Patent
1992-06-09
1999-02-23
Hafiz, Tariq R.
395 3, 395 10, 395 22, G06F 1518
Patent
active
058752846
DESCRIPTION:
BRIEF SUMMARY
FIELD OF THE INVENTION
The present invention relates to a data processing system in a hierarchical i.e. layered network configuration for flexibly processing data in a comprehensible and executable form, and, more specifically, to a neuro-fuzzy-integrated data processing system in a neuro-fuzzy-integrated hierarchical network configuration for establishing high speed, high precision data processing capabilities.
BACKGROUND OF THE INVENTION
In a conventional serial processing computer (Neiman computer), it is very difficult to adjust data processing capabilities with the change of usage and environment. Accordingly, more flexible data processing units have been demanded and developed to process data using a parallel and distributed method in a new hierarchical network configuration specifically in the technical field of pattern recognition, applicable filter, etc. In this hierarchical network data processing unit, programs are not written explicitly, but an output signal (output pattern) provided by a network structure in response to an input signal (input pattern) presented for learning determines a weight value of an internal connection of a hierarchical network structure so that the output signal corresponds to a teaching signal (teacher pattern) according to a predetermined learning algorithm. When the weight value is determined by the above described learning process, a "flexible" data processing function can be realized such that the hierarchical network structure outputs a probable output signal even though an unexpected input signal is inputted.
In the data processing unit in this hierarchical network configuration, there is an advantage in that a weight value of an internal connection can be automatically determined only if a learning signal is generated. However, there is also a disadvantage in that the content of a data process which is dependent on a weight value is not comprehensible. A successful solution would allow this data processing unit in a network structure to be put into practical use. To practically control this data processing unit in a hierarchical network configuration, an effective means must be presented for high speed, high precision data processing.
In a data processing unit comprising a hierarchical network configuration, a hierarchical network comprises one kind of node called a "basic unit" and an internal connection having a weight value corresponding to an internal state value. FIG. 1 shows a basic configuration of a basic unit 1. The basic unit 1 is a multi-input/output (i/o) system. That is, it comprises a multiplier 2 for multiplying a plurality of inputs by respective weight values of an internal connection, an accumulator 3 for adding all products of the above described multiplications performed by the multiplier, and a function converter 4 for applying function conversion such as a non-linear threshold process to the resultant accumulation value so that a final output can be obtained.
Assuming that a layer h is a preprocess layer and a layer i is a post-process layer, the accumulator 3 of the i-th basic unit 1 in the layer i executes the following operation using expression (1), and the function converter 4 executes a threshold operation using expression (2). and i Y.sub.ph : output from the h-th unit in the layer h in response to an input signal in the p-th pattern.
The data processing unit in a hierarchical network configuration configures its hierarchical network such that a plurality of the above described basic units 1 are hierarchically connected as shown in FIG. 2 (with input signal values distributed and outputted as an input layer 1') thus performing a parallel data process by converting input signals into corresponding output signals.
The data processing unit in a hierarchical network configuration requires obtaining, by a learning process, a weight value of a hierarchical network structure which determines the data conversion. Specifically, a back propagation method attracts special attention for its practicality as an algorithm of the learning proces
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patent: 5191638 (1993-03-01), Wakami et al.
"The 37th (Latter Half of 1988) National Convention's Lecture Treatises (II)" (Received on Dec. 12, 1988 by Industrial Property Library), Information Processing Society of Japan, pp. 1386-1387.
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Asakawa Kazuo
Kawamura Akira
Masuoka Ryushuke
Matsuoka Shigenori
Okada Hiroyuki
Fujitsu Limited
Hafiz Tariq R.
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