OntoWEDSS: augmenting environmental decision-support systems with ontologies

Abstract This paper characterizes part of an interdisciplinary research effort on AI techniques applied to environmental decision-support systems. The architectural design of the OntoWEDSS decision-support system for wastewater management is presented. This system augments classic rule-based reasoning and case-based reasoning with a domain ontology, which provides a more flexible management capability to OntoWEDSS. The construction of the decision-support system is based on a specific case study. But the system is also of general interest, given that its ontology-underpinned architecture can be applied to any wastewater treatment plant and, at an appropriate level of abstraction, to other environmental domains. The OntoWEDSS system helps improve the diagnosis of faulty states of a treatment plant, provides support for complex problem-solving and facilitates knowledge modeling and reuse. In particular, the following issues are dealt with: (1) modeling information about wastewater treatment processes, (2) clarifying part of the existing terminological confusion in the domain, (3) incorporating ontology-modeled microbiologic knowledge related to the treatment process into the reasoning process and (4) creating a decision-support system that combines information through a novel integration between knowledge-based systems and ontologies.

[1]  Joaquim Comas Matas Development, implementation and evaluation of an activated sludge supervisory system for the Granollers WWTP , 2003 .

[2]  Luigi Ceccaroni,et al.  OntoWEDSS - An Ontology-based Environmental Decision-Support System for the management of Wastewater treatment plants , 2001 .

[3]  Miquel Sànchez-Marrè,et al.  DAI-DEPUR: an integrated and distributed architecture for wastewater treatment plants supervision , 1996, Artif. Intell. Eng..

[4]  Miquel Sànchez-Marrè,et al.  Knowledge Management in Environmental Decision Support Systems , 2001, AI Commun..

[5]  Ian Horrocks,et al.  OIL in a Nutshell , 2000, EKAW.

[6]  Luigi Ceccaroni Integration of a rule-based expert system, a case-based reasoner and an ontological knowledge-base in the wastewater domain , 2000 .

[7]  Enric Plaza,et al.  Knowledge Acquisition, Modeling and Management , 1997, Lecture Notes in Computer Science.

[8]  Tesi Doctoral,et al.  DAI-DEPUR: AN INTEGRATED SUPERVISORY MULTI-LEVEL ARCHITECTURE FOR WASTEWATER TREATMENT PLANTS , 1996 .

[9]  Miquel Sànchez-Marrè,et al.  WaWO: an ontology embedded into an environmental decision-support system for wastewater treatment plantmanagement , 2000 .

[10]  Bob J. Wielinga,et al.  Using explicit ontologies in KBS development , 1997, Int. J. Hum. Comput. Stud..

[11]  John F. Sowa,et al.  Knowledge representation: logical, philosophical, and computational foundations , 2000 .

[12]  Miquel Sànchez i Marrè Dai-depur: an integrated supervisory multi-level architecture for wastewater treatment plants , 1996 .

[13]  Luigi Ceccaroni,et al.  WaRP: A Reactive Planner Integrated in an Environmental Decision Support System fo Wastewater Treatment Plant Management , 2000, ECAI.

[14]  Heiner Stuckenschmidt Using OIL for Intelligent Information Integration , 2000 .

[15]  Luc Steels,et al.  Components of Expertise , 1990, AI Mag..