ε-support vector regression (ε-SVR) can be converted into an unconstrained convex and non-smooth quadratic programming problem. It is not solved by the typical algorithm. In order to solve this non-smooth problem, a class of piecewise smooth functions is introduced to approximate the ε-insensitive loss function of ε-SVR, which generates a ε-piecewise smooth support vector regression (ε-dPWSSVR) model. The fast Newton- Armijo algorithm is used to solve the ε-dPWSSVR. The piecewise functions can get higher and higher approximation accuracy as required with increase of parameter d. The reduced kernel technique is applied to avoid the computational difficulties in nonlinear ε-dPWSSVR for massive datasets. Experimental results show that the proposed ε-dPWSSVR has the better regression performance and the learning efficiency than other competitive baselines.
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