Relevant bibliographies by topics / Technical Activities Committee

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Academic literature on the topic 'Technical Activities Committee'

Author: Grafiati

Published: 4 June 2021

Last updated: 12 February 2022

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Journal articles on the topic "Technical Activities Committee"

Winkeler, Mark. "Technical committees: Activities of the DEIS technical committee on nanodielectrics: Committee objectives." IEEE Electrical Insulation Magazine 36, no. 3 (2020): 51–52. http://dx.doi.org/10.1109/mei.2020.9063564.

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Shi, Jiancheng, and Sharmila Padmanabhan. "Modeling in Remote Sensing Technical Committee Activities [Technical Committees]." IEEE Geoscience and Remote Sensing Magazine 8, no. 2 (2020): 139–41. http://dx.doi.org/10.1109/mgrs.2020.2975136.

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Bentsman, Joseph. "Technical Committee on Power Generation [Technical Activities]." IEEE Control Systems 38, no. 5 (2018): 14–113. http://dx.doi.org/10.1109/mcs.2018.2851004.

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Sanfelice, Ricardo. "Technical Committee on Hybrid Systems [Technical Activities]." IEEE Control Systems 38, no. 6 (2018): 16–18. http://dx.doi.org/10.1109/mcs.2018.2866648.

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Jayawardhana, Bayu, and Steffen Waldherr. "Technical Committee on Systems Biology [Technical Activities]." IEEE Control Systems 39, no. 1 (2019): 15–24. http://dx.doi.org/10.1109/mcs.2018.2876952.

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Su, Rong. "Technical Committee on Smart Cities [Technical Activities]." IEEE Control Systems 39, no. 2 (2019): 15–18. http://dx.doi.org/10.1109/mcs.2018.2888706.

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Findeisen, Rolf. "Technical Committee on Process Control [Technical Activities]." IEEE Control Systems 39, no. 2 (2019): 18–20. http://dx.doi.org/10.1109/mcs.2018.2888707.

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Siegel, Jason. "Technical Committee on Automotive Control [Technical Activities]." IEEE Control Systems 39, no. 3 (2019): 23–24. http://dx.doi.org/10.1109/mcs.2019.2900816.

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Hiskens, Ian. "Technical Committee on Smart Grid [Technical Activities]." IEEE Control Systems 41, no. 4 (2021): 21. http://dx.doi.org/10.1109/mcs.2021.3076386.

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Wei, Xiaoyong, Zhongyang Z. Y. Cheng, and Xiaoyong Wei. "Technical committees: Activities of the DEIS technical committee on "functional dielectrics"." IEEE Electrical Insulation Magazine 36, no. 6 (2020): 62–63. http://dx.doi.org/10.1109/mei.2020.9222636.

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Dissertations / Theses on the topic "Technical Activities Committee"

Velychko, Hanna. "Činnost ukrajinské emigrace v Poděbradech (1. polovina 20. století)." Master's thesis, 2015. http://www.nusl.cz/ntk/nusl-341956.

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The thesis research is devoted to activities of the Ukrainian Husbandry Academy, which existed in Podiebrady during 1922-1935 and developed into the first Ukrainian Polytechnic, where youth from the different Ukrainian territories, belonging to Poland, Hungary, Romania, USSR could get free education. This academy became "an island of Ukrainian culture" in a foreign land. The paper reviews the formation of this unique high school and its periodization, as well as its successor - the Ukrainian Technical Husbandry Institute of correspondence education (1932-1945), which appeared in exile due to the financial support of Czechoslovak government and donations of Ukrainians around the world. The last chapter is devoted to UHA broad publishing activities and attemp to list its educational works, which have been found in the several Czech archives as the parts of raw archival funds. Some aspects of the thesis concern the little-studied UHA contribution to the formation of economic, polytechnic and agricultural terminology in the modern Ukrainian language, as well as its librarianship together with the information about the location of UHA library in the Czech Republic.

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Books on the topic "Technical Activities Committee"

American Concrete Institute. Technical Activities Committee. ACI Technical Committee manual. American Concrete Institute, 1996.

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United States. Congress. Senate. Committee on Armed Services. United States support for counter-narcotics activities in the Andean Ridge and neighboring countries and the impact of narcotrafficking on the stability of the region: Hearing before the Committee on Armed Services, United States Senate, One Hundred Sixth Congress, second session, April 4, 2000. U.S. G.P.O., 2002.

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Nelson, Benjamin F. Drug control: U.S. counterdrug activities in Central America : statement of Benjamin F. Nelson, Associate Director, International Affairs Issues, National Security and International Affairs Division, before the Subcommittee on Information, Justice, Transportation, and Agriculture, Committee on Government Operations, House of Representatives. The Office, 1994.

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Impacts of U.S. export control policies on science and technology activities and competitiveness: Hearing before the Committee on Science and Technology, House of Representatives, One Hundred Eleventh Congress, first session, February 25, 2009. U.S. G.P.O., 2009.

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United States. Congress. House. Committee on Science and Technology (2007). Impacts of U.S. export control policies on science and technology activities and competitiveness: Hearing before the Committee on Science and Technology, House of Representatives, One Hundred Eleventh Congress, first session, February 25, 2009. U.S. G.P.O., 2009.

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Nelson, Benjamin F. Drug control: Update on U.S.-Mexican counternarcotics activities : statement of Benjamin F. Nelson, Director, International Relations and Trade Issues, National Security and International Affairs Division, before the Subcommittee on Criminal Justice, Drug Policy, and Human Resources, Committee on Government Reform, House of Representatives. The Office, 1999.

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Nelson, Benjamin F. Drug control: Status of U.S. international counternarcotics activities : statement for the record by Benjamin F. Nelson, Director, International Relations and Trade Issues, National Security and International Affairs Division, before the Subcommittee on National Security, International Affairs, and Criminal Justice, Committee on Government Reform and Oversight, House of Representatives. The Office, 1998.

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Book chapters on the topic "Technical Activities Committee"

Waggener, Jack. "PEI Environmental Committee Report on Recent Activities." In 62nd Porcelain Enamel Institute Technical Forum: Ceramic Engineering and Science Proceedings, Volume 21, Issue 5. John Wiley & Sons, Inc., 2008. http://dx.doi.org/10.1002/9780470294642.ch16.

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Kouyate, Zoumana, Kléouforo M. Dao, Oumar Togola, et al. "Cowpea Seed Innovation Platform: A Hope for Small Seed Producers in Mali." In Enhancing Smallholder Farmers' Access to Seed of Improved Legume Varieties Through Multi-stakeholder Platforms. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-8014-7_10.

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AbstractCowpea is a food crop of great importance to the people of Mali due to its contribution to food security, improvement of producers’ incomes, a price that is higher than that of cereals, and an important role in social relationships. However, the availability of good quality seeds is a major constraint to its production and productivity. As seeds are the key input in agriculture, an innovation platform has been established at the Cinzana Agronomic Research Station in May 2016 to improve the production and distribution of cowpea seeds in Mali. It brings together farmers, distributors, transporters, financial and technical services, and NGOs. This ensures greater sharing of information and knowledge among the different actors involved in the cowpea seed value chain. Two bodies of governance were set up: Program Planning Committee and Executive Office. Significant results have been achieved in three years of existence: the number of varieties used has increased from 5 to 12. The amount of foundation seeds produced annually has increased from 1 t to more than 20 t. The sales strategy in small packs proved very effective by reaching more farmers. Promotional activities involved 25 training sessions for 1097 farmers in different aspects of the value chain and 299 demonstrations, involving 2934 producers and benefiting 12193 farmers.

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De Waal, Henk. "Overview of the Activities of the Technical Committees of the International Commission on Glass." In 64th Conference on Glass Problems: Ceramic Engineering and Science Proceedings, Volume 25, Issue 1. John Wiley & Sons, Inc., 2008. http://dx.doi.org/10.1002/9780470294857.ch19.

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Simaika, Samir, and Nevine Henein. "The Committee for the Preservation of Arab Art." In Marcus Simaika. American University in Cairo Press, 2017. http://dx.doi.org/10.5743/cairo/9789774168239.003.0015.

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This chapter discusses Marcus Simaika's work as a member of the Committee for the Preservation of Arab Art (Comité de conservation des monuments de l'art arabe). The Comité was founded in 1881 by Khedive Tewfik, son and successor of Ismaʻil Pasha. Long before joining it in 1905, Simaika had been in constant communication with, and was a very good friend to, Max Herz Pasha, a Hungarian Jew who worked under Julius Franz Pasha, the architect who directed the technical office of the Waqfs (Endowments) Administration and was a driving force in the Comité until his retirement in 1887. The chapter provides an overview of the Comité's activities, including the restoration of ancient Coptic churches.

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Marzola, Luci. "The Academy Technical Bureau, Cooperative Research, and the Building of the Studio System." In Engineering Hollywood. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780190885588.003.0007.

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At the end of the 1920s, the Academy of Motion Picture Arts and Sciences (AMPAS) harnessed its role in the transition to sound to shift leadership of technical research to Hollywood. At the same time that it began the Sound School, the Academy established a Producers-Technicians Committee designed to pool knowledge of universal production practices. This chapter argues that AMPAS was able to establish itself as the authority over everyday technology in Hollywood through this committee and by absorbing the AMPP’s Technical Bureau. Through their collective scientific activities, the studios were able to take advantage of the knowledge and skills of their workers to solidify Hollywood’s dominance over the motion picture industry. At the same time, several new journals and publications for the dissemination of technical knowledge were established, including the International Photographer, Journal of the Society of Motion Picture Engineers, and the Academy Technical Digest, determining who disseminated knowledge, generated definitions, and created standards. The institutional structure established by the start of 1930 would remain stable throughout the golden age of Hollywood, making AMPAS both the clearinghouse and the gatekeeper that determined what the basic standards for technology would be and who would have access to this knowledge.

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Kern, Josipa. "Standardization in Health and Medical Informatics." In Medical Informatics in Obstetrics and Gynecology. IGI Global, 2009. http://dx.doi.org/10.4018/978-1-60566-078-3.ch017.

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When things go well then often it is because they conform to standards (ISO, 2005). According to the Oxford Dictionary of Modern English, there is a lot of explanation of what standard means, but, in context of the first sentence, the best meaning is «standard is a thing or quality or specification by which something may be tested or measured». Personal computer is a standardized computer. It means that any of its components is made according to strictly defined specification. Consequently, it does not matter who produces components and where they are produced. Industry put the first demand for standards. Especially standardization is extremely important for electronics, for information and communication technology (ICT), and its application in different areas. Nowadays developing of standards is organized on global, international level, but it exists also on national level, well harmonized with international one. Developers of standards are organizations and groups working on this matter. The leading standard developer in the world is International Standards Organization (ISO). ISO is a nongovernmental organization established on 23 February 1947. Its mission is to promote the development of standardization and related activities in the world with a view to facilitating the international exchange of goods and services, and to developing cooperation in the spheres of intellectual, scientific, technological and economic activity (ISO, 2005). ISO collaborates with its partners in international standardization, the International Electrotechnical Commission (IEC), a non-governmental body, whose scope of activities complements ISO’s. The ISO and the IEC cooperate on a joint basis with the International Telecommunication Union (ITU), part of the United Nations Organization and its members are governments. The ISO standard can be recognized by the ISO logo, ISO prefix and the designation, “International Standard”. European developer of standards is the European Committee for Standardisation (Comité Européen de Normalisation – CEN). It was founded in 1961 by the national standards bodies in the European Economic Community and EFTA countries. CEN promotes voluntary technical harmonization in Europe in conjunction with worldwide bodies and its partners in Europe and the conformity assessment of products and their certification (CEN, 2005). CEN cooperates with the European Committee for Electrotechnical Standardization (CENELEC), and the European Telecommunications Standards Institute (ETSI). Product of this cooperation is the European standard which can be recognized by the prefix EN. Any added prefix to the existing one, for both ISO and CEN standard, means that this standard is result of cooperation with other standardization group or organization. The prefix ENV in European standardization means that this standard is not yet a full standard (it is under development by CEN). ISO and CEN have Technical Committees working in the specific areas. ISO/TC215, established in 1998, and CEN/TC251, established in 1991, are corresponding technical committees working on standardization in health and medical informatics in ISO and CEN. Both standardization bodies, the ISO and CEN cooperate, and they mutually exchange their standards. There are also a variety of organizations and groups developing standards, cooperating with ISO and CEN or acting as administer and coordinator in standardization. For example, there are Health Level 7 (HL7), Digital Imaging and Communications in Medicine (DICOM), American National Standards Institute (ANSI), non-profit organization that administers and coordinates the U.S. voluntary standardization and conformity assessment system, etc.

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Coffman, Elesha J. "Spiritual Significance." In Margaret Mead. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198834939.003.0009.

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When challenged by a magazine editor in 1971 to cite any spiritually significant work she had done, Mead gave a fulsome response. “The list of my writings with spiritual significance is too long to burden your journal,” she wrote, offering just three sample citations: the essay “Cultural Man,” which she wrote for the World Council of Churches collection Man in Community; her introduction to the National Council of Churches volume Christians in a Technological Era; and “Christian Faith and Technical Assistance,” published in Christianity and Crisis in 1955. She continued, “I am at present, as I have been for many years actively engaged in various enterprises which seek to combine religion and science and religion and psychiatry, at various levels from the Committee on the Future of Earl Hall at Columbia University, to the activities of the Episcopal Church, the National Council of Churches and the World Council of Churches.” She was, by the early 1970s, an established authority on religion. Why did so many people who knew her name not know this aspect of her life?

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Osabuohien, Evans S. C., Uchechukwu E. Okorie, and Romanus A. Osabohien. "Rice Production and Processing in Ogun State, Nigeria." In Food Systems Sustainability and Environmental Policies in Modern Economies. IGI Global, 2018. http://dx.doi.org/10.4018/978-1-5225-3631-4.ch009.

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This chapter examines the importance of indigenous institutional arrangements in rice production and processing activities in Ogun State, Nigeria through the use of key informant interviews (KIIs). Analyses from the study show that agricultural financing constitutes the greatest challenge that affects rice production and processing. Other findings from the discourse reveal that in some rice producing areas where there is the existence of rice farmers' clusters, there is access to modern rice processing machines such as winnowers, threshers, and destoners. The operations of Rice Growers Association of Nigeria (RGAN) in Ogun State are coordinated by the executive committee, which constitute the indigenous institutional arrangement. This chapter recommends that sincere and concerted efforts on the part of the government in implementing the goals of agricultural transformation agenda be made to engender the welfare of rice farmers through the development of the rice value chain. The need for actively involving the rice farmers through the RGAN is also germane. The opportunities identified in the study include: having “pool of land” RGAN that enables the rice farmers to form clusters and increase production, creating platform through which the rice growers could leverage to facilitate access to inputs and technical support, and gaining of visibility and market access to enhance returns on their farming endeavours.

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Thangamuthu, Poongodi, Anu Rathee, Suresh Palanimuthu, and Balamurugan Balusamy. "Cybercrime." In Encyclopedia of Criminal Activities and the Deep Web. IGI Global, 2020. http://dx.doi.org/10.4018/978-1-5225-9715-5.ch001.

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Cybercrime is a computer-oriented crime where offences are committed against an individual person or group of persons with a criminal intention to harm the victim either physically or psychologically, directly or indirectly, using IT devices via internet. It may threaten an individual or a financial health and even a nation's security by intercepting or disclosing the confidential information. The various forms of cybercrime are phishing, identity theft, hacking websites, spreading terrorism, distributing child pornography, etc. Cybercrime does not require any higher-level technical knowledge but only sufficient financial support to perform the unethical process. The current demand for malware creation exceeds three times the supply, and now, new tools are arriving with the concept of “malware as a service.” The deep web is the invisible web that paves the way for various criminal activities like weapon trading, cybercrime, and drugs.

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Andrew, Youpa. "Derivative Goodness and Derivative Badness." In The Ethics of Joy. Oxford University Press, 2019. http://dx.doi.org/10.1093/oso/9780190086022.003.0007.

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In addition to the goodness and badness of wellness and illness, Spinoza has things to say about the goodness and badness of types of actions and about such things as food, music, sporting activities, and knowledge of God. This chapter continues to flesh out his moral philosophy. To avoid confusion with “action” in Spinoza’s technical sense of the word (3D2), the author uses “deed” when speaking of actions in our ordinary sense. By “deed” is meant an individual’s voluntary behavior—that is, behavior that results from an individual’s desires, emotions, and beliefs regardless of whether the desires and emotions are active or passive and regardless of whether the beliefs are adequate or inadequate. In contrast with the underivative goodness of wellness and the underivative badness of illness, this chapter shows that Spinoza is committed to the derivative goodness and derivative badness of deeds and of spatially external objects.

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Conference papers on the topic "Technical Activities Committee"

Jones, Robert. "Chairman's report NEMA magnet wire Technical Committee activities." In 1985 EIC 17th Electrical/Electronics Insulation Conference. IEEE, 1985. http://dx.doi.org/10.1109/eic.1985.7458573.

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Kübler, Jakob J., and Roger Morrell. "European Standardization Activities for Advanced Technical Ceramics." In ASME 1993 International Gas Turbine and Aeroengine Congress and Exposition. American Society of Mechanical Engineers, 1993. http://dx.doi.org/10.1115/93-gt-158.

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A summary of the progress being made in Europe towards the provision of standards for advanced technical ceramics is given. Under CEN Technical Committee 184, working groups have been preparing more than 40 standards in the areas of classification, powders, monolithic ceramics, long-fibre composites and ceramic coatings. The target date for this work was the end of 1992. Considerable progress has been made, and by the end of 1993, most of these should have been published. It is hoped that the formation of this standards base will improve the quality of testing and the reliability of property data on this class of materials, and thus improve confidence in their use as engineering materials.

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Caeiro, Manuel, Martin Llamas, Manuel Castro, et al. "Practice and research in engineering education: Activities of the CESEI Technical Committee." In 2010 IEEE Education Engineering 2010 - The Future of Global Learning Engineering Education (EDUCON 2010). IEEE, 2010. http://dx.doi.org/10.1109/educon.2010.5493057.

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Murata, Hidekazu, Eiji Okamoto, Manabu Mikami, et al. "R&D activities for 5G in IEICE technical committee on radio communication systems." In 2015 21st Asia-Pacific Conference on Communications (APCC). IEEE, 2015. http://dx.doi.org/10.1109/apcc.2015.7412520.

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Rezaeifar, Ayat, Mojtaba Mesgari, and Bahar Mehmani. "Activities in Iran for Standardization of Nanotechnology." In ASME 4th Integrated Nanosystems Conference. ASMEDC, 2005. http://dx.doi.org/10.1115/nano2005-87025.

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The importance of nanotechnology standardization is to reach the main topic in developing standards, which is “uniformity in manufacturing and facilitating the commercialization of nano-products.” According to this goal, activities on standardization in nanotechnology have been started in Iran, where development of nanotechnology is assigned to National Nanotechnology Committee of Iran. This committee is working under direct supervision of presidency office. As written in the committee’s official website [http://www.nano.ir], one of the long term goals of this movement, according to the “fourth development program of Iran” is to reach appropriate share of world trade based on nanotechnology. For this purpose standard developing and quality management system is needed for facilitating industrial and technological cooperation and decreasing costs raised from quality unawareness. So our workgroup has selected nanotechnology standardization as one of its research topics. We have studied current state of different active countries in this field and find out that one can categorize these activities into two major groups, General and Specific. The general activities refer to those looking from the regulatory and nomenclature point of view. In the other side specific activities have done according to local contracts signed between manufacturers, organizations and business start-ups. As examples of the activities started in Iran we can mention: 1. Establishing National Laboratory Network for Nanotechnology by National Nanotechnology Committee of Iran. 2. Collaboration of the Institute of Standards and Industrial Research of Iran (ISIRI) with, International Standard Organization (ISO) for starting the new Nanotechnology TC (technical committee). Today, Iran is one of the 23 active members of ISO TC 229 on Nanotechnologies. 3. Academic research on standardization of measurement procedures used for nano-scale materials. We have gathered or proposed in our research some opportunities specifically for Iran, which may also be helpful for other developing countries to enhance their market position in the upcoming era of nanotechnology. These proposals can be listed as below: 1. Establishing a national committee for managing and regulating of nanotechnology standards; 2. Starting nanotechnology technical committee in Iranian Standard and Industrial Research Organization; 3. Actively collaborating with other countries and international standard institutes, insisting on the country’s core competencies; 4. Introducing Iran’s specific needs to international standard institutes; 5. Equipping national laboratories; 6. Collaborating with international laboratory networks; 7. Developing specific standards based on casual contracts; 8. Activation of researchers to focus on measurement procedures and methods; 9. Participation in regional seminars and workshops and initiation of such activities. With paying attention to these activities, we can find the opportunity of holding a highly referenced database and information center for nanotechnology related commerce. To organize the “nanotechnology technical committee” inside the ISIRI [http://www.isiri.org/], which is responsible for all standardization activities in Iran, we decided to follow the common inter organizational disciplines of this institute, but we suggested assigning 2 or 3 members of this committee, despite others, as full time members. These members would track international standardization activities, and would be the administrators of such activities within Iran. Actively collaboration with other countries and international standard institutes, insisting on the country’s core competencies, would have lots of benefits for country. Taking into consideration that, there is no comprehensive and global accepted nano-standard in the world, through these efforts we can introduce our main interested topics of standardization to international standard institutes (e.g. during our correspondences with Dr. Hatto from UK committee for standardization in Nanotechnologies, we received an offer to notice them our priorities in Nano-standards). To do so, ISIRI has announced his full support of new ISO TC on Nanostandards. To be able to play an appropriate role in this field, having laboratories with advanced equipments is something essential. Because of the reason that these facilities are costly, we decided to take the advantages of National Laboratory Network for Nanotechnology. The laboratories within this network can support nanostandardization process through measurement at nano scale, identifying characterization of nano structures and materials, and their physical and chemical properties (for more information about this network you can visit the following website http://nanolab.nano.ir). Having a well-known and advanced national laboratory network, Iran can provide services to other countries too, and also can become a member of international laboratory networks to develop it activities. The other activity that Iran is interested in is to take part in joint works with international standard making organizations to develop specific standards (e.g. characterization of nanoparticles in ceramics industry). After developing such standards they could be certified through authority standard making organization. Universities also can play an active role in nanotechnology standardization from different aspects. For instance they can do surveys to study priorities of country in this field, and also can study on measurement at nanoscale, characterization of nanomaterilas, test method subjects and etc. Also, some activities in this field have been done in some first rated universities in the country. Participating in regional seminars and making good connections between scientists who are working at this task is another way to have a good background about nano standardization and developing special standards in nano technology. Scientists can co-work in regional universities and laboratories and they can present their research results in such kind of seminars. The goal of such program is making a new task in science and a good relationship between researchers who are working at laboratories on nano standardization and governments. Developing specific standards based on casual contracts makes our universities, laboratories and industries strong for developing standards for special cases. Being strong in such contracts give our industries and universities a powerful goal for developing standards in special cases. Equipping national laboratories and Collaborating with international laboratory networks gives our industries and universities a wide range of abilities for making precision measurements and being in touch with other institutes. The researchers and engineers can use the results of each laboratory for their researches and measurements. In this way the special contracts can be stronger and appearance of Iran in seminars, workshops and commercial relations will be more effective. One of the most important decisions can be finding a proper industry in Iran which can compete in world trade. For this kind of industry using nano materials as the primary materials or in other steps of process and developing standards will be very helpful. This kind of researches will helpful for developing a long range policy for nanotechnology in Iran.

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"Credits." In ISTFA 2019. ASM International, 2019. http://dx.doi.org/10.31399/asm.cp.istfa2019fm01.

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de Vries, Charlotte, Kate Fu, Elizabeth Starkey, et al. "Broadening Participation: Over Ten Years of Outreach Within the IDETC-DED Community." In ASME 2020 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/detc2020-22687.

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Abstract A core ethos of the engineering discipline is to tackle large, complex problems of central importance to society utilizing a range of technical knowledge and skills. One major barrier to this goal is the lack of diversity in the discipline, leading to a shortage of the talent pool, reduced capacity for innovation, and it can negatively impact the educational experience of engineering students. To respond to this charge, the Broadening Participation Committee (BPart) of the American Society of Mechanical Engineering’s Design Engineering Division (ASME DED) has conducted a number of activities aimed at fostering a diverse professional community and addressing the needs of people typically under-represented within engineering. This includes professional development workshops, networking sessions, travel funds available for graduate students and postdoctoral scholars, and micro-grants available for parents with young children. This paper discusses the activities provided by the BPart Committee since 2013, as well as the outcomes and additional initiatives that occurred as a result of the BPart Activities. Examples of such activities include seven professional development workshops, three workshop panels, and seven networking receptions. In the workshop participant feedback, we see some effect when there is a female presenter over a male presenter, but this effect appears to be limited. A discussion on future activities of BPart is presented in order to continue to grow and foster this community.

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Brinkman, Charles R. "Development of ASTM Standards in Support of Advanced Ceramics — Continuing Efforts." In ASME 1998 International Gas Turbine and Aeroengine Congress and Exhibition. American Society of Mechanical Engineers, 1998. http://dx.doi.org/10.1115/98-gt-530.

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An update is presented of the activities of the American Society for Testing and Materials (ASTM) Committee C-28 on Advanced Ceramics. Since its inception in 1986, this committee, which has five standard producing subcommittees, has written and published over 32 consensus standards. These standards are concerned with mechanical testing of monolithic and composite ceramics, nondestructive examination, statistical analysis and design, powder characterization, quantitative microscopy, fractography, and terminology. These standards ensure optimum material behavior with physical and mechanical property reproducibility, component reliability, and well-defined methods of data treatment and material analysis for both monolithic and composite materials. Committee C-28 continues to sponsor technical symposia and to cooperate in the development of international standards. An update of recent and current activities as well as possible new areas of standardization work will be presented.

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Kanno, Takashi. "International Standardization Activities for Fine Ceramics: Status of ISO/TC 206 on Fine Ceramics." In ASME 1996 International Gas Turbine and Aeroengine Congress and Exhibition. American Society of Mechanical Engineers, 1996. http://dx.doi.org/10.1115/96-gt-321.

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In response to a proposal of “Early-Stage Standardization” by the ISO/IEC Presidents’ Advisory Board on Technological Trends, the Technical Committee ISO/TC 206 on Fine Ceramics was established in 1992. The scope of ISO/TC 206 is a standardization in the field of fine ceramic materials and products in all forms: powders, monoliths, coatings and composites, intended for specific functional applications including mechanical, thermal, chemical, electrical, magnetic, optical and combinations thereof. The term “fine ceramics” is defined as “a highly engineered, high performance, predominantly nonmetallic, inorganic material having specific functional attributes”. A summary overview is given of membership, organization structure, work program and future work of ISO/TC 206.

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Hedden, Owen F. "A Profile of Spencer H. Bush and His Five Decades of Scientific and Engineering Works." In ASME 2007 Pressure Vessels and Piping Conference. ASMEDC, 2007. http://dx.doi.org/10.1115/pvp2007-26127.

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This paper will address three aspects of Dr. Bush’s career; the first will discuss his publications, the second his committee leadership involvement, and the third his recognition by industry. The first will attempt to address the scope of Dr. Bush’s technical interests in terms of the subjects discussed in his publications in the many phases of his career. The next will address his nuclear power industry leadership activities including committee chairmanships, with brief opinions of the importance of those assignments. Finally, the paper will discuss recognition he has earned, and given. References to his publications are provided.

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