A NOVEL FEASIBLE ANALYSIS MODEL OF ENVIRONMENTAL PROTECTION GEOTECHNICAL ENGINEERING UNDER THE CONCEPT OF GREEN SUSTAINABILITY

The existing analysis model has a single problem of the calculation model of the feasibility influencing factors, which results in the environmental protection geotechnical engineering failing to meet the requirements of the green sustainable concept and causing a serious impact on the natural environment. The feasibility analysis model of environmental protection geotechnical engineering under the concept of green sustainability is proposed. The information of environmental protection geotechnical engineering stress tensor and strain tensor under the concept of green sustainability can be obtained by using the elastoplastic damage constitutive equation of environmental protection geotechnical engineering. In this study, we introduce the concept of soft computing, construct a neural network composite model, and perform nonlinear mapping and quantization on the model. The stability evaluation model of environmental protection geotechnical engineering based on soft computing is constructed to realize the feasibility analysis of environmental protection geotechnical engineering under the concept of green sustainability. The experimental results show that the accuracy rate of the constructed model on the environmental protection geotechnical engineering feasibility of the research target is much higher than that of the existing models. The analysis accuracy of the proposed model in this study is higher, which can realize the environmental geotechnical engineering feasibility analysis under the green and sustainable concept of high precision and low omission.