l1-norm Penalized Orthogonal Forward Regression
This is an incremental improvement for researchers in machine learning and statistics working on regression methods.
The paper tackles the problem of regression with high-dimensional data by proposing an l1-norm penalized orthogonal forward regression algorithm, which reduces computational cost through adaptive detection and removal of inactive regressors, as demonstrated in illustrative examples.
A l1-norm penalized orthogonal forward regression (l1-POFR) algorithm is proposed based on the concept of leaveone- out mean square error (LOOMSE). Firstly, a new l1-norm penalized cost function is defined in the constructed orthogonal space, and each orthogonal basis is associated with an individually tunable regularization parameter. Secondly, due to orthogonal computation, the LOOMSE can be analytically computed without actually splitting the data set, and moreover a closed form of the optimal regularization parameter in terms of minimal LOOMSE is derived. Thirdly, a lower bound for regularization parameters is proposed, which can be used for robust LOOMSE estimation by adaptively detecting and removing regressors to an inactive set so that the computational cost of the algorithm is significantly reduced. Illustrative examples are included to demonstrate the effectiveness of this new l1-POFR approach.