Metric learning-based kernel transformer with triplets and label constraints for feature fusion

Highlights：

• Second, kernel metric learning with triplets and label constraints is proposed, which leads to a better performance compared with the method that only triplets constraints are used. Based on the theory of extreme learning machine, label constraints are also embedded into our model.

• Third, we built a complete optimization objective function. Based on the alternating direction method of multipliers solver and the Karush-Kuhn-Tucker theorem, the proposed optimization problem is solved with rigorous theoretical analysis.

摘要

•First, we propose a kernel transformer to learn the complementary properties of different features for feature fusion. Based on the Mahalanobis distance, for feature concatenation in kernel space, we prove that the fusion can be achieved in the data space using each feature.•Second, kernel metric learning with triplets and label constraints is proposed, which leads to a better performance compared with the method that only triplets constraints are used. Based on the theory of extreme learning machine, label constraints are also embedded into our model.•Third, we built a complete optimization objective function. Based on the alternating direction method of multipliers solver and the Karush-Kuhn-Tucker theorem, the proposed optimization problem is solved with rigorous theoretical analysis.

论文评审过程：Received 2 March 2019, Revised 24 July 2019, Accepted 15 October 2019, Available online 15 October 2019, Version of Record 21 October 2019.