Gotowe bibliografie tematyczne / Yasuhiko

Gotowa bibliografia na temat „Yasuhiko”

Autor: Grafiati
Data publikacji: 25 lipca 2024
Data aktualizacji: 26 lipca 2024

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Artykuły w czasopismach na temat "Yasuhiko"

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Abel, Olivier. "Laudatio Yasuhiko Sugimura". Études théologiques et religieuses 86, nr 3 (2011): 351. http://dx.doi.org/10.3917/etr.0863.0351.

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Akiyama, Yutaka, Hal Hill, Shin‐ichi Ichimura, Akira Kohsaka i Shujiro Urata. "Professor Yasuhiko Torii: An Obituary". Asian Economic Journal 34, nr 2 (czerwiec 2020): 233–36. http://dx.doi.org/10.1111/asej.12215.

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Evans, B. G. "Introducing our guest editor Dr. Yasuhiko Ito". International Journal of Satellite Communications 11, nr 4 (lipiec 1993): 169. http://dx.doi.org/10.1002/sat.4600110402.

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Frey, Daniel. "La religion dans l’œuvre de Ricœur. Dialogue avec Yasuhiko Sugimura". Études Ricoeuriennes / Ricoeur Studies 13, nr 2 (15.12.2022): 8–25. http://dx.doi.org/10.5195/errs.2022.613.

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Yasuhiko Sugimura’s review of my book La Religion dans la philosophie (Hermann, 2021) for the present issue of Études Ricœuriennes / Ricoeur Studies affords me an opportunity to return to my intention in this work. I verify the heuristic hypothesis that the complex relationship that Ricoeur’s philosophy established with religion can be explained by a process of secularization [laïcisation] of Ricoeur’s religious convictions. In dialogue with the aforementioned review, I propose to reconsider certain aspects of my criticism of Ricoeur on the question of truth.
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Shibata, Shoji. "Yasuhiko Asahina (1880–1975) and His Studies on Lichenology and Chemistry of Lichen Metabolites". Bryologist 103, nr 4 (grudzień 2000): 710–19. http://dx.doi.org/10.1639/0007-2745(2000)103[0710:yaahso]2.0.co;2.

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Probert, Matt. "Physics Meets Mineralogy: Condensed-Matter Physics in Geosciences, edited by Hideo Aoki, Yasuhiko Syono and Russell J. Hemley". Contemporary Physics 51, nr 6 (listopad 2010): 559. http://dx.doi.org/10.1080/00107514.2010.492141.

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Takata, Masao, Yasuhiko Harasawa, Sadek Beloucif i James L. Robotham. "Coupled vs. uncoupled pericardial constraint: effects on cardiac chamber interactions". Journal of Applied Physiology 83, nr 6 (1.12.1997): 1799–813. http://dx.doi.org/10.1152/jappl.1997.83.6.1799.

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Takata, Masao, Yasuhiko Harasawa, Sadek Beloucif, and James L. Robotham. Coupled vs. uncoupled pericardial constraint: effects on cardiac chamber interactions. J. Appl. Physiol. 83(6): 1799–1813, 1997.—The effects of pericardial constraint on cardiac chamber interactions were evaluated by mathematical model analyses based on a novel concept of coupled vs. uncoupled pericardial constraint. We hypothesized that the nature of pericardial constraint can be classified as a “coupled” constraint exerted by uniform liquid pressure or an “uncoupled” constraint exerted by regional surface pressure. The numerical solution of the model of atrioventricular interaction produced the characteristic waveforms in venous flows and right atrial/ventricular pressures in classical pericardial diseases. Coupled constraint accounted for the patterns in cardiac tamponade; uncoupled constraint accounted for those in constrictive pericarditis. Analytic solution of the model of ventricular interdependence demonstrated that coupled constraint (tamponade) produced greater gains in ventricular interdependence, increasing the occurrence of pulsus paradoxus, whereas uncoupled constraint (constriction) produced a greater effective right ventricular elastance, increasing the likelihood of Kussmaul’s sign. Thus the concept of coupled vs. uncoupled constraint may offer a coherent framework to understand the characteristic steady-state and respiratory-induced hemodynamic events in multiple forms of pericardial diseases.
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Walmsley, Jonathan. "Locke, Ideas and Abstraction". Locke Studies 7 (31.12.2007): 173–205. http://dx.doi.org/10.5206/ls.2007.1068.

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The title of Yasuhiko Tomida’s paper ‘“Separation” of Ideas Reconsidered: A Response to Jonathan Walmsley’ portends sustained criticism of my analyses of Locke’s views on abstraction. The impression is misleading. My conclusion, that Locke’s theory of abstraction was one of mental separation of parts of images, is cited several times, but mainly as an opportunity for Professor Tomida to commence his own interpretation of Locke’s views. There is relatively little direct consideration of the arguments advanced for my conclusions. This observation is not intended as a criticism, but rather as a means to understand Tomida’s enterprise. He has advanced an analysis of Locke’s theory of ideas in a series of publications. His recent ‘Sensation and Conceptual Grasp in Locke’contains the kernel of this interpretation. After considering the origin and nature of important ‘simple’ ideas, viz. solidity, extension, power, existence, and unity, the paper ends with a brief discussion of the abstract idea of a triangle. His subsequent response to my work is a continuation of these arguments. Rather than immediately countering Tomida’s response to my interpretation, I will first place his views on abstraction in the context of his larger project, and only then consider his views on abstract ideas, and their relation to my position.
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ROWLETT, PAUL. "Laurence R. Horn & Yasuhiko Kato (eds.), Negation and polarity: syntactic and semantic perspectives. Oxford & New York: Oxford University Press, 2000. Pp. ix+271." Journal of Linguistics 38, nr 3 (listopad 2002): 645–708. http://dx.doi.org/10.1017/s0022226702251919.

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Kikic, Ireneo. "Book Review: Supercritical Fluids: Molecular Interactions, Physical Properties, and New Applications (Springer Series in Material Processing). Edited by Yasuhiko Arai, Takeshi Sako, and Yoshihiro Takebayashí". ChemPhysChem 3, nr 11 (15.11.2002): 981. http://dx.doi.org/10.1002/1439-7641(20021115)3:11<981::aid-cphc981>3.0.co;2-q.

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Rozprawy doktorskie na temat "Yasuhiko"

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Sakuma, Yasuhiko [Verfasser], i Gernot [Akademischer Betreuer] Wilhelm. "Hethitische Vogelorakeltexte / Yasuhiko Sakuma. Betreuer: Gernot Wilhelm". Würzburg : Universitätsbibliothek der Universität Würzburg, 2013. http://d-nb.info/1042614628/34.

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Kluge, Thomas [Verfasser], Roland [Akademischer Betreuer] Sauerbrey i Yasuhiko [Akademischer Betreuer] Sentoku. "Enhanced Laser Ion Acceleration from Solids / Thomas Kluge. Gutachter: Roland Sauerbrey ; Yasuhiko Sentoku. Betreuer: Roland Sauerbrey". Dresden : Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden, 2013. http://d-nb.info/1068443804/34.

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Hood, Christopher P. "Nakasone Yasuhiro and Japanese education reform : a revisionist view". Thesis, University of Sheffield, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.286890.

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Suzuki, Yasuhito [Verfasser]. "How different is water crystallization from polymer crystallization under confinement? / Yasuhito Suzuki". Mainz : Universitätsbibliothek Mainz, 2015. http://d-nb.info/1078386684/34.

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Narita, Yasuhito [Verfasser]. "Low frequency waves upstream and downstream of the terrestrial bow shock / von Yasuhito Narita". Katlenburg-Lindau : Copernicus GmbH, 2006. http://d-nb.info/979493870/34.

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Perschke, Christopher Verfasser], i Yasuhito [Akademischer Betreuer] [Narita. "Dispersionseigenschaften magnetischer Fluktuationen auf ionenkinetischen Skalen in der Sonnenwindturbulenz / Christopher Perschke ; Betreuer: Yasuhito Narita". Braunschweig : Technische Universität Braunschweig, 2017. http://d-nb.info/117581783X/34.

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Gao, Bingyu. "Japanese conservatism and foreign policy : a focus on prime ministers Nakasone Yasuhiro, Koizumi Junichirō and Abe Shinzō". Thesis, University of Sheffield, 2017. http://etheses.whiterose.ac.uk/17916/.

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This dissertation investigates the influence of Japanese conservatism on the government’s foreign policy. The core set of questions of this research consists of the following: what is the position and status of conservatism in the spectrum of post-war Japanese political thinking? How has conservative thinking (especially conservative intellectuals) affected the perceptions and behaviour of the leaders and how has the leaders’ foreign policy-making reflected their conservative thinking? What is the mechanism by which conservative thinking exerts its influence on Japan’s foreign policy-making? What are the different ways in which different Japanese prime ministers exploited conservative intellectuals and vice versa? And, how did this double-way exploitation affect foreign policy-making? To address the research questions, first the place of conservatism among post-war Japanese ideologies is examined. Post-war Japan experienced a variety of ideological trends, including the partial revival of certain pre-war ideologies such as conservatism. Second, as the dominant ideology, how conservatism affected Japanese political practices, or what is the connection between conservative thinking and foreign policy is addressed. Third, Prime Ministers Nakasone Yasuhiro, Koizumi Junichirō and Abe Shinzō are taken up as cases to study the mechanism of how conservative thought affects foreign policy-making. The role of the concept of conservatism in the policy-making process has been extensively studied in political science and international relations. Likewise, “from concept to foreign policy” is the focal question of this study. Specifically, the aim is to find out how conservative intellectuals affect real politics (realpolitik) and foreign policy. Three paths are investigated: first, direct conversions from conservative intellectuals to conservative politicians; second, conservative intellectuals acting as political advisors to the three prime ministers, thereby providing them with intellectual support; and third, conservative intellectuals disseminating their thinking in Japanese society using their own influence, and eventually affecting government policy through the force of public opinion. This study draws on Robert A. Dahl’s pluralist theory of democracy, which suggests that political outcomes arise through competitive interest groups, rejecting the assumption that the state (or government) is the sole rational actor in politics. Using this insight, the dissertation examines the plural factors contributing to the origin and formation of the prime ministers’ conservative thought, including education, early environment, family legacy, and the relationships of the three prime ministers with their political advisors. In the Conclusions, a comparison of the conservative thought and foreign policies of the three prime ministers is carried out, examined in the context of the contemporary social ethos and international environment, leading to an elucidation of the causal mechanisms linking Japanese conservatism to Japanese foreign policy.
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Aponte, Elena M. "Either 'Shining White or Blackest Black': Grey Morality of the Colonized Subject in Postwar Japanese Cinema and Contemporary Manga". Bowling Green State University / OhioLINK, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=bgsu1491495352122861.

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Hayao, Kenji. "The Japanese prime minister and public policy". 1990. http://catalog.hathitrust.org/api/volumes/oclc/28532394.html.

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Lee, Chin-hsi, i 李進希. "Investigating Integer Quantum Hall effect in Kagomé and star lattice by Yasuhiro Hatsugai’s method". Thesis, 2015. http://ndltd.ncl.edu.tw/handle/24tkuw.

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碩士
國立中山大學
物理學系研究所
103
Since the single layer graphene are observed by Andre Geim and Konstantin Novoselov, the quantum phenomena emerging from graphene as attracted many physicists’s attentions in the two dimensional lattice structure. One of the important quantum phenomena is the unconventional quantum Hall effect which the Hall plateau (Chern number pattern) does not show successive integers but only odd integers. However, there are some other problems to calculate the quantum Hall conductivity, such as the determination of the Chern number pattern from a specific lattice structure and the reduction of the computational time. Motivated by these issues, I use Yasuhiro Hatsugai’s topological approaches to investigate the quantum Hall effect of other lattices. I use Hatsugai’s method to calculate the quantum Hall conductivity in two different lattices: Kagomé and star lattices. I find that the Dirac-like regions of quantum Hall conductivity also exists in both Kagomé and star lattices, which is similar to graphene. Unlike the graphene, the star lattice shows complicated Chern number structure in the electron-hole like regions. Hopefully, the Chern number pattern of the star lattice predicted by us can be determined by experiments in the near future.
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Książki na temat "Yasuhiko"

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Shibunkaku, Gyararī, red. Nisen-ichinen Kida Yasuhiko shinsakuten. [Kyoto]: [Gyararī Shibunkaku], 2001.

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Yasuhiko, Yoshikazu. Anime manga sensō: Yasuhiko Yoshikazu taidanshū. Tōkyō: Kadokawa Shoten, 2005.

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Kida, Yasuhiko. Nihon no matsuri: Kida Yasuhiko mokuhanga. Tōkyō: Kōdansha, 1985.

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Kida, Yasuhiko. Ittō no mugen: Kida Yasuhiko mokuhanga shūsei. Wyd. 8. Kyōto-shi: Mineruva Shobō, 2012.

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Kinomiya, Yukihiko. Rekishi gakusha Kinomiya Yasuhiko no ninshiki to saihakken. Wyd. 8. Shizuoka-shi: Shizuoka Yashimaya, 1985.

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1922-, Ōishi Yasuhiko, Kōno Hirotada 1932- i Nijkamp Peter, red. Potentials and bottlenecks in spatial development: Festschrift in honor of Yasuhiko Oishi. Berlin: Springer-Verlag, 1993.

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Yasuhiro, Ishimoto. Ishimoto Yasuhiro: Ishimoto Yasuhiro. Tōkyō: Iwanami Shoten, 1997.

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Iinkai, Sagae Shishi Hensan, red. Hirashio kuyū monjo, Hirashio Suginuma Kazuo-ke monjo, Takaya Takeda Yasuhiko-ke monjo, Nishimurayama gunchō Nishikawa Kōsaku kankei shiryō hoka. Sagae-shi: Sagae-shi Kyōikui Iinkai, 1997.

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Mito Geijutsukan. Gendai Bijutsu Sentā, Mito-shi Geijutsu Shinkō Zaidan i Mito Geijutsukan. Gendai Bijutsu Gyararī, red. Ishimoto Yasuhiro shashinten: Yasuhiro Ishimoto. Mito-shi: Mito Geijutsukan Gendai Bijutsu Sentā, 2010.

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Mori, Yasuhiko. "Zaiei Nihon shiryō no shozai to genjō ni kansuru chōsa" kenkyū hōkokusho: Report on the research of Japanese archives in the United Kingdom / Yasuhiko Mori. Tōkyō: Kokubungaku Kenkyū Shiryōkan Shiryōkan, 1997.

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Części książek na temat "Yasuhiko"

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Higano, Yoshiro. "Genpachiro Konno (1906–1996), Yasuhiko Oishi (1922–2014), and Hirotada Kohno (1932–): The Three Great Fathers of Japanese Regional Science". W Great Minds in Regional Science, 25–56. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-46157-7_3.

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Edström, Bert. "The Symbolic Statesman: Nakasone Yasuhiro". W Japan’s Evolving Foreign Policy Doctrine, 119–31. London: Palgrave Macmillan UK, 1999. http://dx.doi.org/10.1007/978-1-349-27303-4_12.

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Akimoto, Daisuke. "Yasuhiro Nakasone: The Nationalist and Advocate of Autonomy and True Alliance". W Japanese Prime Ministers and Their Peace Philosophy, 167–86. Singapore: Springer Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-8379-4_19.

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Akimoto, Daisuke. "Yasuhiro Nakasone: Der Nationalist und Verfechter von Autonomie und echter Allianz". W Die japanischen Premierminister und ihre Friedensphilosophie, 167–85. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-5815-1_19.

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"Cogtse Gyarong Yasuhiko Nagano". W The Sino-Tibetan Languages, 491–511. Routledge, 2006. http://dx.doi.org/10.4324/9780203221051-44.

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"Heroes and villains: manchukuo in Yasuhiko Yoshikazu’s Rainbow Trotsky". W Manga and the Representation of Japanese History, 139–63. Routledge, 2012. http://dx.doi.org/10.4324/9780203097816-15.

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"Nakasone Yasuhiro". W Japanese Diplomacy, 137–62. SUNY Press, 2015. http://dx.doi.org/10.1515/9781438454993-010.

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"Yasuhiro, Nakasone (Japan)". W The Statesman’s Yearbook Companion, 419. London: Palgrave Macmillan UK, 2019. http://dx.doi.org/10.1057/978-1-349-95839-9_841.

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Oshita, Johei. "XVIII. Yasuhiro Monden". W Les grands auteurs en contrôle de gestion, 313–22. EMS Editions, 2021. http://dx.doi.org/10.3917/ems.spone.2021.01.0313.

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"22. Fun’ya no Yasuhide". W Pictures of the Heart, 207–9. University of Hawaii Press, 2017. http://dx.doi.org/10.1515/9780824863951-029.

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Streszczenia konferencji na temat "Yasuhiko"

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Morishita, Masaki, Tai Asayama i Masanori Tashimo. "Development of System Based Code: Methodologies for Life-Cycle Margin Evaluation". W 14th International Conference on Nuclear Engineering. ASMEDC, 2006. http://dx.doi.org/10.1115/icone14-89393.

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The late Professor Emeritus Yasuhide Asada proposed the System Based Code concept, which intends the optimization of design of nuclear plants through margin exchange among a variety of technical options which are not allowed by current codes and standards. The key technology of the System Based Code is margin exchange evaluation methodology. This paper describes recent progress with regards to margin exchange methodologies in Japan.
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Asayama, Tai, Masaki Morishita i Masanori Tashimo. "Development of System Based Code: Case Study of Life-Cycle Margin Evaluation". W 14th International Conference on Nuclear Engineering. ASMEDC, 2006. http://dx.doi.org/10.1115/icone14-89397.

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For a leap of progress in structural deign of nuclear plant components, The late Professor Emeritus Yasuhide Asada proposed the System Based Code. The key concepts of the System Based Code are; (1) life-cycle margin optimization, (2) expansion of technical options as well as combinations of technical options beyond the current codes and standards, and (3) designing to clearly defined target reliabilities. Those concepts are very new to most of the nuclear power plant designers who are naturally obliged to design to current codes and standards; the application of the concepts of the System Based Code to design will lead to entire change of practices that designers have long been accustomed to. On the other hand, experienced designers are supposed to have expertise that can support and accelerate the development of the System Based Code. Therefore, interfacing with experienced designers is of crucial importance for the development of the System Based Code. The authors conducted a survey on the acceptability of the System Based Code concept. The results were analyzed from the possibility of improving structural design both in terms of reliability and cost effectiveness by the introduction of the System Based Code concept. It was concluded that the System Based Code is beneficial for those purposes. Also described is the expertise elicited from the results of the survey that can be reflected to the development of the System Based Code.
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Iguma, Ayaka, i Masashi Yamada. "Correspondence Analysis on the Production Staff for the Anime Series Nintama Rantaro". W 13th International Conference on Applied Human Factors and Ergonomics (AHFE 2022). AHFE International, 2022. http://dx.doi.org/10.54941/ahfe1001768.

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Nintama Rantaro is a long running TV anime series in Japan, which is produced by a large number of staff members. In the present study, 228 episodes of this series were selected to analyze the relationships among the staff members and the elements in the episodes, using correspondence analysis and cluster analysis. Numbers of storyboard writers, animation directors, screenplay writers and directors, and factors of the stories, e.g., representative expressions, motions of the main characters and emotions of the main characters, were counted, and a cross-tabulation table was constructed. The results of the correspondence analysis of the table showed that a three-dimensional space illustrated the correlations in the table with the cumulative contribution ratio of 42 %. The results of the cluster analysis with Ward’s method showed four clusters. Each of the four clusters coincided to each quadrant on the plane spanned by the first two dimensions. In the first quadrant, an animation director Tsuyoshi Ichiki was plotted. In the same quadrant, fighting motions of the main characters were plotted. Tsuyoshi Ichiki is one of the most proficient anime directors for battle scenes. Therefore, this indicates that the animation of episodes which includes battle scenes is chiefly directed by Tsuyoshi Ichiki in Nintama Rantaro. In the second quadrant, experienced animation directors, Emiko Niiyama and Kazue Tamari were plotted as well as a screenplay writer, Mitsuharu Yoshida who frequently writes the screenplay for the initial episode of a season. Moreover, characteristic expressions in Nitama Rantaro, such as the escape of the soul from the body, use a regional dialect “bayai” instead of “baai”, and the appearance of a character with breaking the screen, were plotted in this quadrant. This implies that the experienced animation directors and the screenplay writer use characteristic expressions especially for the initial episode of a season. In the third quadrant, an animation director Setsuko Shibuichi, who previously directed animations with sad stories, was plotted. The sad emotion of a main character is also plotted in the same quadrant. This indicates that for a sad episode, Setsuko Shibuichi directed the animation. In the fourth quadrant, screenplay writers, Satoshi Kimura and Kazuko Iwasaki are plotted as well as an animation director, Yasuhiro Endo, and various directions of motions of the characters are also plotted. This means that they are proficient dynamic motions of characters. In this way, the relationships among the staff members and the elements of the anime episodes are clarified in the context of Nintama Rantaro.
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Xiaozhi Wang and Neil Pegg, ISSC 2022 Editors. "Proceedings of the 21st International Ship and Offshore Structures Congress VOLUME 1 Technical Committee Reports". W 21st International Ship and Offshore Structures Congress, Volume 1. SNAME, 2022. http://dx.doi.org/10.5957/issc-2022-committee-vol-1.

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Preface The first volume contains the eight Technical Committee reports, and the second volume contains the reports of the eight Specialist Committees, presented and discussed at the 21st International Ship and Offshore Structures Congress (ISSC 2022) in Vancouver (Canada), on September 11–15, 2022. The Official Discussers’ reports and all floor discussions, including the replies by the committees, will be published after the Congress in electronic form. Table of Contents Preface .............................................................................................................iii Committee I.1: Environment .........................................................................1 Alexander Babanin (Chair); Mariana Bernardino; Franz von Bock und Polach; Ricardo Campos,; Jun Ding; Sanne van Essen; Tomaso Gaggero; Maryam Haroutunian; Vanessa Katsardi; Alexander Nilva; Arttu Polojarvi; Erik Vanem; Jungyong Wang; Huidong Zhang; Tingyao Zhu Committee I.2: Loads ................................................................................125 Ole Andreas Hermundstad (Chair); Shuhong Chai; Guillaume de Hauteclocque; Sheng Dong; Chih-Chung Fang; Thomas B. Johannessen; Celso Morooka; Masayoshi Oka; Jasna Prpić-Oršić; Alessandro Sacchet; Mahmud Sazidy; Bahadir Ugurlu; Roberto Vettor; Peter Wellens Committee II-1: Quasi-Static Response ....................................................227 James Underwood (Chair); Erick Alley; Jerolim Andrić; Dario Boote; Zhen Gao; Ad Van Hoeve; Jasmin Jelovica; Yasumi Kawamura; Yooil Kim; Jianhu Liu; Sime Malenica; Heikki Remes; Asokendu Samanta; Krzysztof Woloszyk; Deqing Yang Committee II.2: Dynamic Response .........................................................301 Gaute Storhaug (Chair); Daniele Dessi; Sharad Dhavalikar; Ingo Drummen; Michael Holtmann; Young-Cheol Huh; Lorenzo Moro; Andre Paiva; Svein Sævik; Rong-Juin Shyu; Shan Wang; Sue Wang; WenWei Wu; Yasuhira Yamada; Guiyong Zhang Committee III.1: Ultimate Strength ...........................................................395 Paul E. Hess (Chair); Chen An; Lars Brubak; Xiao Chen; Jinn Tong Chiu; Jurek Czujko; Ionel Darie; Guoqing Feng; Marco Gaiotti; Beom Seon Jang; Adnan Kefal; Sukron Makmun; Jonas Ringsberg; Jani Romanoff; Saad Saad-Eldeen; Ingrid Schipperen; Kristjan Tabri; Yikun Wang; Daisuke Yanagihara Committee III.2: Fatigue and Fracture ......................................................501 Yordan Garbatov (Chair); Sigmund K Ås; Henk Den Besten; Philipp Haselbach; Adrian Kahl; Dale Karr; Myung Hyun Kim; Junjie Liu; Marcelo Igor Lourenço de Souza; Wengang Mao; Eeva Mikkola; Naoki Osawa; Fredhi Agung Prasetyo; Mauro Sicchiero; Suhas Vhanmane; Marta Vicente del Amo; Jingxia Yue Committee IV.1: Design Principles and Criteria .......................................643 Matthew Collette (Chair); Piero Caridis; Petar Georgiev; Torfinn Hørte; Han Koo Jeong; Rafet emek Kurt; Igor Ilnytskiy; Tetsuo Okada; Charles Randall; Zbigniew Sekulski; Matteo Sidari; Zhihu Zhan; Ling Zhu Committee IV.2: Design Methods .............................................................745 Andrea Ivaldi (Chair); Abbas Bayatfar; Jean-David Caprace; Gennadiy Egorov; Svein Erling Heggelund; Shinichi Hirakawa; Jung Min Kwon; Dan Mcgreer; Pero Prebeg; Robert Sielski; Mark Slagmolen; Adam Sobey; Wenyong Tang; Jiameng Wu Subject Index .............................................................................................815 Author Index ...............................................................................................817
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Xiaozhi Wang and Neil Pegg, ISSC 2022 Editors. "Proceedings of the 21st International Ship and Offshore Structures Congress VOLUME 3 Discussions". W 21st International Ship and Offshore Structures Congress Volume 3 Discussions. SNAME, 2022. http://dx.doi.org/10.5957/issc-2022-discussion-vol-3.

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Committee I.1: Environment Alexander Babanin (Chair); Mariana Bernardino; Franz von Bock und Polach; Ricardo Campos,; Jun Ding; Sanne van Essen; Tomaso Gaggero; Maryam Haroutunian; Vanessa Katsardi; Alexander Nilva; Arttu Polojarvi; Erik Vanem; Jungyong Wang; Huidong Zhang; Tingyao Zhu Floor Discussers: Florian Sprenger; Carlos Guedes Soares; Henk den Besten Committee I.2: Loads Ole Andreas Hermundstad (Chair); Shuhong Chai; Guillaume de Hauteclocque; Sheng Dong; Chih-Chung Fang; Thomas B. Johannessen; Celso Morooka; Masayoshi Oka; Jasna Prpić-Oršić; Alessandro Sacchet; Mahmud Sazidy; Bahadir Ugurlu; Roberto Vettor; Peter Wellens Official Discusser: Hayden Marcollo Committee II-1: Quasi-Static Response James Underwood (Chair); Erick Alley; Jerolim Andrić Dario Boote; Zhen Gao; Ad Van Hoeve; Jasmin Jelovica; Yasumi Kawamura; Yooil Kim; Jian Hu Liu; Sime Malenica; Heikki Remes; Asokendu Samanta; Krzysztof Woloszyk; Deqing Yang Official Discusser: Prof. T. Yoshikwa Committee II.2: Dynamic Response Gaute Storhaug (Chair); Daniele Dessi; Sharad Dhavalikar; Ingo Drummen; Michael Holtmann; Young-Cheol Huh; Lorenzo Moro; Andre Paiva; Svein Sævik; Rong-Juin Shyu; Shan Wang; Sue Wang; WenWei Wu; Yasuhira Yamada; Guiyong Zhang Floor Discussers: Ling Zhu; Tomoki Takami; Anriette (Annie) Bekker; Bruce Quinton; Robert Sielski Committee III.1: Ultimate Strength Paul E. Hess (Chair); Chen An; Lars Brubak; Xiao Chen; Jinn Tong Chiu; Jurek Czujko; Ionel Darie; Guoqing Feng; Marco Gaiotti; Beom Seon Jang; Adnan Kefal; Sukron Makmun; Jonas Ringsberg; Jani Romanoff; Saad Saad-Eldeen; Ingrid Schipperen; Kristjan Tabri; Yikun Wang; Daisuke Yanagihara Official Discusser: Jørgen Amdahl Committee III.2: Fatigue and Fracture Yordan Garbatov (Chair); Sigmund K Ås; Henk Den Besten; Philipp Haselbach; Adrian Kahl; Dale Karr; Myung Hyun Kim; Junjie Liu; Marcelo Igor Lourenço de Souza; Wengang Mao; Eeva Mikkola; Naoki Osawa; Fredhi Agung Prasetyo; Mauro Sicchiero; Suhas Vhanmane; Marta Vicente del Amo; Jingxia Yue Official Discusser Weicheng Cui Floor Discussers: Robert Sielski; Sören Ehlers; Stephane Paboeuf; Teresa Magoga Committee IV.1: Design Principles and Criteria Matthew Collette (Chair); Piero Caridis; Petar Georgiev; Torfinn Hørte; Han Koo Jeong; Rafet emek Kurt; Igor Ilnytskiy; Tetsuo Okada; Charles Randall; Zbigniew Sekulski; Matteo Sidari; Zhihu Zhan; Ling Zhu Official Discusser: Enrico Rizzuto Committee IV.2: Design Methods Andrea Ivaldi (Chair); Abbas Bayatfar; Jean-David Caprace; Gennadiy Egorov; Svein Erling Heggelund; Shinichi Hirakawa; Jung Min Kwon; Dan Mcgreer; Pero Prebeg; Robert Sielski; Mark Slagmolen; Adam Sobey; Wenyong Tang; Jiameng Wu Official Discusser: Mario Dogliani Committee V.1: Accidental Limit States Bruce Quinton; Gaetano De Luca; Topan Firmandha; Mihkel Körgesaar; Hervé Le Sourne; Ken Nahshon; Gabriele Notaro; Kourosh Parsa; Smiljko Rudan; Katsuyuki Suzuki; Osiris Valdez Banda; CareyWalters; Deyu Wang; Zhaolong Yu Official Discusser: Manolis Samuelides Committee V.2: Experimental Methods Sören Ehlers (Chair); Nagi Abdussamie; Kim Branner; ShiXiao Fu; Martijn Hoogeland; Kari Kolari; Paul Lara; Constantine Michailides; Hideaki Murayama; Cesare Rizzo; Jung Kwan Seo; Patrick Kaeding Official Discusser: Giles Thomas Committee V.3: Materials and Fabrication Technology Lennart Josefson (Chair); Konstantinos Anyfantis; Bianca de Carvalho Pinheiro; Bai-Qiao Chen; Pingsha Dong; Nicole Ferrari; Koji Gotoh; James Huang; Matthias Krause; Kun Liu; Stephane Paboeuf; Stephen van Duin; Fang Wang; Albert Zamarin Official Discusser: Frank Roland Floor Discussers Alessandro Caleo; Agnes Marie Horn; Krzysztof Woloszyk; Robert Sielski Committee V.4: Offshore Renewable Energy Atanasios Kolios (Chair); Kyong-Hwan Kim; Chen Hsing Cheng; Elif Oguz; Pablo Morato; Freeman Ralph; Chuang Fang; Chunyan Ji; Marc Le Boulluec; Thomas Choisnet; Luca Greco; Tomoaki Utsunomiya; Kourosh Rezanejad; Charles Rawson; Jose Miguel Rodrigues Official Discusser: Amy Robertson Committee V.5: Special Vessels Darren Truelock (Chair); Jason Lavroff; Dustin Pearson; Zbigniew (Jan) Czaban; Hanbing Luo; Fuhua Wang; Ivan Catipovic; Ermina Begovic; Yukichi Takaoka; Claudia Loureiro; Chang Yong Song; Esther Garcia; Alexander Egorov; Jean-Baptiste Souppez; Pradeep Sensharma; Rachel Nicholls-Lee Official Discusser: Jaye Falls Floor Discussers: Jasmin Jelovica; Stephane Paboeuf; Sören Ehlers Committee V.6: Ocean Space Utilization Sebastian Schreier (Chair); Felice Arena; Harry Bingham; Nuno Fonseca; Zhiqiang Hu; Debabrata Karmakar; Ekaterina Kim; Hui Li; Pengfei Liu; Motohiko Murai; Spiro J Pahos; Chao Tian; George Wang Official Discusser: Hideyuki Suzuki Floor Discussers: Robert Sielski; Sue Wang; Sarat Mohapatra; Gaute Storhaug; Henk den Besten Committee V.7: Structural Longevity Iraklis Lazakis (Chair); Bernt Leira; Nianzhong Chen; Geovana Drumond; Chi-Fang Lee; Paul Jurisic; Bin Liu; Alysson Mondoro; Pooria Pahlavan; Xinghua Shi; Ha Cheol Song; Tadashi Sugimura; Christian Jochum; Tommaso Coppola Official Discusser: Timo de Beer Floor Discusser: Krzysztof Woloszyk Committee V.8: Subsea Technology Agnes Marie Horn (Chair); Tauhid Rahman; Ilson Pasqualino; Menglan Duan; Zhuang Kang; Michael Rye Andersen; Yoshihiro Konno; Chunsik Shim; Angelo Teixeira; Selda Oterkus; Blair Thornton; Brajendra Mishra Official Discusser: Segen F. Estefen
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