Abstract
Environmental planning and management require comprehensive and interdisciplinary information as the scientific and technical information basis for what are, ultimately, political decisions. The volume and complexity of this information, uncertainty in the data and the understanding of processes, as well as the often very large number of alternatives to be considered require specific data processing tools.
Electronic data processing and in particular, the simulation and analysis of environmental problems and possible measures of environmental management require the development and implementation of the required data and numerical models, but also of appropriate user interfaces.
The user interface allows interactive control of the software, the graphical display and visualization of results, and the integration of models and data bases, multiple models, or expert systems components. It also facilitates customization of the system for specific institutional applications.
Important components are graphical and symbolic user interaction, the graphical display of results that are dynamic or spatially distributed, the integration of geographical information systems as a source of data, but also as a tool for further analysis, and the use of AI components that allow efficient systems behavior and easy, error-free use of the software.
The role of integrated systems is not only to model selected aspects of the environment, but to offer a broader view of the overall problems, and to provide tools and methods of analysis that distill the most critical features of decision-oriented information bases and explicit decision support.
Using a number of practical examples from application domains such as air quality, ground and surface water, hazardous chemicals, technological risk and environmental impact assessment, a number of interactive and integrated information and decision support systems, implemented in a number of countries for environmental planning and management, are described and discussed together with the architecture of their implementation and the basic approach.
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References
Ambrose, R.B. and Vandergrift, S.B. (1986) SARAH, A Surface Water Assessment Model for Back Calculating Reductions in Abiotic Hazardous Wastes. EPA/600/3–86/058. Environmental Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency. Athens, GA 30613. 95p.
Beck, M.B. (1990) Expert Systems in Environmental Systems Analysis and Control. Dept. of Civil Engg., Imperial College, London. Draft Expert Tutorial submitted to WHO. Forthcoming.
Diersch, H.J. (1980) Finite-Element-Programmsystem FEFLOW. (Finite-Element Program Description FEFLOW). Institute for Mechanics. Academy of Sciences of the GDR. Berlin. In German.
Fedra, K. (1989a) Simulation Modeling in Environmental Impact Assessment. Presented at the International Conference on Environmental Impact Analysis for Developing Countries. November 28-December 2, 1988. New Delhi, India. Organized by Pollution Control Research Institute, Bharat Heavy Electricals Limited. Hardwar, India.
Fedra, K. (1989b) Expert Systems in Water Resources Simulation and Optimization. Presented at NATO Advanced Study Institute on Stochastic Hydrology in Water Resources Systems: Simulation and Optimization. Peniscola, Spain. September 18–29, 1989.
Fedra, K. and Diersch, H.J. (1989) Interactive Groundwater Modelling: Color Graphics, ICAD, and AI. In A. Sahuquillo, J. Andreu and T. O’Donnell [eds.] Groundwater Management: Quantity and Quality. International Association of Hydrological Sciences (IAHS) Publication No. 188. pp.305–320.
Fedra, K., Li, Z., Wang, Z. and Zhao, C. (1987) Expert Systems for Integrated Development: A Case Study of Shanxi Province, The People’s Republic of China. SR-87–001. International Institute for Applied Systems Analysis. A-2361 Laxenburg, Austria. 76p.
Fedra, K. (1986a) Advanced Decision-oriented Software for the Management of Hazardous Substances. Part II: A Demonstration Prototype System. CP-86–10. International Institute for Applied Systems Analysis. A-2361 Laxenburg, Austria. 98p.
Fedra, K. (1986b) Decision Making in Water Resources Planning: Models and Computer Graphics. In Arne J. Carlsen [ed.] Proceedings of a UNESCO Symposium on Decision Making in Water Resources Planning Vol.2. Norwegian National Committee for Hydrology. Oslo, Norway. pp.451–468.
Fedra, K. (1985a) Advanced Decision-oriented Software for the Management of Hazardous Substances. Part I: Structure and Design. CP-85–18. International Institute for Applied Systems Analysis. A-2361 Laxenburg, Austria. 61p.
Fedra, K. and Otway, H. (1986) Advanced Decision-oriented Software for the Management of Hazardous Substances. Part III. Decision Support and Expert Systems: Uses and Users. CP-86–14. International Institute for Applied Systems Analysis. A-2361 Laxenburg, Austria. 44p.
Fedra, K. and Loucks, D.P. (1985) Interactive Computer Technology for Planning and Policy Modeling. Water Resources Research, 21/2, 114–122.
Gray, A. and Stokoe, P. (1988) Knowledge-based or Expert Systems and Decision Support Tools for Environmental Assessment and Management. Their Potential and Limitations. School for Resource and Environmental Studies. Dalhousie University. Nova Scotia.
Hetrick, D.M. and McDowell-Boyer, L.M. (1984) User’s Manual for TOXSCREEN: A Multimedia Screening-level Program for Assessing the Potential Fate of Chemicals Released to the Environment. ORNL-6041. Oak Ridge National Laboratory and EPA-560/5–83-024. USEPA. Washington, D.C. 301p.
Loucks, D.P. and Fedra, K (1987) Impact of Changing Computer Technology on Hydrologie and Water Resource Modeling. In Review of Geophysics, 25:2, March.
Meier, W. and Mull, R. (1989) Nitrate in Groundwater. In A. Sahuquillo, J. Andreu, and T. O’Donnell [eds.] Groundwater Management: Quantity and Quality. Proceedings of the Benidorm Symposium, International Association of Hydrological Sciences (IAHS) Publication No. 188. pp.181–190.
Ortolano, L. and Steineman, A.C. (1987) New Expert Systems in Environmental Engineering. Proceedings of the American Society of Civil Engineers. Computing in Civil Engineering, 1(4), pp.298–302.
Reitsma, R.F. (1990) Functional Classification of Space. Aspects of Site Suitability Assessment in a Decision Support Environment. RR-90–2. International Institute for Applied Systems Analysis. A-2361 Laxenburg, Austria. 300p.
Weigkricht, E. and Winkelbauer, L. (1987) Knowledge-based Systems: Overview and Selected Examples. WP-87–101. International Institute for Applied Systems Analysis. A-2361 Laxenburg, Austria. 102p.
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Fedra, K. (1990). Interactive Environmental Software: Integration, Simulation and Visualization. In: Pillmann, W., Jaeschke, A. (eds) Informatik für den Umweltschutz. Informatik-Fachberichte, vol 256. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-76081-5_78
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DOI: https://doi.org/10.1007/978-3-642-76081-5_78
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