Title :
New nonlinear identification method of platinum resistance sensor based on IPSO-RBFNN
Author :
Xu, Shaoyi ; Li, Wei ; Hu, Aiguo
Author_Institution :
Sch. of Mech. & Electr. Eng., China Univ. of Min. & Technol., Xu Zhou, China
Abstract :
A new nonlinear identification method of the platinum resistance sensor based on radial basis function neural network using a improved particle swarm optimization algorithm is proposed to settle its nonlinear problem. The particle swarm optimization algorithm is improved by introducing the shrinkage factor and the particle variation factor. The function of the particle fitness is achieved based on the distance between the actual neural network output values and the expected output values. Decode the global optimum value in the swarm searching space as the initial value of network parameters. The simulation shows that the new nonlinear identification has better nonlinear identification accuracy and stability. It is proved that the method is effective and feasible.
Keywords :
identification; particle swarm optimisation; radial basis function networks; search problems; shrinkage; temperature sensors; IPSO-RBFNN; global optimum value; improved particle swarm optimization algorithm; nonlinear identification method; particle fitness; particle variation factor; platinum resistance sensor; radial basis function neural network; shrinkage factor; swarm searching space; Accuracy; Artificial neural networks; Convergence; Particle swarm optimization; Platinum; Radial basis function networks; Resistance; Improved particle swarm optimization algorithm; Nonlinear identification; Platinum Resistance; Radial basis function neural network; Sensor;
Conference_Titel :
Computer Science and Automation Engineering (CSAE), 2011 IEEE International Conference on
Conference_Location :
Shanghai
Print_ISBN :
978-1-4244-8727-1
DOI :
10.1109/CSAE.2011.5953217
