted.•A collaborative manual case engineering process to design qualitative attributes is put forward.•A qualitative testing and validation procedure with water actors is described.•The CBR approach proved to provide relevant solutions for drinking water source protection.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2023.117228