DOCSLIB.ORG

Annual Report 2011 Report Annual ニ ュ ア ル レ ポ ー ト

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Annual Report 2011 Report Annual ニ ュ ア ル レ ポ ー ト ア Annual Report 2011 ニ ュ ア ル レ ポ ー ト 2 0 0 9 年 3 A 月 n 期 n u a l R e p o r t 2 0 0 9 STRAIGHT AHEAD Annual Report 2011 Year ended March 31, 2011 NSK usedNSK usedenvironmentally environmentally friendly friendly paper paper and and printing printing methods methods for for this this publication. publication. この印刷物は環境に配慮した用紙・印刷方法を採用しています。 CAT. No.E8404CAT. No.E8402 2011-DX-9 2009 E-8 Printed Printed in inJapan Japan ©NSK ©NSK Ltd.Ltd. 20112009 CAT. No.8402 2009 C-8 Printed in Japan ©日本精工株式会社 2009 missiOn statement NSK aims to contribute to the well-being and safety of society and to protect the global environment through its innovative technology integrating MOTION & CONTROL. We are guided by our vision of NSK as a truly international enterprise, and are working across national boundaries to improve relationships between people throughout the world. cOntents 02 This Is NSK 28 Research and annual repOrt 2011 Development NSK has prepared this annual report not only to inform shareholders and investors 08 To Our Shareholders but also to enhance communication with a wide range of individuals who wish to and Investors 30 Social and know more about the Company. The report focuses on NSK’s efforts to become a Environmental Activities truly global company by sourcing the talents of diverse personnel worldwide while developing businesses rooted in regional markets. 10 An Interview with 32 the President Corporate Governance For further information about the For further information about the Com- Company, its products, business pany’s philosophy and initiatives relating 37 Financial Section 17 Special Feature: activities, and fi nancial position, to corporate social responsibility (CSR), please see NSK’s web site. please see the sustainability section of STRAIGHT AHEAD 76 NSK Group NSK’s web site and NSK’s CSR reports. 22 Review of Operations 78 Information for www.nsk.com www.nsk.com/sustainability/ Investors 22 Business at a Glance CSR Report 24 Industrial Machinery Business 26 Automotive Business 01 prOfile Since becoming the fi rst company in Japan to manufacture bearings in 1916, NSK has developed and supplied many different types of bearings. At the beginning of the 1960s, we began globalizing operations while exploiting technological prowess garnered from the production and development of bearings to launch forays into the fi elds of automotive products and precision machinery and parts. The centerpiece of our Mission Statement, MOTION & CONTROL, encapsulates a com- mitment to providing products that control friction and curb energy loss, in order to assist global environmental protection while contributing to industrial growth and the conve- nience and safety of everyday life. the assessment Of Outside agencies Social responsibility indexes (SRIs) include companies that promise long-term sustainable growth because they merit high evaluations for environmental and social contributions as well fi nancial standing. Moreover, a broad range of institutional investors are attaching greater importance to such companies. Four internationally recognized SRIs include NSK as of March 2011. Dow Jones Ethibel Investment Register FTSE4Good Index Series Morningstar Socially Responsible Sustainability Indexes Investment Index http://www.ftse.com/Indices/ http://www.sustainability-indexes.com http://www.ethibel.org/index.html FTSE4Good_Index_Series/index.jsp http://www.morningstar.co.jp/sri/index.htm cautiOnary statements with respect tO fOrward-lOOking statements Statements made in this annual report with respect to plans, strategies, and future performance that are not historical facts are forward-looking statements. NSK cautions that a number of factors could cause actual results to differ materially from those discussed in the forward-looking statements. > this is nsk prOduct lineup prOduct the nsk Brand: contributing to the world through high-performance Quality products NSK supplies a range of bearings and precision machinery and parts for industrial machinery as well as bearings and components for auto- mobiles. Incorporated into machines or automobiles, these products control friction and support smooth, precise movement. Through their signature high performance and quality, NSK-brand products will continue to meet the needs of many different industries around the world. industrial machinery Business Industrial machinery bearings Double row cylindrical roller Miniature ball bearings Spherical roller bearings, bearings, high-rigidity series TL series Precision machinery and parts Ball screws for high-speed Roller guide equipped with high-perfor- Megatorque motorsTM machine tools, HMS series mance side seals, NSK Linear GuideTM technOlOgy keeping the world turning, four core technologies Four core technologies have driven NSK’s growth into a leading company for bearings, automotive components, and precision machinery and parts: tribology, material engineering, analysis technology, and mechatronics. We will benefi t society by using these technologies as a base on which to develop further leading-edge technologies, thereby providing customers with the high-performance, quality products they need in a timely manner. triBOlOgy This science of lubrication addresses the friction and abrasion that ◎pOint1: energy conservation arises when material surfaces move in contact with each other. Bearings use rollers or balls to minimize friction that would normally Lubrication technology meets the demands of bearings that support arise where sliding surfaces are in continuous contact with each other. rotational or liner motion applications. Furthermore, the principles of With less energy loss from friction, machinery operates more smoothly tribology trace their origins to ancient Mesopotamia, which is illus- and consumes less energy. trated in a mural that shows how a heavy stone statue was trans- ported with relative ease. ◎pOint2: durability Sliding surfaces that generate friction always produce abrasion. Bear- ings reduce friction generated in rotating parts, which lessens abrasion and extends machine service life. Longer-lasting machinery also helps to save resources. ◎pOint3: reliability Friction is always accompanied by heat. Excessive frictional heat causes the sliding surfaces of machinery to seize up. By reducing the frictional heat, bearings prevent seizure and help machinery achieve a greater degree of reliability and help prevent malfunctions. From a mural unearthed at Nineveh, the capital of ancient Assyria 02 03 autOmOtive Business Automotive bearings Hub unit bearing with integrated Long-life lipped thrust race for use in Next-generation tapered roller bearing ABS sensor severe lubrication conditions with plastic cage design for the drivetrain market Automotive components Column-type electric power steering Slidable intermediate shafts Friction clutch assemblies (EPS) systems material engineering analysis technOlOgy mechatrOnics Materials are critical for bearings. NSK devel- In recent years, end-users and manufactur- Mechatronics combines mechanical tech- ops technology that enables the high-preci- ers have sought rolling bearings that oper- nologies—which NSK has developed for sion evaluation of the cleanliness levels of ate at higher speeds, function with higher bearings, automotive components, and pre- materials in order to produce highly durable degrees of accuracy, and reduce energy cision machinery and parts—with electronic bearings for a wide range of environments and consumption. NSK applies computer simu- technologies for sensors and motor control. operating conditions. By designing material lation and analysis to meet such needs. In a By applying mechatronics, NSK creates new constituents and applying heat treatment pro- computer simulation, the bearings rotate in products in a wide range of fi elds. Mecha- cesses, we are able to increase bearing durabil- a virtual environment where engineers are tronics exemplify NSK’s initiatives to integrate ity and reliability. Moreover, we are developing able to develop optimum designs. MOTION & CONTROL. technologies that combine various technologies in order to create or enhance functionality. 50µm 1µm 100nm The structure of the material of a bearing Analyzing the fl ow rate of lubricants for Nano-order positioning equipment for tapered roller bearings biological cell manipulation > this is nsk BusinessfOundatiOns catering to diverse needs worldwide Because bearings are important components of many different machines, international standardization of bearing specifi cations has been underway for many years. As a result, competition has developed in increasingly borderless business conditions. NSK began developing over- seas business bases in earnest from the early 1960s. Since then, we have taken advantage of our technological capabilities to build a global network that caters to diverse demand around the world. Going forward, we intend to boost our presence in overseas markets even further. u.k. u.s.a. Japan china india Headquarters singapOre 27 START 12 20 26 countries Overseas countries countries countries business development begins 22 58 108 sites sites sites 1962 141 sites 1976 1991 2001 Note: Number of countries and bases, excluding Japan, as of June 2011. 2011 prOperty, plant and nsk’s glOBal netwOrk eQuipment / persOnnel BreakdOwn At present, NSK’s network of production, sales, and technology bases comprises 65 sites in Japan (%) SHARE OF TOTAL Europe and 141 sites in 27 other countries. Since the mid-1990s, we have been accelerating business NET SALES development in China and
Load more

Recommended publications
  • The Japanese Automotive Cluster
    The Japanese Automotive Cluster Microeconomics of Competitiveness May 6th, 2016 Andi Taufan Garuda Putra Emma Sun Jason Tsai Yameng Hu Yohei Sugimoto Table of Contents 1 Country Analysis 1.1 Country Background 1.2 Economic Performance 1.3 Macroeconomic Competitiveness 1.3.1 MFPs 1.3.2 SIPI 1.4 Country Diamond Analysis 1.4.1 CSR 1.4.2 DC 1.4.3 FC 1.4.4 SRI 1.5 Cluster Mapping 2 Japan Automotive Cluster 2.1 Cluster History 2.2 Cluster Profile 2.3 IFCs 2.4 Recent Trends 2.5 Cluster Diamond Cluster deep dives 2.6 Competition 3 Recommendation 3.1 Country recommendation 3.2 Cluster recommendation 1. Country Analysis 1.1. Country Background In B.C. 660. Japan was established by Amaterasu Omikami, the goddess of the sun. The country consists of four large island – Honshu, Hokkaido, Shikoku, and Kyushu - Figure 1 Map of Japan and countless small islands in the Pacific Ocean near China, Korea, and Russia. (See Figure 1 for the map of Japan.) The mountainous archipelago stretches 3,000 km north to south, and is on four tectonic plates, and 40 volcanoes are active and earthquakes occur 1,000 times a year. As of 2015, 127 million people live in only 27% of the land area, which makes large cities’ population dense. 38 million people live in Tokyo-Yokohama are (world’s largest metropolitan) and 17 million live in Osaka-Kobe-Kyoto area (14th largest) (Demographia, 2014). The country is not endowed much resources and only has marine sea resources, which necessitated Japan to become one of the largest sea-borne traders.
    [Show full text]
  • Japan's Manufacturing Competitiveness Strategy
    Japan’s Manufacturing Competitiveness Strategy: Challenges for Japan, Opportunities for the United States japan cover_040909indd.indd c1 4/9/2009 3:35:40 PM japan cover_040909indd.indd c2-c3 4/9/2009 3:35:51 PM Japan’s Manufacturing Competitiveness Strategy: Challenges for Japan, Opportunities for the United States by Jane Corwin and Rebecca Puckett Published April 2009 by the U.S. Department of Commerce, International Trade Administration. The full text of this report is available on the International Trade Administration’s Internet site at www. trade.gov. It is also available for purchase as a paper, microfiche, or electronic reprint from the National Technical Information Service, 5285 Port Royal Road, Springfield, VA 22161;www.ntis.gov . Contents Foreword v Executive Summary vi Introduction 1 Overarching Themes 2 Insights from Japan: Case Studies—Shared Perspectives 7 U.S. Companies That Succeed in Japan 14 Opportunities for Greater U.S.—Japan Relations 17 Appendixes A. Overview of Japan’s Economy and Manufacturing Sector 20 B. Meetings and Contacts 25 C. Comparison of R&D Expenditures between Japan and the United States 28 Tables Table A.1: Key Economic Indicators of Japan and the United States, 2006 22 Table A.2: Manufacturing Foreign Affiliates in Japan and in the United States 23 Table C.1: Comparison of R&D Expenditures between Japan and the United States 28 Abbreviations and Acronyms 29 Endnotes 30 Japan’s Manufacturing Competitiveness Strategy iii Foreword Because I was born in Japan to missionary parents successful business models for foreign firms in the and lived there until college, a goal of mine was Japanese market? to find a bridge between my past in Japan and my professional career at the U.S.
    [Show full text]
  • Monthly Report May Market Outlook May 2019 Daiwa Asset Management Co.Ltd
    Monthly Report May 2019 May Market Outlook Daiwa Asset Management Co.Ltd. •Japanese Equities: Paying Attention to See If All Bad Nikkei Stock April end MoM News Is Out by Financial Results Announcements Average 22,258.73 Yen 4.97% [Market review in April] Equity prices rose due to heightened expectations about the bottoming out of the Chinese economy Equity prices in Japan rose. Due to the improvement of the business sentiment index for manufacturing in China announced at the end of March, equity prices rose with the heightened expectations of improved earnings for manufacturing in Japan. The IMF (International Monetary Fund) made a downward revision to the outlook for the global economic growth rate for 2019 in the middle of the month. However, equity prices rose further because more than one economic statistic in China for March published later was better than the market expectation, causing the Nikkei Stock Average to recover to the 22,000 yen range. [Outlook] While announcements of financial results by Japanese companies, which began in earnest in late April, are as expected by the market in advance, there are many issues with the company plan showing less profit for this fiscal year. In order for equity prices to step up from the current range, it is deemed necessary to have news which suggests the halting of declines in earnings. Therefore, we are paying attention to the explanations to be given by individual companies at their announcement of financial results which will peak in May. Moreover, since U.S. President Trump suggested he would increase tariff rates in the U.S.–China trade talk, we will need to pay attention to that development going forward.
    [Show full text]
  • ARTICLES the Prewar Japanese Automobile Industry and American Manufacturers Against This Background,There Emerged Not Only Entre
    ARTICLES The Prewar Japanese Automobile Industry and American Manufacturers By Masaru Udagawa Hosei University Introduction The use of automobiles in Japan began to grow during the economic boom that followed World War I.The growth continued in the aftermath of the great earthquake of September1923,which destroyed South Kanto,including Tokyo and Yokohama.In the reconstruction following the earthquake,automobiles played an especially important role trans porting goods and people in the city.The usefulness of automobiles was thus widely recognized by the early1920s.1) Against this background,there emerged not only entrepreneurs who began producing automobiles,but also well-established companies that expanded their business into automotive manufacturing.The industry seemed to enjoy an auspicious beginning,yet most early auto makers failed to grow.Ironically,in the midst of plentiful opportunities for market expansion,many either went bankrupt or withdrew from the in dustry.The only firms that survived were Tokyo Ishikawajima Zosensho Jidoshabu(Automobile Division of Tokyo Ishikawajima Shipyards), Tokyo Gasu Denki Kogyo Jidoshabu(Automobile Division of Tokyo Gas and Electric),and DAT Jidosha Seizo(DAT Automobile Manufac turing). The failure of the early Japanese auto industry is attributable to the Big Three•hAmerican manufacturers,who quickly recognized •gthe increasing demand for automobiles in the1920s and lost no time in making inroads into the Japanese market.Ford founded Japan Ford in Yokohama in1925,with4million yen in capital,which was increased to 8million yen in1929.General Motors founded Japan GM in Osaka in 1927,investing8million yen.Chrysler was represented by Kyoritsu Jidosha Seisakusho(Kyoritsu Automobile Works),a concern in Yoko hama established in1928with capital of200,000yen.When the Big 81 Three commenced production using the•gknock-down•hassembly meth od,the Japanese makers,as yet lacking mass production and marketing techniques,could not compete.Table1shows how swiftly the U .S.
    [Show full text]
  • Shizuoka Prefecture
    Japan Credit 26 February 2019 Japanese report: 25 February 2019 (DSCR3183) Shizuoka Prefecture Why Shizuoka became one of Japan's leading prefectures for manufacturing Credit Memorandum JCRE443 Tokugawa Ieyasu retired to Sunpu Castle in Shizuoka Prefecture after yielding FICC Research Dept. power to his son in 1605. The prefecture, known for its mild climate and scenic beauty, is one of Japan's leading prefectures in terms of manufacturing. Its favorable location, between Tokyo area and Nagoya area, the early completion of the Tomei Expressway, and abundant water resources have contributed to the Senior Credit Analyst development of manufacturing in the prefecture. Kouji Hamada (81) 3 5555-8791 The prefecture is also the birthplace of Japan's motorcycle industry, the [email protected] top-ranking one in Japan for seven straight years in terms of the total value of output of pharmaceuticals and medical equipment, and Japan's leading one in terms of pulp and paper production. Daiwa Securities Co. Ltd. Tokugawa Ieyasu yielded The Edo era, which lasted 265 years (1603-1868), started when Tokugawa Ieyasu was power to his son after appointed shogun (generalissimo) and established the Tokugawa Shogunate in Edo two years (current Tokyo) in 1603. However, just two years later, in 1605, he named his son Hidetada to the shogunate. Ieyasu took control after winning the Battle of Sekigahara in 1600, after the leader Toyotomi Hideyoshi died, but members of the Toyotomi clan remained in Osaka. Ieyasu's early retirement was apparently a declaration that he did not intend to return power to the Toyotomi clan.
    [Show full text]
  • US-Japan Semiconductor Agreement
    UCLA UCLA Pacific Basin Law Journal Title The U.S.-Japan Semiconductor Agreement: Chipping Away at Free Trade Permalink https://escholarship.org/uc/item/6nm902k9 Journal UCLA Pacific Basin Law Journal, 12(2) Author Kaufman, Charles S. Publication Date 1994 DOI 10.5070/P8122022056 Peer reviewed eScholarship.org Powered by the California Digital Library University of California COMMENT THE U.S.-JAPAN SEMICONDUCTOR AGREEMENT: CHIPPING AWAY AT FREE TRADE Charles S. Kaufmant TABLE OF CONTENTS I. Introduction ........................................ 330 II. Prelude to the 1986 Arrangement .................. 332 A. Background ........................... 332 1. The Importance and Development of the Semiconductor Industry .................... 332 2. Forward Pricing ............................. 334 3. Segments of the Semiconductor Industry: Memory Chips, Specialized Logic Chips, and Semiconductor Equipment ............. 334 B. The Alarm of 1985 ............................. 336 C. Defense and Strategic Concerns ................ 338 D. Legal Initiatives Leading Up to the 1986 A greem ent ..................................... 339 III. How Did Japanese Producers Gain the Lead in Semiconductors? ......... 340 A. The Unfair Trade Practices Argument ......... 340 1. Targeting ................................... 340 2. Protection .................................. 342 a. Keiretsu Purchasing Practices ........... 342 b. MITI Administrative Guidance ......... 343 3. Impediments to Investment ................. 344 B. Countervailing Market Explanations for Trends in the Semiconductor Trade .................... 344 t J.D. Expected, UCLA School of Law, May 1994. The author acknowledges the assistance of Edwin M. Reingold, Acting Director of the U.S.C. Center for Inter- national Journalism, who shared information gathered during more than two de- cades of observing semiconductor relations between Japan and the United States. The author also thanks Rafael A. Icaza for his advice and assistance as editor. PACIFIC BASIN LAW JOURNAL [Vol.
    [Show full text]
  • Siemens and the Business of Medicine in Japan, 1900–1945
    Pierre-Yves Donzé Siemens and the Business of Medicine in Japan, 1900–1945 This article focuses on the involvement of Siemens in the mar- ket for radiology equipment in Japan between 1900 and 1945. It explores why the German multinational company was un- able to keep its dominant position in the Japanese market in the interwar years despite its technological competitiveness. At this time the Japanese medical market was already well structured when the country opened up to the West. In partic- ular, it examines the fi rm’s strategic choices in relation to the changing economic and technological environment, highlight- ing the importance for foreign multinationals of working to- gether with national trading fi rms involved in the distribution of drugs and products for doctors. edicine experienced a paradigm shift in the twentieth century, M changing from a small-scale, half-charitable activity to one of the main sectors of the economy. The transformation of medicine into a business came about in the fi rst half of the twentieth century, largely driven by the introduction of new technologies, such as drugs mass- produced by the pharmaceutical industry, medical laboratories, and surgery equipment.1 Among the innovations that made medicine a prof- itable and growing activity, X-ray machines changed the very nature of This work was supported by Grant-in-Aid for JSPS Fellow (21.09015). For their kind as- sistance, comments, and advice, the author thanks Angela Huang (Siemens Med-Archives), Akira Kudo (the University of Tokyo), and Minoru Sawai (Osaka University). In this article, the names of persons follow the usage in Japan, that is, with the family name preceding the fi rst name.
    [Show full text]
  • Platinum Matthey
    PLATINUM Net platinum demand declined by 5.0 per cent in already replaced platinum Gross European Demand for Platinum 2008 to 6.35 million ounces. Gross autocatalyst with palladium in catalyst in Autocatalyst 2004-2008 demand fell to 3.81 million ounces, largely due to formulations on most vehicles ‘000 oz the drop in vehicle production in Western Europe where this was possible. Little DieselGasoline 2,500 and North America. Industrial demand for platinum scope thus remained for further was negatively affected by economic conditions substitution and platinum and contracted to 1.76 million ounces. Jewellery demand simply fell in line with 2,000 manufacturers bought a net 1.37 million ounces the drop in vehicle production. of new metal with demand exceptionally strong in In the diesel sector, the 1,500 the final quarter of the year. Investors, especially use of platinum-based diesel in Japan, responded to the falling platinum price particulate filters (DPFs) on 1,000 in late 2008, boosting physical investment demand new vehicles provided staunch by 150 per cent to 425,000 oz. support for demand. Between 500 40 and 50 per cent of all light duty diesel vehicles sold in 0 AUTOCATALYST Europe during 2008 were fitted 2004 2005 2006 2007 2008 Gross global autocatalyst demand for platinum with DPFs. This was a significant fell by 8.2 per cent in 2008 to 3.81 million ounces. increase from 2007 as auto makers aimed to benefit A slowdown in Slowing vehicle production drove European from German financial incentives ahead of the new the European platinum demand 1.7 per cent lower, to 2.02 million Euro 5 emissions rules.
    [Show full text]
  • Resilient Industries in Japan
    Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized ©2020 The World Bank International Bank for Reconstruction and Development The World Bank Group 1818 H Street NW, Washington, DC 20433 USA October 2020 RIGHTS AND PERMISSIONS The material in this work is subject to copyright. Because The World Bank encourages dissemination of its knowledge, this work may be reproduced, in whole or in part, for noncommercial purposes as long as full attribution to this work is given. Any queries on rights and licenses, including subsidiary rights, should be addressed to World Bank Publications, The World Bank Group, 1818 H Street NW, Washington, DC 20433, USA; e-mail: [email protected]. CITATION Please cite this report as follows: World Bank. 2020. “Resilient Industries in Japan: Lessons Learned in Japan on Enhancing Competitive Industries in the Face of Disasters Caused by Natural Hazards.” World Bank, Washington, D.C. ii Resilient Industries in Japan Resilient Industries in Japan iii DISCLAIMER This work is a product of the staff of The World Bank with external contributions. The findings, interpretations, and conclusions expressed in this work do not necessarily reflect the views of The World Bank, its Board of Executive Directors, or the governments they represent. The World Bank does not guarantee the accuracy of the data included in this work. The boundaries, colors, denominations, and other information shown on any map in this work do not imply any judgment on the part of The World Bank concerning the legal status of any territory or the endorsement or acceptance of such boundaries.
    [Show full text]
  • Phase I: Japan's Distribution System and Options for Improving U.S. Access
    PHASE I: JAPAN'S DISTRIBUTION SYSTEM AND OPTIONS FOR IMPROVING U.S. ACCESS Report to the House Committee on Ways and Means on Investigation No. 332-283 Under Section 332 (g) ,· of the Tariff Act of 1930 · USITC PUBLICATION 2291 JUNE 1990 United States International Trade Commission Washington, DC 20436 UNITED STATES INTERNATIONAL TRADE COMMISSION COMMISSIONERS Anne E. Brunsdale, Chairman Ronald A. Cass, Vice Chairman Alfred E. Eckes Seeley G. Lodwick David B. Rohr Don E. Newquist Office of Economics John W. Suomela, Director Trade Reports Division Martin F. Smith, Chief Diane L. Manifold Project Leader Judith Czako Kim S. Frankena Paul R. Gibson Michael Hagey Andrew Wylegala Principal Authors Assistance was also provided by Gerald Berg, Richard Bo/tuck, Robert Feinberg, Joseph Shaanan, Janet Whisler, and Salvatore Scanio, Intern. Data assistance was provided by Dean M. Moore. Supporting assistance was provided by Paula R. Wells and Linda Cooper. Address all communications to Kenneth R. Mason, Secretary to the Commission United States International Trade Commission Washington, DC 20436 PREFACE On October 23, 1989, the United States International Trade Commission (USITC) received a letter from the House Committee on Ways and Means (presented as appendix A) requesting that the Commission conduct an investigation, in two phases, under section 332(g) of the Tariff Act of 1930 with respect to Japan's distribution system and options for improving U.S. access to that system. In response to the request from the House Ways and Means Committee, the Commission instituted investigation No. 332-283 on November 13, 1989. The first phase of the report was to be submitted on June 22, 1990 and Phase II of the report by October 23, 1990.
    [Show full text]
  • When Traditional Culture Meets Modern Science and Technology
    9th International Conference on Public Communication of Science and Technology (PCST) Seoul, South Korea, 17-19 May 2006 WHEN TRADITIONAL CULTURE MEETS MODERN SCIENCE AND TECHNOLOGY Yuji Wada, Tohru Ishizuka, Atsushi Ozawa Institute for Future Technology (IFTECH),Japan Abstract In the 21st Century we are searching for a new horizon of science and technology. The possibilities of new findings exist not only in the future, but also in the past. When Japanese traditional culture meets modern science and technology, new idea or product might be born. Inside mobile phone you can find various emerging technologies derived from Japanese traditional arts and crafts; manufacturing skill and knowledge of paper, porcelain, and golden foil. Another cases are related with new application of Natto (Japanese fermented soybeans),and modern product from Japanese traditional steel manufacturing. This research is sponsored by Ministry of Education, Culture, Sports, Science and Technology MEXT) in Japan[1]. Keywords: Traditional Arts and Crafts, Modern Science and Technology, Mobile phone, Natto, Steel Manufacturing 1. Introduction Japan is a country of modern science and technology. At the same time Japan has a traditional culture as an Asian country. In the 21st Century we are searching for a new horizon of science and technology. The possibilities of new findings are not only in the future, but also in the past. When Japanese traditional culture meets modern science and technology, new idea or product might be born. In this paper I show successful examples of marriage of modern technology and Japanese traditional culture in mobile phone, Natto and steel manufacturing. 2. Japanese Traditional Crafts Heritage Inside Mobile Phone Mobile phone is compacted by modern ICT and materials.
    [Show full text]
  • FY2015 Summary of the White Paper on Manufacturing Industries (Monodzukuri)
    FY2015 Summary of the White Paper on Manufacturing Industries (Monodzukuri) May 2016 Ministry of Economy, Trade and Industry (METI) Ministry of Health, Labour and Welfare (MHLW) Ministry of Education, Culture, Sports, Science and Technology (MEXT) < Contents > Part I Current Status and Challenges of Manufacturing Infrastructure Technology Chapter 1 Challenges that Japan’s Manufacturing Industry Faces and its Future [P5] Section 1 Recognition of Current Status of Japan’s Manufacturing Industry Section 2 For Strengthening Domestic Bases Section 3 Manufacturing Companies Starting to Accelerate Business Innovation in Response to Market Changes Chapter 2 Enhancement of Labor Productivity and Promotion of Women’s Participation in the Manufacturing Industry [P26] Section 1 Challenges and Measures for Enhancing Labor Productivity and Promoting Women’s Participation in the Manufacturing Industry Section 2 Efforts for Fostering Human Resources in the Manufacturing Industry Chapter 3 Education and R&D to Support the Foundations of Japan’s Manufacturing Industry [P49] Section 1 Fostering of Manufacturing Human Resources who Support a Productivity Revolution Section 2 Enhancement of Japan’s Educational and Cultural Capacity to Foster Manufacturing Human Resources Section 3 Promotion of Research and Development for Achieving a Productivity Revolution 1 Outline of “Chapter 1 Challenges that Japan’s Manufacturing Industry Faces and its Future” (1) Recognition of Current Status of Japan’s Manufacturing Industry Performance of Japanese manufacturing companies continues to improve and profit distribution to employees is progressing also in SMEs. The fourth industrial revolution is not only facilitating process reform in manufacturing sites but also triggering changes in business models themselves. In the meantime, concrete measures for the fourth industrial revolution have yet to be taken sufficiently by small-sized companies and fields that require changes to business models.
    [Show full text]