CVClient
Profile Information
- Affiliation
- 准教授, 大学院 工学研究科, 兵庫県立大学
- Degree
- Ph.D(Osaka University)
- Researcher number
- 90305681
- ORCID ID
https://orcid.org/0000-0001-5697-4048- J-GLOBAL ID
- 200901068509763714
- researchmap Member ID
- 1000254210
- External link
Research Interests
7Research Areas
1Research History
3-
Apr, 2007 - Present
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Apr, 2004 - Mar, 2007
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Apr, 1998 - Mar, 2004
Education
3-
Apr, 1994 - Mar, 1998
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Apr, 1992 - Mar, 1994
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Apr, 1987 - Mar, 1992
Committee Memberships
22-
Apr, 2018 - Present
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2016 - Present
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2001 - Present
Awards
5-
Jan, 2011
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Mar, 2007
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Apr, 2005
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Mar, 2002
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Mar, 1998
Papers
186-
IEICE Transactions on Electronics, 2025 Lead authorLast authorCorresponding author
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IEICE Transactions on Electronics (Japanese Edition), J107–C(8) 292-294, Aug 1, 2024 Peer-reviewedLast authorCorresponding author
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Electronics, 12(17) 3631/1-3631/12, Aug 28, 2023 Peer-reviewedInvitedEquivalent circuit models that reproduce the current–voltage characteristics of solar cells are useful not only to gain physical insight into the power loss mechanisms that take place in solar cells but also for designing systems that use renewable solar energy as a power source. As mentioned in a previous paper, Bayesian estimation of equivalent circuit parameters avoids the drawbacks of nonlinear least-squares methods, such as the possibility of evaluating estimation errors. However, it requires a long computation time because the estimated values are obtained by sampling using a Markov chain Monte Carlo method. In this paper, a trial to accelerate the calculation by upgrading the Bayesian statistical package PyMC is presented. PyMC ver. 4, the next version of PyMC3 used in the previous paper, started to support the latest sampling libraries using a machine learning framework JAX, in addition to PyMC-specific methods. The acceleration effect of JAX is remarkable, achieving a calculation time of less than 1/20 times that of the case without JAX. Recommended calculation conditions were disclosed based on the results of a number of trials, and a demonstration with testable Python code on Google Colaboratory using the recommended conditions is published on GitHub.
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IEICE Transactions on Electronics (Japanese Edition), J106–C(7) 289-290, Jul 1, 2023 Peer-reviewedLast authorCorresponding author
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IEICE Transactions on Electronics, E106.C(6) 232-235, Jun 1, 2023 Peer-reviewedLead authorLast authorCorresponding author
Misc.
148-
2016(71) 51-55, Jul 14, 2016
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115(265) 1-6, Oct 23, 2015
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Technical report of IEICE. OME, 114(393) 11-14, Jan 21, 2015Due to the expectation for the renewable energy source, photovoltaic devices with novel materials such as organic substances have attracted much attention. To get deeper insight of the device performance, the extraction of device parameters by fitting the illuminated current-voltage characteristics with the 1-diode equivalent circuit model, which consists of an ideal photocurrent source, a diode, and series and parallel resistances, is routinely carried out. In many cases, the forth quadrant of the characteristic is mainly used for this purpose. Although a lot of papers on the efficient fitting computational methods have been published, the features of the model itself in terms of the curve fitting have been rarely discussed. Here, it is shown that the fitting ability of the simple one-diode model is so high that the evaluation of the ideality factor of the diode is difficult, when the target photovoltaic device has sufficiently high series resistance and low parallel resistance. This condition is frequently satisfied by bulk-heterojunction organic thin-film photovoltaic devices. On the other hand, the estimation of the ideality factor from the dark characteristics is found to be rather easy, because of the high parallel resistance.
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Proceedings of the Society Conference of IEICE, 2014(2) 89-89, Sep 9, 2014
Books and Other Publications
7Presentations
57Major Teaching Experience
7Research Projects
26-
科学研究費助成事業 基盤研究(C), 日本学術振興会, Apr, 2018 - Mar, 2021
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Grants-in-Aid for Scientific Research Grant-in-Aid for Challenging Exploratory Research, Japan Society for the Promotion of Science, Apr, 2015 - Mar, 2019
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研究助成, (公財)岩谷直治記念財団, 2018 - 2019
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Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (B), Japan Society for the Promotion of Science, Apr, 2014 - Mar, 2017
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研究助成, (財)池谷科学技術振興財団, 2015 - 2016