Abstract
In any construction projects,assessment of liquefaction potential induced due to seismic excitation during earthquake is a critical concern.The objective of present model development is to classify and assess liquefaction potential of soil.This paper addresses Emotional Neural Network(ENN), Cultural Algorithm(CA) and biogeography optimized(BBO) based adaptive neuro-fuzzy inference system (ANFIS) for liquefaction study.The performance of neural emotional network and cultural algorithm has been also discussed. BBO-ANFIS combines the biogeography features to optimize the ANFIS parameters to achieve higher prediction accuracy.The model is trained with case history of liquefaction databases.Two parameters are used as input such as the cyclic stress ratio and standard penetration test (SPT) value.The performance of these models was assessed using different indexes i.e. sensitivity, specificity, FNR, FPR and accuracy rate.The performance of all models is compared.Among the models, the BBO-ANFIS model has been outperformed and can be adopted as new reliable technique for liquefaction study.
Highlights
When the ground is shaken strongly during an earthquake, some types of soils liquefy, often subjected to ground failures
This paper addresses emotional neural network (ENN), cultural algorithm (CA), and biogeography optimized (BBO)-based adaptive neuro-fuzzy inference system (ANFIS) for liquefaction study
The objective of this paper is to propose some model for soil-liquefaction potential classification
Summary
When the ground is shaken strongly during an earthquake, some types of soils liquefy, often subjected to ground failures. This paper addresses emotional neural network (ENN), cultural algorithm (CA), and biogeography optimized (BBO)-based adaptive neuro-fuzzy inference system (ANFIS) for liquefaction study. The performance of neural emotional network and cultural algorithm has been discussed. ANFIS, Biogeography-Based Optimization (BBO), Cultural Algorithm, Earthquake, ENN, Soil-Liquefaction
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