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Dynamics Learning Network with Structured Recurrent Modules
Miyanaga, Yoshikazu,Tochinai, Koji,Li, Yisheng 대한전자공학회 1994 ISPACS:Intelligent Signal Processing and Communica Vol.1 No.1
In this report, a local connected recurrent neural network, and a new learning algorithm are proposed. The network which has the ability to memorize and regenerate complex dynamics is constructed by adaptive oscillating modules. This module consists of two simply neuron nodes with recurrent connections. In the new learning algorithm, each module can be trained in independently with suitable sped for given input data. The network's size is also adaptively determined in learning process. Finally, some simulation results are demonstrated to verify the effectiveness of the proposed network structure and the learning algorithm.
ADAPTIVE RECOGNITION OF HAND-WRITTEN KANJI CHARACTERS USING SELF-ORGANIZED NEURAL NETWORK
Miyanaga, Yoshikazu,Tochinai, Koji,Kondo, Masanori,Hayashi, Masato 대한전자공학회 1994 ISPACS:Intelligent Signal Processing and Communica Vol.1 No.1
This port introduces an image recognition system for hand-written Kanji characters. The method is based on a self-organized neural network and a single layer perception network. The self-organized neural network is used for adaptive clustering. The single perception network is used for recognition. It is well known that a large amount of time is required in the training by a mullti-layered perception when some cluster distributions have complicated structures. However, since only the simplest perception is applied in this proposed system, a quite short time is enough to learn training data. The reason why multi-layered perception is not required to recognize data in this system is based on the use of a self-organized network. The self-organized network can change a complicated structure of cluster distribution to a simple structure without the loss of information. Thus, it can be shown that the simple perception is enough to recognize even nonlinear characteristic distribution.
Treatment of hydrochloric acid using Mg–Al layered double hydroxide intercalated with carbonate
Tomohito Kameda,Masahito Tochinai,Toshiaki Yoshioka 한국공업화학회 2016 Journal of Industrial and Engineering Chemistry Vol.39 No.-
Mg–Al layered double hydroxide intercalated with CO32 (CO3 Mg–Al LDH) was found to take up onlylow amounts of Cl during the treatment of hydrochloric acid. Low pH promotes the removal of Cl . HClis considered to react with CO32 in the interlayers of Mg–Al LDH as a result of which Cl is probablyintercalated in the interlayers. High pH of the Mg–Al LDH suspension leads to a lower extent of reactionbetween HCl and Mg–Al LDH, owing to the neutralization of the acid. We can state that the adsorption ofCl on Mg–Al LDH is best described by the Dubinin–Radushkevich adsorption isotherm. The maximumadsorption amounts were calculated to be 1.4 and 0.6 mmol/g for CO3 Mg–Al LDH with Mg/Al molarratios of 2 and 4, respectively, whereas the adsorption energies were calculated to be 82 and 124 kJ/mol,respectively. In summary, the removal of Cl is caused by both the reaction between hydrochloric acidand CO32 in the interlayers of Mg–Al LDH as well as anion exchange between the HCO3produced and adifferent Cl ion in hydrochloric acid. This explains why the adsorption is best expressed by the D–Radsorption isotherm, which assumes a heterogeneous surface and non-constant adsorption potential
Performance Evaluation on 3-D object recognition using a restricted neural network
Miyanaga, Yoshikazu,Motoyoshi, Katsuhito,Tochinai, Koji 대한전자공학회 1996 APCCAS:Asia Pacific Conference on Circuits And Sys Vol.1 No.1
This report introduces a new approach on a recognition system of three dimensional, i.e., 3D, objects. The proposed system is based on a restricted multi-layered neural network. For the performance evaluation of this network, the experiment in which some similar objects are used for recognition is demonstrated in this report.