A Kernel Adaptive Algorithm for Quaternion-Valued Inputs

Author

Paul, Thomas K. ; Ogunfunmi, Tokunbo

Author_Institution

Dept. of Electr. Eng., Santa Clara Univ., Santa Clara, CA, USA

Volume

26

Issue

10

fYear

2015

Firstpage

2422

Lastpage

2439

Abstract

The use of quaternion data can provide benefit in applications like robotics and image recognition, and particularly for performing transforms in 3-D space. Here, we describe a kernel adaptive algorithm for quaternions. A least mean square (LMS)-based method was used, resulting in the derivation of the quaternion kernel LMS (Quat-KLMS) algorithm. Deriving this algorithm required describing the idea of a quaternion reproducing kernel Hilbert space (RKHS), as well as kernel functions suitable with quaternions. A modified HR calculus for Hilbert spaces was used to find the gradient of cost functions defined on a quaternion RKHS. In addition, the use of widely linear (or augmented) filtering is proposed to improve performance. The benefit of the Quat-KLMS and widely linear forms in learning nonlinear transformations of quaternion data are illustrated with simulations.

Keywords

Hilbert spaces; learning (artificial intelligence); least mean squares methods; Quat-KLMS algorithm; augmented filtering; cost function gradient; kernel adaptive algorithm; kernel functions; least mean square-based method; linear filtering; modified HR calculus; nonlinear transformation learning; performance improvement; quaternion RKHS; quaternion data; quaternion kernel LMS algorithm; quaternion reproducing kernel Hilbert space; quaternion-valued inputs; Calculus; Estimation; Hilbert space; Kernel; Quaternions; Vectors; Gaussian kernel; kernel least mean square (KLMS); kernel methods; mean-square error (MSE); quaternions; widely linear estimation; widely linear estimation.;

fLanguage

English

Journal_Title

Neural Networks and Learning Systems, IEEE Transactions on

Publisher

ieee

ISSN

2162-237X

Type

jour

DOI

10.1109/TNNLS.2014.2383912

Filename

7006723