Title :
Hinging hyperplane trees for approximation and identification
Author_Institution :
Lab. of Control Eng. & Process Autom., Darstamdt Univ., Germany
Abstract :
The hinging hyperplane tree (HHT) model for the approximation of nonlinear mappings is proposed. The corresponding construction algorithm builds a binary tree-structured model based on nonlinear hinge functions. Unlike other tree-structured algorithms, this local model approach performs a recursive axis-oblique decomposition of the input space due to the location of the hinge functions. An extension of the hinging hyperplane trees with external dynamics is applied to the identification of a combustion engine turbocharger. Experimental results for the multiple-input single-output process are presented
Keywords :
identification; nonlinear functions; nonlinear systems; trees (mathematics); binary tree-structured model; combustion engine turbocharger; hinging hyperplane trees; local model approach; multiple-input single-output process; nonlinear hinge functions; nonlinear mappings; recursive axis-oblique decomposition; Automatic control; Automation; Combustion; Control engineering; Electronic mail; Engines; Fasteners; Laboratories; Partitioning algorithms; Vegetation mapping;
Conference_Titel :
Decision and Control, 1998. Proceedings of the 37th IEEE Conference on
Conference_Location :
Tampa, FL
Print_ISBN :
0-7803-4394-8
DOI :
10.1109/CDC.1998.758452
