A neural-network approach to describe the scatter of cyclic stress–strain curves

The multiaxial cyclic stress-strain relationship under both proportional and nonproportional loading was studied according to the characteristic of the stress-strain on the critical plane and the research results of multiaxial critical plane principle. The multiaxial cyclic stress-strain model under

A nertral-neh~orh approucli is riei.ekiped to itiwstigate tl7e irii,erse ~caftt'rrti,y from a perfectlv coridrrcring circular d i n d e r due to a normal field incidence. The neural network, is itsed to predict the electrical radius ka of ( I circular cylinder h\ rewi enng the coinp1e.u coefficients

Conventional ship autopilots are based on proportional, integral and derivative (PID) algorithms, and are generally set to work under specific conditions. Changes in either the vessel's handling characteristics or environmental conditions means that the system is not working at its optimal point. Th

## Abstract A new approach, based on the radial‐bias function neural network (RBF‐NN) combined with wavelet transform, is presented for the estimation of the locations and radii of conducting cylindrical scatterers. The discrete wavelet transform coefficients of the electric‐field values scattered