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Literature DB >> 1741528

Interpretation of functional series expansions.

Abstract

While much research has been devoted to the implementation and application of Volterra and Wiener functional series expansions in the identification and characterization of biological systems, little effort has been focused on the fundamental problem of interpreting the resulting kernels. This paper describes the application of the series to the components of a known model of the human pupil control system. As more complicated elements are put together, insight into kernel interpretation is built up incrementally until the total system is identified. Practical limitations and methods are also discussed.

Entities: Species

Mesh：

Year: 1991 PMID： 1741528 DOI： 10.1007/bf02584322

Source DB: PubMed Journal: Ann Biomed Eng ISSN： 0090-6964 Impact factor: 3.934

7 in total

1. Practical identification of functional expansions of nonlinear systems submitted to non-Gaussian inputs.

Authors: Y Goussard; W C Krenz; L Stark; G Demoment
Journal: Ann Biomed Eng Date: 1991 Impact factor: 3.934

2. On the interpretation of kernels. I. Computer stimulation of responses to impulse pairs.

Authors: G Hung; L Stark; P Eykhoff
Journal: Ann Biomed Eng Date: 1977-06 Impact factor: 3.934

3. Nonlinear analysis and synthesis of receptive-field responses in the catfish retina. I. Horizontal cell leads to ganglion cell chain.

Authors: P Z Marmarelis; K I Naka
Journal: J Neurophysiol Date: 1973-07 Impact factor: 2.714

1 in total

1. The identification of nonlinear biological systems: Volterra kernel approaches.

Authors: M J Korenberg; I W Hunter
Journal: Ann Biomed Eng Date: 1996 Mar-Apr Impact factor: 3.934

1 in total

Interpretation of functional series expansions.

1. Practical identification of functional expansions of nonlinear systems submitted to non-Gaussian inputs.

2. On the interpretation of kernels. I. Computer stimulation of responses to impulse pairs.

3. Nonlinear analysis and synthesis of receptive-field responses in the catfish retina. I. Horizontal cell leads to ganglion cell chain.

4. Wiener G-function analysis as an approach to non-linear characteristics of human pupil light reflex.

5. A systems model for the pupil size effect. I. Transient data.

6. Artifacts in Wiener kernels estimated using Gaussian white noise.

7. Applicability of white-noise nonlinear system analysis to the peripheral auditory system.

1. The identification of nonlinear biological systems: Volterra kernel approaches.