Hostname: page-component-848d4c4894-r5zm4 Total loading time: 0 Render date: 2024-06-26T06:58:51.058Z Has data issue: false hasContentIssue false
  • English
  • Français

Artificial intelligence in business II: Development, integration and organizational issues*

Published online by Cambridge University Press:  07 July 2009

Daniel E. O'Leary  and
John Kingston
Daniel E. O'Leary
Affiliation:
School of Business, University of Southern California, Los Angeles, CA 90089-1421, USA
John Kingston
Affiliation:
AIAl, University of Edinburgh, 80 South Bridge, Edinburgh EHI IHN, Scotland
Get access Rights & Permissions [Opens in a new window]

Abstract

The purpose of this paper is to review the use of knowledge-based systems and artificial intelligence (AI) in business. Part I of this paper provided a broad survey of the use of AI in business, summarizing the application of AI in a number of business domains. In addition, it also provided a summary of the use of different forms of knowledge representation in business applications. Part I has a large set of references, including a number of survey papers, focusing on AI in business. Part II of this paper consists of more detailed analysis of particular systems or issues affecting AI in business. It examines technical issues which are central to the construction of business AI systems, and it also examines the commercial contribution made by methods for the development of AI systems. In addition, part II looks at integration between AI and more traditional information systems. AI can be used to add value to many existing information systems, such as database management systems. Particular attention is given to the integration of AI with operations research, which is the one of the primary “competitors” of AI, providing an alternative set of support tools for decision making.

Business organizations are not concerned only with technology issues; there is also concern about the impact of AI on organizations. Further, the evaluation of AI often is based on an economic view of the world. Part II therefore investigates the organizational impact of AI, and the economics of AI, including issues such as value creation. The format of Part II is as follows: Section 8 analyses techniques for improving the performance of AI systems, thus maximizing economic return. Section 9 looks at different forms of uncertainty and ambiguity which must be dealt with by AI systems. It examines the contributions of fuzzy logic and numerical measures of certainty to handling these problems. Section 10 examines the usefulness of different approaches to knowledge acquisition in business situations, and investigates the benefits of methodological approaches to AI applications. It also looks at more recent AI programming techniques which eliminate the need for knowledge elicitation from an expert: neural networks, case-based reasoning and genetic algorithms are discussed. Sections 11 and 12 examine issues of integrating AI systems. Generally, the use of AI in business settings must ultimately be integrated with the broader base of corporate information systems. Section 11 looks at integration with information systems in general, and section 12 looks particularly at integration with operations research. Sections 13 and 14 review the organizational and economic impact of AI. Finally, section 15 provides a brief summary of part II.

Type
Research Article
Information
The Knowledge Engineering Review , Volume 9 , Issue 1 , March 1994 , pp. 1 - 19
Copyright
Copyright © Cambridge University Press 1994

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Acorn, TL and Walden, SH, 1992. “SMART: Support Management Automated Reasoning Technology for Compaq customer service”. In: Scott, AC and Klahr, P (eds.). Innovative Applications of Artificial Intelligence 4, pp 318. AAAI Press.Google Scholar
Anand, T and Kahn, G, 1992. “Making sense of gigabytes: A system for knowledge-based market analysis”. In: Scott, AC and Klahr, P (eds.), Innovative Applications of Artificial Intelligence 4, pp 5769. AAAI Press.Google Scholar
Anderson, G (ed.), 1993. AIRING 16. AIAI, University of Edinburgh, Scotland.Google Scholar
Anjewierden, A, Wielemaker, J and Toussaint, C, 1989. “Shelley—Computer aided knowledge engineering”. In: Wielinga, et al. (eds.), Current Trends in Knowledge Acquisition, pp 4159. IOS Press.Google Scholar
Arthur, Anderson, 1985a. “ELOISE Project Report”. Unpublished report.Google Scholar
Arthur, Anderson, 1985b. “Financial Statement Analyzer”. Unpublished report.Google Scholar
Ashley, KD and Aleven, V, 1991. “A computational approach to explaining case-based concepts of relevance in a tutorial context”. In: Proceedings of the Case-based Reasoning Workshop. Washington, DC. DARPA.Google Scholar
Bain, J, 1968. Industrial Organization. New York, NY: Wiley.Google Scholar
Boose, JH, 1989. “A survey of knowledge acquisition techniques and tools”. Knowledge Acquisition 1(1).CrossRefGoogle Scholar
Buchanan, B and Shortliffe, EH, 1984. Rule-based Expert Systems. Reading, MA: Addison Wesley.Google Scholar
Burton, AM, Shadbolt, NR, Rugg, G and Hedgecock, AP, 1988. “Knowledge elicitation techniques in classification domains”. In: Proceedings of ECAI-88: The 8th European Conference on Artificial Intelligence.Google Scholar
Cadas, CN, 1989. “Meeples—an expert system for scheduling meetings”. In: Shadbolt, N (ed.), Research and Development in Expert Systems VI, pp 207–19. Cambridge: Cambridge University Press.Google Scholar
Chung, PWH and Inder, R, 1991. “Handling Uncertainty in Accessing Petroleum Exploration Data”. Technical Report AIAI-TR-95, AIAI, University of Edinburgh.Google Scholar
Colin, AM, 1992. “Neural networks and genetic algorithms for exchange rate forecasting”. In: Proceedings of the lnternational Joint Conference on Neural Networks. Beijing, China.Google Scholar
Davis, D, 1987. “Artificial intelligence goes to work”. High Technology.Google Scholar
Dean, T and Boddy, M, 1988. “Reasoning about partially ordered events”. Artificial Intelligence 36 (3).CrossRefGoogle Scholar
Duchessi, P.Shawky, H and Seagle, J. 1988. “A knowledge-engineered system for commercial loan decisions”. Financial Management 17 (3) 5765.CrossRefGoogle Scholar
Duchessi, P, O'Keefe, R and O'Leary, D, 1993. “A research perspective on artificial intelligence, management and organizations”. International Journal of Intelligent Systems in Accounting, Finance and Managenent 2 (3).Google Scholar
Fabozzi, F and Valenta, J, 1976. “Mathematical programming in American companies: A sample survey”. Interfaces 7 9398.CrossRefGoogle Scholar
Fang, H, Corne, D and Mellish, C, 1993. “Solving the modular exam scheduling problem using genetic algorithms”. In: Proceedings of the 6th International Conference on Industrial and Engineering Applications of Artificial Intelligence and Expert Systems. Edinburgh, Scotland. (Also available from Department of Artificial Intelligence, University of Edinburgh.)Google Scholar
Feigcnbaum, E, McCorduck, P and Nii, P, 1989. The Rise of the Expert Company. New York, NY: McGraw- Hill.Google Scholar
Fraser, J, 1993. “The Enterprise Project”. AIRING (16) 68.Google Scholar
Fruhan, W, 1979. Financial Strategy. Homewood, IL: Irwin.Google Scholar
Gaines, BR, 1976. “Foundations of fuzzy reasoning”. International Journal of Man–Machine Studies (8) 623668.CrossRefGoogle Scholar
Hansen, J and Messier, W, 1986. “A preliminary investigation of EDP-XPERT”. Auditing: A Journal of Theory and Practice 6 (1) 374.Google Scholar
Harmon, P (ed.), 1992. Intelligent Software Strategies. Number VIII, 7.Google Scholar
Harmon, P (ed.), 1993. Intelligent Software Strategies. Number IX, 4.Google Scholar
Harmon, P (ed), 1993. Intelligent Soft ware Strategies. Number IX, 9.Google Scholar
Hart, A, 1988. Expert Systems for Managers. Kogan Page.Google Scholar
Hennessey, D and Hinkle, D, 1991. „Initial results from Clavier: A case-based autoclave loading assistant”. In: Proceedings of the Case-based Reasoning Workshop. Washington, DC. DARPA.Google Scholar
Hiemstra, Y, 1993. “A fuzzy logic model for the prediction of quarterly stock market excess returns”. In: Third International Conference on Artificial Intelligence on Economics and Management. Portland, OR.Google Scholar
Hogarth, R, 1985. Judgement and Choice. Chichester, UK: Wiley.Google Scholar
Inder, R and Filby, I, 1991. “A survey of knowledge engineering methods and supporting tools”. In: Proceedings of the BCS SGES Workshop on Methodologies for Intelligent Systems. London, UK. (Also available from AIAI as AIAI-TR-99.)Google Scholar
Johnson, L and Keravnou, E, 1985. Expert Systems Technology. Abacus Press.Google Scholar
Jones, AJI and Sergot, M, 1992. “Deontic logic in the representation of law: Towards a methodology”. Artificial Intelligence and Law 1 (1) 4564.CrossRefGoogle Scholar
LeCun, Y et al. , 1989. “Backpropagation applied to hand written zip code recognition”. Neural Computation 1 (4) 541551.CrossRefGoogle Scholar
Loufbourrow, T, 1992. “Advanced trading technologies: AI on Wall Street & world wide”. Intelligent Software Strategies.Google Scholar
McBride, R and O'Leary, D, 1993. “Integrating artificial intelligence and mathematical programming”. European Journal of Operational Research Vol 79, pp. 115.CrossRefGoogle Scholar
McBride, R, O'Leary, D, and Widmeyer, G, 1989. “A knowledge-based system for cash management using management science expertise”. Annals of Operations Research.CrossRefGoogle Scholar
Merry, M and Prettejohn, M, 1988. “EDWIN: A knowledge-based system for chart analysis”. In: Proceedings of the 8th International Conference on Expert Systems and their Applications. Number 2, pp 159169. Avignon, France.Google Scholar
Moon, CS, Moore, TM and Nassar, SM, 1993. “Managing product quality by integrating operations research and artificial intelligence technologies”. In: Klahr, P and Byrnes, E (eds.), Proceedings of the Fifth Innovative Applications of Artificial Intelligence Conference, pp 126141. AAAI Press.Google Scholar
Mui, C and McCarthy, W, 1987Applying AI techniques to the familiarization phase of decision making’. IEEE Expert 2 (3) 3341.CrossRefGoogle Scholar
Newquist, H, 1987. “American Express and Al: Don't leave home without them”. Al Expert 6365.Google Scholar
Nguyen, TA, 1987. “Verifying consistency of production systems”. In: Proceedings of the Third Conference on Al Applications. Washington, DC.Google Scholar
Nguyen, T, Czerwinski, M and Lee, D, 1993. “COMPAQ Quick Source: Providing the consumer with the power of artificial intelligence”. In: Klahr, P and Byrnes, E (eds.), Innovative Applications of Artificial Intelligence 5, pp 142151.Google Scholar
O'Leary, D and Watkins, P, 1992. “Integration of intelligent systems and conventional systems: Requirements for coordinating multiple agents for diagnostic decisions”. International Journal of Intelligent Systems in Accounting, Finance and Management 1 (2) 135150.Google Scholar
O'Leary, D, 1990. “The use of imprecise language in knowledge-based systems for auditing judgment”. Paper presented at the American Accounting Association National Meeting.Google Scholar
O'Leary, D, 1991. “Artificial intelligence in accounting databases”. Expert Systems with Applications Vol 3.CrossRefGoogle Scholar
O'Leary, D, 1992. “Ordering Rules and Conditions in Economic Systems”. Unpublished Working Paper.Google Scholar
O'Leary, D, 1994a. “The Impact of Semantic Ambiguity on Baysian Weights”. European Journal of Operational Research, forthcoming.Google Scholar
O'Leary, D, 1994b. “Value creation from expert system: An economic approach with applications in accounting, auditing and finance”. In: Artificial Intelligence in Economics and Business Administration. (Presented at the University of Pennsylvannia, 02 1990.)Google Scholar
Porter, M, 1980. Competitive Strategy. New York, NY: Free Press.Google Scholar
Porter, D, 1992. “Reusable analysis and design components for knowledge based system development”. In: Wetter, Th et al. (eds.), Current Developments in Knowledge Acquisition: EKAW-92. Berlin, Germany: Springer-Verlag.Google Scholar
Ribar, G, 1988. “Development of an expert system”. Expert Systems Review 38.Google Scholar
Sanders, KE, 1991. “Within the letter of the law: Reasoning among multiple cases”. In: Proceedings of the Case-based Reasoning Workshop. Washington, DC. DARPA.Google Scholar
Schmucker, KJ, 1984. Fuzzy Sets, Natural Language Computations and Risk Analysis. Computer Science Press.Google Scholar
Scott, AC and Klahr, P (eds.), 1992. Innovative Applications of Artificial Intelligence 4. AAAI Press.Google Scholar
Shadbolt, N and Burton, AM, 1990. “Knowledge elicitation”. In: Wilson, J and Corlett, N (eds.), Evaluation of Human Work: A Practical Ergonomics Methodology, pp 32346. London, UK: Taylor and Francis.Google Scholar
Shaw, MLG and Gaines, BR, 1987. “An interactive knowledge elicitation technique using personal construct technology”. In: Kidd, A (ed), Knowledge Acquisition for Expert Systems: A Practical Handbook. London, UK: Plenum Press.Google Scholar
Shpilberg, D and Graham, L, 1986. “ExperTax: Developing ExperTax: An expert system for corporate tax accrual and planning”. Auditing: A Journal of Theory and Practice.CrossRefGoogle Scholar
Shpilberg, D, Graham, L and Schatz, H, 1986. “ExperTax: An expert system for corporate tax planning”. Expert Systems.CrossRefGoogle Scholar
Skalak, DB and Rissland, EL, 1992. “Arguments and cases: An inevitable intertwining”. Artificial Intelligence and Law 1 (1) 344.CrossRefGoogle Scholar
Stader, J, 1992. “Applying neural networks”. Technical Report AIAI-IR-11, AIAI, University of Edinburgh.Google Scholar
Steinbart, P, 1985. The construction of an expert system to make materiality judgments. Unpublished PhD thesis, Michigan State University.Google Scholar
Sviokla, J, 1990. “ExperTAX: Coopers and Lybrand's Tax Accrual and Tax Planning Expert System”. Technical report, Harvard Business School Case.Google Scholar
Szolovits, P, 1983. “Artificial intelligence in medicine”. In: AASS Selected Symposium. Washington, DC.Google Scholar
Tenor, W, 1988. “Expert systems for computer security”. Expert Systems Review 1 (2) 36.Google Scholar
Trewin, J, 1991. The impact of an expert system on a professional accounting organization. Unpublished PhD thesis, Michigan State University.Google Scholar
Turbin, E and Watkins, P, 1986. “Integrating expert systems and decision support systems”. Management information Systems Quarterly.CrossRefGoogle Scholar
Watkins, P and O'Leary, D, 1993. “Integrating intelligent technologies into conventional information systems:”. In: Expert Systems in Business and Finance: Issues and Applications. Chichester, UK: Wiley.Google Scholar
White, H, 1988. “Economic prediction using neural networks: the case of IBM daily stock returns”. In: Proceedings of the IEE international Conference on Neural Networks, volume 2, pp 451459.CrossRefGoogle Scholar
Wielinga, BJ, Schreiber, ATh and Breuker, JA, 1992. “KADS: A modelling approach to knowledge engineering”. Knowledge Acquisition 4 (1).CrossRefGoogle Scholar
Williamson, O, 1975. Markets and Hierarchies: Analysis and Antitrust Implications. London, UK: The Free Press.Google Scholar
Willingham, J and Ribar, G, 1988. Development of an Expert Audit System for Loan Loss Evaluation. Reston, VA: Arthur Young.Google Scholar
Winston, P, 1984. Artificial Intelligence. Reading, MA: Addison-Wesley.Google Scholar