Adaptive Modelling, Estimation and Fusion from Data A Neurofuzzy Approach

Adaptive Modelling, Estimation and Fusion from Data A Neurofuzzy Approach / by Chris Harris, Xia Hong, Qiang Gan.

In a world of almost permanent and rapidly increasing electronic data availability, techniques of filtering, compressing, and interpreting this data to transform it into valuable and easily comprehensible information is of utmost importance. One key topic in this area is the capability to deduce fut...

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Bibliographic Details
Main Authors: Harris, Chris (Author), Hong, Xia (Author), Gan, Qiang (Author)
Corporate Author: SpringerLink (Online service)
Format: eBook
Language:English
Published: Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2002.
Edition:1st ed. 2002.
Series:Advanced Information Processing
Springer eBook Collection.
Subjects:
Artificial intelligence.
Pattern recognition.
Computers.
Computer science—Mathematics.
Information storage and retrieval.
Statistics .
Electronic resources (E-books)
Online Access:Click to view e-book
Holy Cross Note:Loaded electronically.
Electronic access restricted to members of the Holy Cross Community.

MARC

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505 0 |a 1. An introduction to modelling and learning algorithms -- 1.1 Introduction to modelling -- 1.2 Modelling, control and learning algorithms -- 1.3 The learning problem -- 1.4 Book philosophy and contents overview -- 2. Basic concepts of data-based modelling -- 2.1 Introduction -- 2.2 State-space models versus input-output models -- 2.3 Nonlinear modelling by basis function expansion -- 2.4 Model parameter estimation -- 2.5 Model quality -- 2.6 Reproducing kernels and regularisation networks -- 2.7 Model selection methods -- 2.8 An example: time series modelling -- 3. Learning laws for linear-in-the-parameters networks -- 3.1 Introduction to learning -- 3.2 Error or performance surfaces -- 3.3 Batch learning laws -- 3.4 Instantaneous learning laws -- 3.5 Gradient noise and normalised condition numbers -- 3.6 Adaptive learning rates -- 4. Fuzzy and neurofuzzy modelling -- 4.1 Introduction to fuzzy and neurofuzzy systems -- 4.2 Fuzzy systems -- 4.3 Functional mapping and neurofuzzy models -- 4.4 Takagi-Sugeno local neurofuzzy model -- 4.5 Neurofuzzy modelling examples -- 5. Parsimonious neurofuzzy modelling -- 5.1 Iterative construction modelling -- 5.2 Additive neurofuzzy modelling algorithms -- 5.3 Adaptive spline modelling algorithm (ASMOD) -- 5.4 Extended additive neurofuzzy models -- 5.5 Hierarchical neurofuzzy models -- 5.6 Regularised neurofuzzy models -- 5.7 Complexity reduction through orthogonal least squares -- 5.8 A-optimality neurofuzzy model construction (NeuDec) -- 6. Local neurofuzzy modelling -- 6.1 Introduction -- 6.2 Local orthogonal partitioning algorithms -- 6.3 Operating point dependent neurofuzzy models -- 6.4 State space representations of operating point dependent neurofuzzy models -- 6.5 Mixture of experts modelling -- 6.6 Multi-input-Multi-output (MIMO) modelling via input variable selection -- 7. Delaunay input space partitioning modelling -- 7.1 Introduction -- 7.2 Delaunay triangulation of the input space -- 7.3 Delaunay input space partitioning for locally linear models -- 7.4 The Bézier-Bernstein modelling network -- 8. Neurofuzzy linearisation modelling for nonlinear state estimation -- 8.1 Introduction to linearisation modelling -- 8.2 Neurofuzzy local linearisation and the MASMOD algorithm -- 8.3 A hybrid learning scheme combining MASMOD and EM algorithms for neurofuzzy local linearisation -- 8.4 Neurofuzzy feedback linearisation (NFFL) -- 8.5 Formulation of neurofuzzy state estimators -- 8.6 An example of nonlinear trajectory estimation -- 9. Multisensor data fusion using Kaiman filters based on neurofuzzy linearisation -- 9.1 Introduction -- 9.2 Measurement fusion -- 9.3 State-vector fusion -- 9.4 Hierarchical multisensor data fusion — trade-off between centralised and decentralised Architectures -- 9.5 Simulation examples -- 10. Support vector neurofuzzy models -- 10.1 Introduction -- 10.2 Support vector machines -- 10.3 Support vector regression -- 10.4 Support vector neurofuzzy networks -- 10.5 SUPANOVA -- 10.6 A comparison among neural network models -- 10.7 Conclusions -- References. 
520 |a In a world of almost permanent and rapidly increasing electronic data availability, techniques of filtering, compressing, and interpreting this data to transform it into valuable and easily comprehensible information is of utmost importance. One key topic in this area is the capability to deduce future system behavior from a given data input. This book brings together for the first time the complete theory of data-based neurofuzzy modelling and the linguistic attributes of fuzzy logic in a single cohesive mathematical framework. After introducing the basic theory of data-based modelling, new concepts including extended additive and multiplicative submodels are developed and their extensions to state estimation and data fusion are derived. All these algorithms are illustrated with benchmark and real-life examples to demonstrate their efficiency. Chris Harris and his group have carried out pioneering work which has tied together the fields of neural networks and linguistic rule-based algortihms. This book is aimed at researchers and scientists in time series modeling, empirical data modeling, knowledge discovery, data mining, and data fusion. 
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