The strategy of building a flood forecast model by neuro-fuzzy network
Author:
Publisher
Wiley
Subject
Water Science and Technology
Reference23 articles.
1. Fuzzy inference systems implemented on neural architectures for motor fault detection and diagnosis
2. Artificial Neural Networks in Hydrology. I: Preliminary Concepts
3. Artificial Neural Networks in Hydrology. II: Hydrologic Applications
4. . 1985. Hydrological Forecasting. Wiley: New York.
5. A self-organization algorithm for real-time flood forecast
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