Design of Concrete Pouring Process Monitoring System Based on Svm and Pnn

Abstract

In order to improve the monitoring ability of construction concrete pouring process, it is necessary to monitor the construction concrete pouring process, and a monitoring method of building construction concrete pouring process based on SVM and PNN is put forward. The stress load distribution model of construction concrete pouring is constructed, and the load-deflection characteristics of construction concrete pouring process are analyzed by quantitative recurrent analysis and process fuzzy control method. The peak value of ultimate bearing capacity of characteristic information of construction concrete pouring process is extracted, and the elastic modulus of characteristic information of building construction concrete pouring process is tested by using the method of self-recovery elastic modulus monitoring of energy dissipation braces. The adaptive optimization of concrete pouring process control in building construction is carried out by using the method of SVM and PNN analysis. Combined with the stress-strain relationship, the elastic proportional strain limit value of building concrete pouring is tested, and the elastic modulus analysis method of self-recovery energy dissipation braces is used to monitor the pouring process of building concrete. The simulation results show that this method can dynamically monitor the pouring process of construction concrete and improve the adaptive control ability and characteristic response ability of construction concrete pouring.