Application of an artificial neural network and genetic algorithm for determination of process orbits in the koji making process

Taizo Hanai; Hiroyuki Honda; Eiji Ohkusu; Toshihiko Ohki; Hisao Tohyama; Takahiro Muramatsu; Takeshi Kobayashi

doi:10.1016/S1389-1723(99)80101-7

Application of an artificial neural network and genetic algorithm for determination of process orbits in the koji making process

Taizo Hanai, Hiroyuki Honda, Eiji Ohkusu, Toshihiko Ohki, Hisao Tohyama, Takahiro Muramatsu, Takeshi Kobayashi

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

In order to estimate α-amylase, glucoamylase, acid proteinase, and acid carboxypeptidase activities in koji from the process variables and initial conditions of the koji making process, artificial neural network (ANN) models (ANN-10, -11, -15, and -21) were constructed with 10, 11, 15, and 21 input variables, respectively. These models could estimate the enzyme activities with high accuracy. Temperature and humidity orbits were then acquired by a genetic algorithm searching in the reverse direction using ANN-10, -11, -15, and -21 (GA-10, -11, -15, and -21). The orbits acquired by GA-15 and -11 were almost identical to the actual orbits, but those acquired by GA-21 and -10 were different. Enzyme activities acquired by GA-15 had 1.3% errors compared with the target values, while those acquired by GA-11 had 9.7% errors. GA-15 was, therefore, selected as the most suitable algorithm and was used to determine temperature and humidity orbits for target enzyme activities. Test koji making was then carried out according to the orbits acquired. As a result, the enzyme activities of the koji produced were almost the same as the target values.

Original language	English
Pages (from-to)	507-512
Number of pages	6
Journal	Journal of Bioscience and Bioengineering
Volume	87
Issue number	4
DOIs	https://doi.org/10.1016/S1389-1723(99)80101-7
Publication status	Published - 1999
Externally published	Yes

All Science Journal Classification (ASJC) codes

Biotechnology
Bioengineering
Applied Microbiology and Biotechnology

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10.1016/S1389-1723(99)80101-7

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title = "Application of an artificial neural network and genetic algorithm for determination of process orbits in the koji making process",

abstract = "In order to estimate α-amylase, glucoamylase, acid proteinase, and acid carboxypeptidase activities in koji from the process variables and initial conditions of the koji making process, artificial neural network (ANN) models (ANN-10, -11, -15, and -21) were constructed with 10, 11, 15, and 21 input variables, respectively. These models could estimate the enzyme activities with high accuracy. Temperature and humidity orbits were then acquired by a genetic algorithm searching in the reverse direction using ANN-10, -11, -15, and -21 (GA-10, -11, -15, and -21). The orbits acquired by GA-15 and -11 were almost identical to the actual orbits, but those acquired by GA-21 and -10 were different. Enzyme activities acquired by GA-15 had 1.3% errors compared with the target values, while those acquired by GA-11 had 9.7% errors. GA-15 was, therefore, selected as the most suitable algorithm and was used to determine temperature and humidity orbits for target enzyme activities. Test koji making was then carried out according to the orbits acquired. As a result, the enzyme activities of the koji produced were almost the same as the target values.",

author = "Taizo Hanai and Hiroyuki Honda and Eiji Ohkusu and Toshihiko Ohki and Hisao Tohyama and Takahiro Muramatsu and Takeshi Kobayashi",

note = "Funding Information: We would like to thank Dr. Iwao Fukaya of Food Research Institute, Aichi Prefectural Government for his kind advice. This research was supported in part by a Grant-in-Aid for Scientific Research (No. 09838017) from the Ministry of Education, Science, Sports and Culture of Japan.",

year = "1999",

doi = "10.1016/S1389-1723(99)80101-7",

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T1 - Application of an artificial neural network and genetic algorithm for determination of process orbits in the koji making process

AU - Hanai, Taizo

AU - Honda, Hiroyuki

AU - Ohkusu, Eiji

AU - Ohki, Toshihiko

AU - Tohyama, Hisao

AU - Muramatsu, Takahiro

AU - Kobayashi, Takeshi

N1 - Funding Information: We would like to thank Dr. Iwao Fukaya of Food Research Institute, Aichi Prefectural Government for his kind advice. This research was supported in part by a Grant-in-Aid for Scientific Research (No. 09838017) from the Ministry of Education, Science, Sports and Culture of Japan.

PY - 1999

Y1 - 1999

N2 - In order to estimate α-amylase, glucoamylase, acid proteinase, and acid carboxypeptidase activities in koji from the process variables and initial conditions of the koji making process, artificial neural network (ANN) models (ANN-10, -11, -15, and -21) were constructed with 10, 11, 15, and 21 input variables, respectively. These models could estimate the enzyme activities with high accuracy. Temperature and humidity orbits were then acquired by a genetic algorithm searching in the reverse direction using ANN-10, -11, -15, and -21 (GA-10, -11, -15, and -21). The orbits acquired by GA-15 and -11 were almost identical to the actual orbits, but those acquired by GA-21 and -10 were different. Enzyme activities acquired by GA-15 had 1.3% errors compared with the target values, while those acquired by GA-11 had 9.7% errors. GA-15 was, therefore, selected as the most suitable algorithm and was used to determine temperature and humidity orbits for target enzyme activities. Test koji making was then carried out according to the orbits acquired. As a result, the enzyme activities of the koji produced were almost the same as the target values.

AB - In order to estimate α-amylase, glucoamylase, acid proteinase, and acid carboxypeptidase activities in koji from the process variables and initial conditions of the koji making process, artificial neural network (ANN) models (ANN-10, -11, -15, and -21) were constructed with 10, 11, 15, and 21 input variables, respectively. These models could estimate the enzyme activities with high accuracy. Temperature and humidity orbits were then acquired by a genetic algorithm searching in the reverse direction using ANN-10, -11, -15, and -21 (GA-10, -11, -15, and -21). The orbits acquired by GA-15 and -11 were almost identical to the actual orbits, but those acquired by GA-21 and -10 were different. Enzyme activities acquired by GA-15 had 1.3% errors compared with the target values, while those acquired by GA-11 had 9.7% errors. GA-15 was, therefore, selected as the most suitable algorithm and was used to determine temperature and humidity orbits for target enzyme activities. Test koji making was then carried out according to the orbits acquired. As a result, the enzyme activities of the koji produced were almost the same as the target values.

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Application of an artificial neural network and genetic algorithm for determination of process orbits in the koji making process

Abstract

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