PT Journal
AU Yin, T
   Wang, Y
TI Nonlinear analysis and prediction of soybean futures
SO Agricultural Economics
PY 2021
BP 200
EP 207
VL 67
IS 5
DI 10.17221/480/2020-AGRICECON
DE artificial neural network (ANN); chaos; forecasting; long-range dependence; multifractal
AB We use chaotic artificial neural network (CANN) technology to predict the price of the most widely traded agricultural futures - soybean futures. The nonlinear existence test results show that the time series of soybean futures have multifractal dynamics, long-range dependence, self similarity, and chaos characteristics. This also provides a basis for the construction of a CANN model. Compared with the artificial neural network (ANN) structure as our benchmark system, the predictability of CANN is much higher. The ANN is based on Gaussian kernel function and is only suitable for local approximation of nonstationary signals, so it cannot approach the global nonlinear chaotical hidden pattern. Improving the prediction accuracy of soybean futures prices is of great significance for investors, soybean producers, and decision makers.
ER