Koji Tochinai scite author profile

We have proposed a method of machine translation, which acquires translation rules from translation examples using inductive learning, and have evaluated the method. And we have confirmed that the method requires many translation examples. To resolve this problem, we applied genetic algorithms to the method. In this paper, we describe our method with genetic algorithms and evaluated it by some experiments. We confirmed that the accuracy rate of translation increased from 52.8% to 61.9% by applying genetic algorithms.

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EBMT of POS-Tagged Sentences by Recursive Division Via Inductive Learning

Andriamanankasina¹,

Araki²,

Tochinai³

2003

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An edge detection by using self-organization

Nagai

Miyanaga²,

Tochinai³

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Machine translation using recursive chain‐link‐type learning based on translation examples

Echizen-ya

Araki

Momouchi

et al. 2004

Systems & Computers in Japan

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SUMMARYRule-based machine translation analyzes source-language sentences using large-scale linguistic knowledge that is given by the developer beforehand. However, it is difficult to give complete linguistic knowledge to the system ex ante because natural language has various linguistic phenomena. Therefore, we worked to develop learning-based machine translation. In learning-based machine translation, a system acquires translation rules automatically from translation examples that are pairs of source and target language sentences. However, existing learning-based machine translation presents the problem that it requires a large number of similar translation examples. Consequently, it cannot acquire enough useful translation rules from sparse translation examples. This paper proposes a method of machine translation using Recursive Chain-Link-type Learning, which can acquire many useful translation rules from sparse translation examples. Our system, based on this method, efficiently acquires translation rules from each translation example without requiring two similar translation examples. Translation rules are acquired by extracting corresponding parts between source and target language sentences in translation examples. Our system determines those corresponding parts using previously acquired translation rules. Therefore, the system engenders a chain reaction in acquisition of new translation rules. Evaluation experiments using our system demonstrated an effective translation rate of 61.1%. Moreover, the effective translation rate was 85.0% when sufficient learning data were given to our system.

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Koji Tochinai

Evaluation of Number-Kanji Translation Method of Non-Segmented Japanese Sentences Using Inductive Learning with Degenerated Input

Machine translation method using inductive learning with genetic algorithms

EBMT of POS-Tagged Sentences by Recursive Division Via Inductive Learning

An edge detection by using self-organization

Machine translation using recursive chain‐link‐type learning based on translation examples

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