Asian Shakespeare Intercultural Archive (A-S-I-A) : A Collaborative Digital Project

Suematsu Michiko,Kobayashi Kaori 한국셰익스피어학회 2010 셰익스피어 비평 Vol.46 No.1

Asian Shakespeare has gained worldwide recognition for its role in the emergence of new artistic and cultural forms in the global age. Directors such as Ninagawa Yukio, Miyagi Satoshi, Ong Keng Sen, Oh Tae Sook, Wu Hsing-Kuo and many others experiment with new combinations of traditional and contemporary performance, new strategies for working across languages and genres, new ways of reaching diverse audiences. Shakespeare productions in Asia are now widely recognized as among the most innovative and distinguished in the world: they are changing how we understand the Shakespearean plays. They serve as a forum for theatre artists to deal with such contemporary questions as the emergence of new ideas of national and Asian identity, and reshape debates about the relation of East and West. In this paper we introduce Asian Shakespeare Interactive Archive: a Collaborative Digital Project (A S I A), which is a collaborative intersection between practitioners, individual scholars and three major Asian Shakespeare projects?the MIT Shakespeare Project (Massachusetts Institute of Technology), Relocating Intercultural Theatre (National University of Singapore) and A Web Archive of Asian Shakespeare Productions (JSPS Kaken/ Gunma-Doho Universities). A S I A is an extensive on-line archive of Asian Shakespeare productions dedicated to synergizing the field of Asian Shakespeare intercultural performance studies. This interactive, user-driven archive will feature new tools for use by scholars, teachers, practitioners and audiences.

Kyocera Corporation

Suematsu, Chihiro The Korean Association of Small Business studies 2018 기업가정신과 벤처연구 Vol.20 No.4

Kyocera Corporation is an electronic device, information equipment, and telecommunications equipment manufacturing company headquartered in Kyoto, Japan. The company's success has depended on its differentiated technology in ceramic manufacturing at the first stage. This technology was first sold to produce a part in TV CRT monitors, which boomed in the 1960s right after the company's launch. Since its founding in 1959, the company has been continuously exploring technological, product, and business development backed by its strong entrepreneurial mindset. This mindset is nurtured by the "Kyocera philosophy," the most important vision and motto of the company, which educates and encourages employees to grow themselves, respect others, and behave for all. This philosophy was advocated by the founder, Kazuo Inamori.

Experimental and numerical flow analysis in hydraulic vane pump

Junichi SUEMATSU,Tetsuhiro TSUKIJI,Mariko WATANABE,Shinji YAKABE,Hirohito WATANABE,Yoshinari NAKAMURA,Kazunari SUZUKI 유공압건설기계학회 2015 유공압건설기계학회 학술대회논문집 Vol.2015 No.10

The purpose of this study is to conduct a three dimensional flow analysis of a hydraulic vane pump by using computational fluid dynamics (CFD), to evaluate an accuracy of volumetric flow rate in CFD compared to experimental value and to examine a influence of the evaporation coefficient and condensation coefficient in Zwart–Gerber–Belamri cavitation model to pressure in a vane chamber. In this study, standard k-ε turbulent model with the Zwart–Gerber–Belamri cavitation model is used to estimate the cavitating flow in vane pump. In CFD, two notch models are used. From results of experiments and CFD analysis of volumetric flow rate, there is little difference between the experiments and CFD results in the low speed range. However, for high speed range, in a case with no cavitation model, the CFD results of volumetric flow rate are different from the experimental ones. On the other hand, in the case with cavitation model, those agree with the experimental values. In this case, the error of volumetric flow rate is less than 1% in the low speed range and less than 2.5% in the high speed range. From CFD results of pressure fluctuation in a vane chamber when the evaporation coefficient and condensation coefficient in the cavitation model are varied, the surge pressure can be seen in a vane chamber. In conclusion, it could be considered that the CFD calculation with cavitation model is sufficiently accurate in volumetric flow rate. In addition, as the evaporation coefficient becomes large, amplitude of the pressure fluctuation in a vane chamber after a surge pressure becomes large, as the condensation coefficient becomes large, the surge pressure in a vane chamber becomes low.

Kyocera Corporation

Chihiro Suematsu 한국중소기업학회 2018 기업가정신과 벤처연구 Vol.20 No.4

Kyocera Corporation is an electronic device, information equipment, and telecommunications equipment manufacturing company headquartered in Kyoto, Japan. The company’s success has depended on its differentiated technology in ceramic manufacturing at the first stage. This technology was first sold to produce a part in TV CRT monitors, which boomed in the 1960s right after the company’s launch. Since its founding in 1959, the company has been continuously exploring technological, product, and business development backed by its strong entrepreneurial mindset. This mindset is nurtured by the “Kyocera philosophy,” the most important vision and motto of the company, which educates and encourages employees to grow themselves, respect others, and behave for all. This philosophy was advocated by the founder, Kazuo Inamori.

Study of Short-Term Sunspot Motion toward Flare Onset Prediction

Yoshinori SUEMATSU,Clara Y. YATINI 한국천문학회 2011 天文學會報 Vol.36 No.2

Progress of Optoelectronics Research in Japan

Yasuharu Suematsu 한국통신학회 1997 OPTOELECTRONICS & COMMUNICATIONS CONFERENCE Vol.2 No.1

One-chip determinism multi-layer neural network on FPGA

Ryosuke Suematsu,Ryosuke Shimizu,Tomoo Aoyama 제어로봇시스템학회 2002 제어로봇시스템학회 국제학술대회 논문집 Vol.2002 No.10

SPECTROSCOPIC OBSERVATION OF THE SOLAR ACTIVE REGIONS IN HeI 10830 ${\AA}$ LINE

TOHMURA ICHIROH,KITAI REIZABURO,SUEMATSU YOSHINORI,SOLTAU DIRK The Korean Astronomical Society 1996 Journal of The Korean Astronomical Society Vol.29 No.suppl1

Here we report the results from spectroscopic observations of soloar active regions in the HeI 10830 ${\AA}$ line at the German Vacuum Tower Telescope(VTT) in Tenerife during the August 199:3 International EFR(Emerging Flux Region) Campaign. Four active regions in various stages of their evolution, i.e., NOAA7558, 7560, 7561, and 7562, were ovserved on 10 August 1993. From the observed HeI 10830 ${\AA}$ spectra in these active regions, spectroscopic quantities such as equivalent width(EW), doppler shift, doppler width, etc., were derived(see Figure l(a)) and the correlation between them were studied(see Figure l(b)). Our main results are as follows: (I)In NOAA7562, which is a young and evolving EFR, the EW is large, while it is small around a simple and roundish spot of NOAA7558. (2)In these active regions, redshift in the 10830 line is dominant when the EW is larger. (3)As the doppler width increases, the line tends to shift redward. (4)When the EW is smaller, it seems to exist another component which have dynamic characteristics different from the redshifting component. In NOAA7560 and NOAA7561, regions which have several small spots, the values of the EW are intermediate. Results (2) and (3) may suggest the possible existence of downflow above active regions, if the HeI 10830 ${\AA}$line is formed in the upper chromopshere, and it is consistent with the earlyer result from the SMM extreme-ultraviolet observation by Klimchuk(1987, Astrophys. J., 323, 368) (to be submitted. to Astronomy and Astrophysics; an extended abstract)

OCR Application By a FPGA Programming AND/OR Neural Network

Qianyi Wang,Ryosuke Suematsu,Ryosuke Shimizu,Tomoo Aoyama 제어로봇시스템학회 2002 제어로봇시스템학회 국제학술대회 논문집 Vol.2002 No.10

수퍼커패시터용 Carbon nanofiber전극의 전기화학적 특성

강진석,박수길,( Shunzo Suematsu ),( Katsuhiko Naoi ) 한국공업화학회 2002 한국공업화학회 연구논문 초록집 Vol.2002 No.0

전기자동차의 개발에 있어서 핵심기술이라고 할 수 있는 전원장치용 배터리와 커패시터의 개발이 시급히 요구되고 있다. 가속 및 감속시의 peak power를 위해서 중요한 역할을 해온 기존의 커패시터는 파워밀도가 작아 생기는 문제점을 해결하기 위하여 고성능의 전원용 및 비상용커패시터가 출현하여 상용화 되어지고 있는 추세이다. 특히 이들중에서 전기이충층 커패시터는 뛰어난 성능으로 수퍼커패시터라 불려 상용화 되어왔다. 본 연구에서는 파워밀도 및 대용량을 목표로한 커패시터개발에 중요한 요인을 차지하는 전극 활물질개발로서 Carbon nanofiber전극을 사용하여 전기이중층 커패시터를 구성하여 용량측정을 비교하였다. 기존의 EDLC용 탄소전극은 파워밀도는 높지만 에너지밀도가 낮다는 점에서 전극표면에서의 전기이중층 용량의 증가가 필요하다. 따라서 CarbcDn nanofiber의 도입은 다른 활성 탄소 섬유보다 비표면적이 높아 용량증가의 현상을 관찰할 수 있었고, 이들의 전기화학적거동을 Cyclic voltammetry법에 기초하여, 전극의 대용량목표에 따른 용량향상효과에 관한 현상 및 수퍼커패시터용Carbon nanofiber전극의 응용개발 결과에 관해 토론할 것이다.