Alpha 2.0
Login Register
» Articles » PMID: 9929181

Modern Architectures for Intelligent Systems: Reusable Ontologies and Problem-solving Methods

Overview
Journal Proc AMIA Symp
Specialty Medical Informatics
Date 1999 Feb 3
PMID 9929181
Citations 6
Authors
M A Musen
Affiliations
Soon will be listed here.
Abstract

When interest in intelligent systems for clinical medicine soared in the 1970s, workers in medical informatics became particularly attracted to rule-based systems. Although many successful rule-based applications were constructed, development and maintenance of large rule bases remained quite problematic. In the 1980s, an entire industry dedicated to the marketing of tools for creating rule-based systems rose and fell, as workers in medical informatics began to appreciate deeply why knowledge acquisition and maintenance for such systems are difficult problems. During this time period, investigators began to explore alternative programming abstractions that could be used to develop intelligent systems. The notions of "generic tasks" and of reusable problem-solving methods became extremely influential. By the 1990s, academic centers were experimenting with architectures for intelligent systems based on two classes of reusable components: (1) domain-independent problem-solving methods-standard algorithms for automating stereotypical tasks--and (2) domain ontologies that captured the essential concepts (and relationships among those concepts) in particular application areas. This paper will highlight how intelligent systems for diverse tasks can be efficiently automated using these kinds of building blocks. The creation of domain ontologies and problem-solving methods is the fundamental end product of basic research in medical informatics. Consequently, these concepts need more attention by our scientific community.

Citing Articles

Development and Validation of a Functional Behavioural Assessment Ontology to Support Behavioural Health Interventions.

Merlo G, Chiazzese G, Taibi D, Chifari A JMIR Med Inform. 2018; 6(2):e37.

PMID: 29853438 PMC: 6002668. DOI: 10.2196/medinform.7799.

A comparison of two methods for retrieving ICD-9-CM data: the effect of using an ontology-based method for handling terminology changes.

Yu A, Cimino J J Biomed Inform. 2011; 44(2):289-98.

PMID: 21262390 PMC: 3440000. DOI: 10.1016/j.jbi.2011.01.005.

A reusable framework for health counseling dialogue systems based on a behavioral medicine ontology.

Bickmore T, Schulman D, Sidner C J Biomed Inform. 2011; 44(2):183-97.

PMID: 21220044 PMC: 3063319. DOI: 10.1016/j.jbi.2010.12.006.

A knowledge based search tool for performance measures in health care systems.

Beyan O, Baykal N J Med Syst. 2010; 36(1):201-21.

PMID: 20703735 DOI: 10.1007/s10916-010-9459-2.

OpenSDE: Row modeling applied to generic structured data entry.

Los R, van Ginneken A, de Wilde M, van der Lei J J Am Med Inform Assoc. 2003; 11(2):162-5.

PMID: 14662800 PMC: 353023. DOI: 10.1197/jamia.M1375.

References
1.
Musen M . Dimensions of knowledge sharing and reuse. Comput Biomed Res. 1992; 25(5):435-67. DOI: 10.1016/0010-4809(92)90003-s. View
2.
Musen M, Schreiber A . Architectures for intelligent systems based on reusable components. Artif Intell Med. 1995; 7(3):189-99. DOI: 10.1016/0933-3657(95)00003-o. View
3.
Hripcsak G, Ludemann P, Pryor T, Wigertz O, Clayton P . Rationale for the Arden Syntax. Comput Biomed Res. 1994; 27(4):291-324. DOI: 10.1006/cbmr.1994.1023. View
4.
Musen M, Gennari J, Eriksson H, Tu S, Puerta A . PROTEGE-II: computer support for development of intelligent systems from libraries of components. Medinfo. 1995; 8 Pt 1:766-70. View
5.
Musen M, Tu S, Das A, Shahar Y . EON: a component-based approach to automation of protocol-directed therapy. J Am Med Inform Assoc. 1996; 3(6):367-88. PMC: 116322. DOI: 10.1136/jamia.1996.97084511. View