MINIMAL NEURAL NETWORKS - CONCERTED OPTIMIZATION OF MULTIPLE DECISION PLANES

被引：12

作者：

HARRINGTON, PD

机构：

[1] Center for Intelligent Chemical Instrumentation, Department of Chemistry, Ohio University, Athens, OH 45701-2979, United States

来源：

CHEMOMETRICS AND INTELLIGENT LABORATORY SYSTEMS | 1993年 / 18卷 / 02期

关键词：

D O I：

10.1016/0169-7439(93)80053-K

中图分类号：

TP [自动化技术、计算机技术];

学科分类号：

0812 ;

摘要：

Minimal neural networks (MNNs) differ from other neural networks in that they use localized processing. A MNN has been developed that builds classification trees with branches composed of multiple processing units, as opposed to conventional neural works, which require a network composed of layers of processing units to be configured before training. A global entropy minimization may be achieved at a branch by combining the processing logic using principles from fuzzy set theory. Weight vectors are adjusted using an angular coordinate system and gradients of the fuzzy entropy function. The branches are optimal with respect to fuzziness and can accommodate non-linearly separable or ill-conditioned data. Unlike other neural networks, the mechanism of inference may be traced. In addition, the observation scores, the variable loadings of the weight vectors and the structure of the classification tree yield a bounty of qualitative and diagnostic information. Synthetic bivariate data and pyrolysis-tandem mass spectra are used to compare the MNN with a backpropagation neural network.

引用

页码：157 / 170

页数：14

共 19 条

[1] OPTIMAL MINIMAL NEURAL INTERPRETATION OF SPECTRA [J].

BORGGAARD, C ;

THODBERG, HH .

ANALYTICAL CHEMISTRY, 1992, 64 (05) :545-551

[2] COMPARISON OF THE TRAINING OF NEURAL NETWORKS FOR QUANTITATIVE X-RAY-FLUORESCENCE SPECTROMETRY BY A GENETIC ALGORITHM AND BACKWARD ERROR PROPAGATION [J].

BOS, M ;

WEBER, HT .

ANALYTICA CHIMICA ACTA, 1991, 247 (01) :97-105

[3] NONLINEAR MULTIVARIATE CALIBRATION USING PRINCIPAL COMPONENTS REGRESSION AND ARTIFICIAL NEURAL NETWORKS [J].

GEMPERLINE, PJ ;

LONG, JR ;

GREGORIOU, VG .

ANALYTICAL CHEMISTRY, 1991, 63 (20) :2313-2323

[4] FUZZY MULTIVARIATE RULE-BUILDING EXPERT SYSTEMS - MINIMAL NEURAL NETWORKS [J].

HARRINGTON, PB .

JOURNAL OF CHEMOMETRICS, 1991, 5 (05) :467-486

[5] MULTIVARIATE RULE BUILDING EXPERT SYSTEM [J].

HARRINGTON, PD ;

VOORHEES, KJ .

ANALYTICAL CHEMISTRY, 1990, 62 (07) :729-734

[6] RULE-BUILDING EXPERT SYSTEM FOR CLASSIFICATION OF MASS-SPECTRA [J].

HARRINGTON, PD ;

STREET, TE ;

VOORHEES, KJ ;

DIBROZOLO, FR ;

ODOM, RW .

ANALYTICAL CHEMISTRY, 1989, 61 (07) :715-719

[7] EXPERT SYSTEM BASED ON PRINCIPAL COMPONENTS-ANALYSIS FOR THE IDENTIFICATION OF MOLECULAR-STRUCTURES FROM VAPOR-PHASE INFRARED-SPECTRA .2. IDENTIFICATION OF CARBONYL-CONTAINING FUNCTIONALITIES [J].

HASENOEHRL, EJ ;

PERKINS, JH ;

GRIFFITHS, PR .

ANALYTICAL CHEMISTRY, 1992, 64 (06) :656-663

[8] NEURAL NETWORKS - AN OVERVIEW [J].

JANSSON, PA .

ANALYTICAL CHEMISTRY, 1991, 63 (06) :A357-A362

[9] DEVELOPMENT AND OPTIMIZATION OF PIECEWISE LINEAR DISCRIMINANTS FOR THE AUTOMATED DETECTION OF CHEMICAL-SPECIES [J].

KALTENBACH, TF ;

SMALL, GW .

ANALYTICAL CHEMISTRY, 1991, 63 (09) :936-944

[10] PYROLYSIS-MASS SPECTROMETRY PATTERN-RECOGNITION ON A WELL-CHARACTERIZED SUITE OF HUMIC SAMPLES [J].

MACCARTHY, P ;

DELUCA, SJ ;

VOORHEES, KJ ;

MALCOLM, RL ;

THURMAN, EM .

GEOCHIMICA ET COSMOCHIMICA ACTA, 1985, 49 (10) :2091-2096

← 1 2 →