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Culture Medium Profiling and Design Assisted by Machine Learning
Massaki KONISHI 한국생물공학회 2021 한국생물공학회 학술대회 Vol.2021 No.10
Production media for microbial cultivation is a significant factor to perform efficient cell growth and production. In industrial fermentation processes, raw materials including yeast, malt, and meat extracts, peptone, molasses, and the other agricultural and industrial waste are often used. The compositions can be varied in seasonal and geological varieties, brands, and production-lots, and influence microbial growth and material production. To understand the varieties of medium components, we have suggested that an analytical method assisted by metabolomics-like finger printing using gas-chromatogram mass spectrometry (Tachibana et al. 2019), and by deep neural networks (DNN) architecture (Tachibana et al. 2021) can apply to culture medium profiling. In the study, it was analyzed as a typical microbial cultivation that various brands of yeast extract were influenced to Escherichia coli growth and green fluorescent protein (GFP), a model of foreign protein production. According to our procedure, the bacterial growth and protein production was accurately estimated from the initial medium components profiles measured by GC-MS. Furthermore, significant components were estimated by a permutation algorithm using DNN model. The results indicated that the initial medium components can sufficiently explain the cultivation results including growth and protein production. As well, bioethanol production can be explained by the composition of toxic materials in lignocellulosic hydrolysates (Watanabe et al. 2019; Konishi 2020). To design optimal culture medium for engineered E. coli producing GFP, L81 Latin square design with 3 levels was applied to minimal medium M9 with supplemental components including amino acids and vitamins. To compare suitable machine learning algorithms for estimating GFP production, 12 algorithms, linear regression (LR), Ridge regression (Ridge), Lasso regression (Lasso), support vector machine (SVM), partial least square regression (PLS), decision tree regression (dtree), random forest regression (RFR), neural networks (NN), deep neural networks (DNN), Gradient tree boosting regression (gbr), K neighbor regression (kbr), and voting regression (vtr) were applied. According to evaluate the algorithms by cross validation (supervised: 85% and validation: 15%), although mean square errors between measured and estimated values of test data (MSEtest) were approximately 1.0-1.5 in case of LR, Ridge, Lasso, SVM, and PLS, those of dtree, RFR, gbr, NN, and DNN were in range below 0.06. On the other hand, considering interaction terms of independent variables, the data accurately fit to the all tested algorithms. The MSEtest were in range between 0.03 and 0.07. The results meant that interaction among medium components were strongly influenced to GFP production. Gaussian process optimization using trained DNN model as objective function were applied to exploring the optimal medium composition for GFP production. Based on the experimental confirmation, the improved composition increased GFP fluorescence to 117% against the best in the original experimental dataset in fact. The machine-learning-associated optimization of culture medium can provide high-throughput explore of the optimal medium compositions for not only microbial culture but also mammalian culture in theoretically. Furthermore, the idea will contribute to promote digital transformation for wide range of bioproductions. This research was partly supported by New Energy and Industrial Technology Development Organization (NEDO) project of Ministry of Economy, Trade and Industry (METI), Japan.
Structural Design and Construction of the Foundation of TOKYO SKYTREE
Konishi, Atsuo,Emura, Masaru Council on Tall Building and Urban Habitat Korea 2015 International journal of high-rise buildings Vol.4 No.4
This paper introduces the structural design and construction method for the foundation of the TOKYO SKYTREE, a new digital broadcasting tower in Tokyo, which has a height of 634 meters. The surface layer of the ground is occupied by soft soil, thus the foundation of this tower is an SRC continuous underground wall pile, designed and developed to have horizontal rigidity and pull-out resistance. The structural integrity and construction method of the wall pile was verified with an on-site full scale pull-out test concluding a maximum load of 40,000 kN.
Konishi, Satoshi,Kishi, Yoji,Nanba, Shinobu,Nomoto, Shinichi 통신위성우주산업연구회 2001 Joint Conference on Satellite Communications Vol.2001 No.-
In wide-area wireless access systems such as satellite communications systems and stratospheric platform systems, electric power supply for radio communications is realized by using solar photovoltaic cells and/or fuel cells. Hence, not only frequency band but also electric power is a limited and crucial radio resources for those systems. Although radio channel allocation algorithms taking account of the frequency constraint only or the power constraint only have been proposed, radio channel allocation algorithms taking account of the both constraints simultaneously have not been studied enough so far. This paper proposes a radio channel allocation algorithm utilizing the linear programming method to address this issue. The proposed algorithm firstly allocates radio channels in proportion to the traffic demand distributed over the area and then maximizes the total radio channels allocated to systems. Some numerical results are given for a stratospheric platform system that covers a part of Japanese land, for example, in order to demonstrate the effectiveness of this algorithm.
KONISHI, Kazuhiko,CHOI, Moon‐,Bo,LEE, Jong‐,Wook Blackwell Publishing Asia 2012 Entomological Research Vol.42 No.1
<P><B>Abstract</B></P><P>East Asian species of the genera <I>Hybrizon</I> and <I>Ghilaromma</I> are reviewed. Four species of <I>Hybrizon</I>, <I>H. buccatus</I> (Brébisson 1825), <I>H. ghilarovi</I> Tobias, 1988, <I>H. juncoi</I> (Ceballos 1957) and <I>H. flavofacialis</I> Tobias, 1988 and two species of <I>Ghilaromma</I>, <I>G. orientalis</I> Tobias, 1988 and <I>G. ussuriensis</I> Tobias, 1988, were recognized. <I>H. ghilarovi</I> was recorded from Korea, Japan and China, while <I>H</I>. <I>juncoi</I> was recorded from Korea, for the first time. The specimens recorded from Japan as <I>G</I>. <I>fuliginosi</I> (Wilkinson, 1930) by Watanabe (1984) are referred to <I>G</I>. <I>orientalis</I> herein. This species is newly recorded from Korea and Japan. Keys to East Asian species of <I>Hybrizon</I> and the world species of <I>Ghilaromma</I> are also provided.</P>