Abstract
Real time applications to control industrial, medical, scientific, consumer, environmental and other processes is rapidly growing. Today such systems can be found in nuclear power stations, computer-controlled chemical plants, flight control, etc.. This growth however, has also brought to the forefront some of problems with the existing technologies. These problems have pushed for research into new techniques which could be used for solving these problems. 1991; Liu et al. 1992). The problems range from the enormous size of the power system to the fast response time constraints in emergency situations. This is the primary reason for selecting this domain as the domain of application.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Amelink, H., Forte, A. M. and Guberman, R. P. (1986), “Dispatcher Alarm and Messa ge Processing,” IEEE Transactions on Power Systems, August vol. PWRS-1, pp. 188–194.
Bijoch, R. W., Harris, S. H. and vol.man, T. L. (1991), “Development and Implementation of the NSP Intelligent Alarm Processor,” IEEE Transactions on Power systems, May, vol. 6. pp. 806–812.
Chan, E. H. P. (1989) “Application of Neural Network Computing in Intelligent Alarm Processing,” Proceedings of Power Industry Computer Applications Conference, pp. 246–251.
Chan, E. H. P., (1990), “Using Neural Networks to Interpret Multiple Alarms,” in IEEE Computer Applications in Power, April, pp. 33–37.
Dillon, T. (1991), “Survey on Expert Systems in Alarm Handling,” Electra, no. 139, pp. 133–147.
Durocher, D. (1990), “Language: an Expert System for Alarm Processing,” Eleventh Biennial IEEE Workshop on Power Systems Control Centers, September, pp. 19–21.
Eickhoff, F. Handschin, E. and Hoffmann, W. (1991), “Knowledge Based Alarm Handling and Fault location in Distributed Networks,” Proceedings of the Conference on Power Industry Computer Applications, pp. 495–498.
Electrical World, (1990), “How Much can a Solar Storm Cost?,” September, pp. 9–11.
EPRI — Electrical Power Research Institute, Palo Alto, CA, Report no. EL-1 960, vol. 1–6, 1983, “Human Factors Review of Electric Power Dispatch Control C enters“.
Ewart, D. N., (1978), “Whys and wherefores of Power System Blackouts,” IEEE Spectrum, April, pp. 36–41.
Inoue, N., Fujii, T., Shinohara, J., Mochizuki, K. and Kajiwara, Y. (1989), “An Expert System for Intelligent Alarm Processing in EMS and SCADA Systems,” Second Symposium On Expert System Applications to Power Systems, July, pp. 89–95.
Jongepier, A. G., Dijk, H. E. and Sluis, L. V. D. (1991), “Neural Networks Applied to Alarm Processing,” Third International Symposium on Expert System Applications to Power Systems, Tokyo, Japan, pp. 615–620.
Kirschen, D. S. (1988), “Artificial Intelligence Applications in Energy Management Systems Environment,” First Symposium on Expert Systems Applications in Power Systems, pp. 17.1–17.6.
Kirschen, D. S., Wollenberg, B. F., Irisarri, G. D., Bann, J.J. and Miller, B. N. (1989), “Controlling Power Systems During Emergencies: The Role of Expert Sytems,” IEEE Computer Applications in Power, April, pp. 41–45.
Kirschen, D. S. and Wollenberg, B. F. (1992), “Intelligent Alarm Processing in Power Systems,” Proceedings of the IEEE, vol. 80, no. 5, pp. 663–672.
Liu, C. C. (1992), “Knowledge Based Systems in Electric Power Industry,” Proceedings of the IEEE, vol. 80, no. 5, pp. 659–662.
Munneke, M. C. and Dillon, T. S., 1989, “Alarms-An Object-Oriented Alarm Interpretation Expert System,” Second Symposium On Expert System Applications to Power Systems, July, pp. 72–78.
Pfau-Wagenbauer, M. and Brugger, H., (1991), “Model and Rule Based Intelligent Alarm Processing,” Third Symposium on Expert System Application to Power Systems, Tokyo, April, pp. 27–32.
Purucker, S. L., Tonn, B. E., Goeltz, R. T., Hemmelman, K. M. and Rasmussen, R.D. (1989), “Design and Operation of Communication Alarm Processor Expert System,” Second Symposium on Expert System Application to Power Systems, July, pp. 40–45.
Shoop, A. H., Silverman, S. and Ramesh, B. (1989), “Consolidated Edison System Operation Computer Control System (SOCCS) alarm advisor SAA,” Second Symposium On Expert System Applications to Power Systems, July, pp. 84–88.
Talukdar, S. N. and Cadozo, E. (1986), “Artificial Intelligence Technologies for Power System Operations,” EPRI Project Report no. EPRI EL-4324, January, pp. 1–6.
Tesch, D. et al., (1990), “A Knowledge-Based Alarm Processor for an Energy Management System,” IEEE Transactions on Power Systems, February, vol. 5, pp. 268–275.
Wollenberg, B.F., (1986), “Feasibility Study for an Energy Management System Intelligent Alarm Processor,” IEEE Transactions in Power System, May, vol 1, pp. 241–247.
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 1997 Springer Science+Business Media New York
About this chapter
Cite this chapter
Khosla, R., Dillon, T. (1997). Alarm Processing — An Application of IMAHDA. In: Engineering Intelligent Hybrid Multi-Agent Systems. Springer, Boston, MA. https://doi.org/10.1007/978-1-4615-6223-8_9
Download citation
DOI: https://doi.org/10.1007/978-1-4615-6223-8_9
Publisher Name: Springer, Boston, MA
Print ISBN: 978-1-4613-7854-9
Online ISBN: 978-1-4615-6223-8
eBook Packages: Springer Book Archive