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Journal articles on the topic 'Electronic production'

Author: Grafiati
Published: 4 June 2021
Last updated: 20 February 2023

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1

Hadi, Pejman, John Barford, and Gordon McKay. "Electronic Waste as a New Precursor for Adsorbent Production." SIJ Transactions on Industrial, Financial & Business Management 01, no. 04 (October 23, 2013): 01–08. http://dx.doi.org/10.9756/sijifbm/v1i4/0104540402.

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2

Alten, Stanley R., Lynne Gross, David E. Reese, Peter B. Orlik, Mervin Block, Pat Miller, E. W. Brody, et al. "Electronic Media Production." Communication Booknotes 21, no. 5 (September 1990): 125–26. http://dx.doi.org/10.1080/10948009009488055.

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3

Zhilnikova, N. A. "Methodology of ensuring ecological safety of radio-electronic and instrument-making production in territorial natural production complexes." Radio industry (Russia) 30, no. 1 (April 14, 2020): 54–62. http://dx.doi.org/10.21778/2413-9599-2020-30-1-54-62.

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The production of electronics and instrumentation is currently based on technologies that can be harmful to the environment. The strategy for the modernization and development of electronic and instrument-making industries in accordance with the requirements of modern environmental legislation includes the development of technological standards based on the best available techniques. The work analyzes the status and development prospects of radio electronics and instrument-making enterprises according to environmental indicators and criteria of the best available techniques. A method for assessing the life cycle of an electronic device is considered as a tool for obtaining data on the environmental impact of its production. In order to develop environmental standards for permissible impacts of electronic and instrument-making industries, a fuzzy linear programming method with probabilistic restrictions has been proposed. On the basis of this method, a model has been formed for a water management system within territorial natural-production complexes, taking the impact on water objects of all water-using enterprises into account. The proposed decision-making algorithm for load normalization allows the company to develop a strategy for planning the volumes of water consumption and water disposal, while considering regional conditions and the influence of other entities of the territorial natural production complex.
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4

Jain, Arpit. "Production of Electronic Voting Machine." International Journal for Research in Applied Science and Engineering Technology 7, no. 11 (November 30, 2019): 862–64. http://dx.doi.org/10.22214/ijraset.2019.11144.

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5

Louis, Frédéric. "Production aspects for electronic design." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 567, no. 2 (November 2006): 573–76. http://dx.doi.org/10.1016/j.nima.2006.05.172.

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6

Petrushevskaya, A. A. "DIGITAL ELECTRONICS PRODUCTION MODELING AND PRODUCT QUALITY ASSURANCE." Issues of radio electronics, no. 1 (January 20, 2019): 46–50. http://dx.doi.org/10.21778/2218-5453-2019-1-46-50.

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The introduction of elements of the concept of digital production is especially important in enterprises manufacturing electronic products that are in demand in all spheres of human activity. To create new objects representing the digital production concept, it is necessary to introduce technological innovations in the production of electronics. This is achieved by solving actual analyzing problems system properties means of production and ensuring product quality. Therefore, the article purpose is to ensure the quality of electronic products based on models and methods for analyzing the means and processes of electronic production. To achieve the goal, the digital production development in a structural framework, functional and informational description are considered. The results of the simulation stages of the production life cycle allowed us to estimate the achieved product quality level while improving the subsystems of automatic installation of printed circuit boards.
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7

Murthy, G. R. K. "Materials and Processes in Electronics—Indigenous Production and Supply of Electronic Coppers." IETE Technical Review 6, no. 1 (January 1989): 46–50. http://dx.doi.org/10.1080/02564602.1989.11438428.

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8

Wilson, Mark I. "Global Services Production in Electronic Space." Netcom 11, no. 1 (1997): 32–59. http://dx.doi.org/10.3406/netco.1997.1339.

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9

Shukalov, A. V., I. O. Zharinov, and O. O. Zharinov. "Green cyber-production of semiconductor electronic." IOP Conference Series: Earth and Environmental Science 548 (September 2, 2020): 052047. http://dx.doi.org/10.1088/1755-1315/548/5/052047.

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10

Rystedt, Bengst. "Current Trends in Electronic Atlas Production." Cartographic Perspectives, no. 20 (March 1, 1995): 5–11. http://dx.doi.org/10.14714/cp20.889.

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Electronic atlases have the potential to add a new dimension to the use of atlas information. An electronic version can contain data and software to produce maps not possible in book form. They can serve as a preliminary stage to Atlas Information Systems and can also form the core of a multimedia system. The ICA commission on national atlases was formed at the 13th International Cartographic Conference in Morelia, Mexico in 1987 to serve as a forum for electronic atlas conception and production. Electronic atlases have been a topic at every commission meeting ever since. The observations presented in this paper are findings from these meetings.
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11

ANAHARA, Toshiya, and Yoshio IMAI. "Electronic Components Development and Production Engineering." Journal of the Japan Society for Precision Engineering 73, no. 1 (2007): 52–56. http://dx.doi.org/10.2493/jjspe.73.52.

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12

Feofanov, A. N., M. A. Shutikov, and K. S. Ponomarev. "Electronic Document Management in Production Systems." Russian Engineering Research 38, no. 12 (December 2018): 974–78. http://dx.doi.org/10.3103/s1068798x18120055.

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13

Il'ina, Svetlana. "Electronic industry under sanctions: Are Russia and China partners or competitors?" Scientific Research and Development. Economics 10, no. 5 (September 29, 2022): 48–55. http://dx.doi.org/10.12737/2587-9111-2022-10-5-48-55.

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The article presents an analysis of information on the state and prospects of the development of the electronic industry in Russia and China under sanctions. The factors hindering the development of the local electronics industry and integration into the global semiconductor value chain, the basic redistribution of the electronics industry, have been identified. The available technological and production capabilities of Russia and China in the field of electronic industry are considered. Potential conflict points between the two countries have been identified. It is concluded that when creating new regional value chains of electronic products in collaboration with friendly countries, it is necessary to reach agreements either on the delimitation of their segments between participants, or on quotas for the production of the similar products to reduce competition and increase the efficiency of interaction.
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14

Thi Thu Huong, Nguyen, and Oleg Nikolaevich Larin. "The analysis of global supply chains of electronic goods." Lizing (Leasing), no. 1 (May 26, 2021): 64–75. http://dx.doi.org/10.33920/vne-03-2107-10.

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The article analyzes the current state of the import-export market of electronic products based on statistical data from the leading countries in the electronics manufacturing industry. Recently, Asian countries, especially China, have dominated the electronics industry. Along with this, there is an increase in the production of these products in developing countries, such as Vietnam.
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15

Carbone, Marilena. "NiO-Based Electronic Flexible Devices." Applied Sciences 12, no. 6 (March 10, 2022): 2839. http://dx.doi.org/10.3390/app12062839.

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Personal, portable, and wearable electronics have become items of extensive use in daily life. Their fabrication requires flexible electronic components with high storage capability or with continuous power supplies (such as solar cells). In addition, formerly rigid tools such as electrochromic windows find new utilizations if they are fabricated with flexible characteristics. Flexibility and performances are determined by the material composition and fabrication procedures. In this regard, low-cost, easy-to-handle materials and processes are an asset in the overall production processes and items fruition. In the present mini-review, the most recent approaches are described in the production of flexible electronic devices based on NiO as low-cost material enhancing the overall performances. In particular, flexible NiO-based all-solid-state supercapacitors, electrodes electrochromic devices, temperature devices, and ReRAM are discussed, thus showing the potential of NiO as material for future developments in opto-electronic devices.
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16

Borisov, Vasily P. "Revolution in electronics and formation of the domestic hightech industry." Science management: theory and practice 2, no. 2 (2020): 129–49. http://dx.doi.org/10.19181/smtp.2020.2.2.6.

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The use of a transistor in the middle of the twentieth century led to a revolutionary change in the design and manufacturing technology of electronic devices, which impose new requirements on the purity and uniformity of the materials used, high-quality technological and control equipment, etc. Mastering the production of semiconductor devices in the country took place within context of the Cold War and such conditions blocked our country from scientific and technological achievements of Western countries. The implementation of a unified strategy for the production of new electronics products at first was hindered by the subordination of industrial enterprises to the leadership of various economic agencies. The period from the mid-1960s to the end of the 1980s. characterized by the intensive development of semiconductor devices and the growth of their production in the country. After the collapse of the USSR and the implementation of socio-economic reforms, domestic electronics lost the value of one of the main factors in the development of the economy by the end of the 1990s, and Russia became heavily dependent on imports of electronic products. At present times, despite the lag in the technical level of a number of types of electronic products, the growth rate of production of electronic devices and equipment as a whole is higher than the general growth production rates in Russia.
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17

Nasedkin, A. V., and I. Y. Shumskikh. "Method of production testing of electronic parts." VESTNIK of the Samara State Aerospace University, no. 2(44) (October 24, 2014): 118. http://dx.doi.org/10.18287/1998-6629-2014-0-2(44)-118-124.

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18

Phumchusri, Naragain, and Thanit Panyavai. "Electronic Kanban System for Rubber Seals Production." Engineering Journal 19, no. 1 (January 30, 2015): 37–49. http://dx.doi.org/10.4186/ej.2015.19.1.37.

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19

Malecki, Pawel, Magdalena Piotrowska, Katarzyna Sochaczewska, and Szymon Piotrowski. "Electronic Music Production in Ambisonics-Case Study." Journal of the Audio Engineering Society 68, no. 1/2 (February 5, 2020): 87–94. http://dx.doi.org/10.17743/jaes.2019.0048.

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20

GARETTI, MARCO, ALESSANDRO POZZETTI, and ROBERTO TAVECCHIO. "Production scheduling in SMT electronic boards assembly." Production Planning & Control 7, no. 2 (March 1996): 197–204. http://dx.doi.org/10.1080/09537289608930342.

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21

Brailsford, D. F., and R. J. Beach. "Electronic Publishing - a Journal and its Production." Computer Journal 32, no. 6 (December 1, 1989): 482–93. http://dx.doi.org/10.1093/comjnl/32.6.482.

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22

Porteous, Andrew, Judith Anderson, and Keith Cavanagh. "Electronic publishing production of an OU course." Open Learning: The Journal of Open, Distance and e-Learning 5, no. 3 (November 1990): 46–49. http://dx.doi.org/10.1080/0268051900050308.

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23

Copeland, Susan. "Electronic theses: their production, management and use." Library and Information Research 23, no. 75 (October 26, 2013): 23–28. http://dx.doi.org/10.29173/lirg321.

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This article presents the findings of a research visit to the USA which was undertaken, in 1998, to assess the production, management and use of electronic theses at Virginia Polytechnic lnstitute and State University (Virgin ia Tech.).The activities there, and the achievements of the Networked Digital Library of Theses and Dissertations (NDLTD) project, are contrasted with the efforts of the UniversityTheses Online Group (UTOG) in the UK. A year on from the visit, the electronic theses at VirginiaTech. are being consulted more than before. ln contrast, in the UK, interest still appears to be limited. This article aims to demonstrate the value of producing theses in electronic format, to discuss what is required in order to achieve an acceptance of electronic theses,and to encourage further work in this area.
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24

Agarwal, J. H. "Electronic Aids for Enhancement of Agricultural Production." IETE Technical Review 10, no. 1 (January 1993): 57–64. http://dx.doi.org/10.1080/02564602.1993.11437288.

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25

Petrushevskaya, A. A., and N. A. Aleshkin. "MODEL FOR OPTIMIZING PRODUCTION OF ELECTRONIC PRODUCTS." Issues of radio electronics, no. 2 (March 24, 2020): 46–50. http://dx.doi.org/10.21778/2218-5453-2020-2-46-50.

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26

Liu, Wei, and Gong Kun Cao. "Integrated Design of Testing Software in Machinery Production." Applied Mechanics and Materials 484-485 (January 2014): 938–40. http://dx.doi.org/10.4028/www.scientific.net/amm.484-485.938.

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The development of modern scientifical technology has greatly promoted the reformation in the field of machinery industry; meanwhile, this technology development has also brought tremendous impact on the relevant production industry as well as improve the level of production and technology. With the integrated development of various technologies, electromechanical control areas will contribute to more practical applications in industrial and scientific research as well as other fields, with core fields in computer electronics technology and mechanical technology. This paper will outline the development of mechanical and electronic control in industry. Besides, this paper will also focuses on the wide applications introduction of computer testing software in the machinery and electronics industries as well as industrial production manufacturing and people's daily life.
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27

Vágnerová, Lucie. "‘Nimble Fingers’ in Electronic Music: Rethinking sound through neo-colonial labour." Organised Sound 22, no. 2 (July 12, 2017): 250–58. http://dx.doi.org/10.1017/s1355771817000152.

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How can historians of electronic music address the factory labour of the global underclass of women building electronics used in sound technologies? How can we speak to the repetitive work of women who are racially and sexually stereotyped as having ‘nimble fingers’, being ‘detail oriented’ and ‘obedient’? Although women workers in electronics assembly are already de facto entangled in contemporary sound production, scholars have yet to enfold their lives and labour into histories of electronic music. I situate electronic sound technologies since the 1960s in the contexts of the global division of labour and the intimate disciplining of women’s bodies, and investigate the discursive fallout of transnational subcontracting in the electronics industry. I argue that rethinking the category ‘women in electronic music’ is a necessary step for sound studies and musicology, and I call for a new disciplinary understanding of electronic sound and audio as fundamentally neo-colonial.
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28

Gudsoorkar, A. G. "Production and Assembly of Electronic Equipments in a Large Electronics Industry: A Case Study." IETE Technical Review 3, no. 4 (April 1986): 157–68. http://dx.doi.org/10.1080/02564602.1986.11437937.

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29

Butorina, Veronika. "Electronic production in Ukraine: a history of establishment and ways to increase competitiveness of enterprises." Ìstorìâ narodnogo gospodarstva ta ekonomìčnoï dumki Ukraïni 2019, no. 52 (2019): 309–22. http://dx.doi.org/10.15407/ingedu2019.52.309.

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The article describes trends in the development of electronic manufacturing in the Soviet Union and after the gain of independence. The factors that may be the key to improving the competitiveness of domestic electronic production are given. Among them, scientific and human resources play an important role. The geography of the enterprises of the electronics industry is determined: Kyiv, Lviv, Khmelnitsky, Kharkiv, Rakhiv, Mykolaiv. The activities and product assortment of the leading manufacturers of personal computers are analyzed separately (Joint Stock Company «Navigator», company «VSESVIT», Limited liability company «Technique for Business», and «DiaWest-Computer World»). Changes in the structure of major subsectors of the electronic industry by size of enterprises during 2010–2017 were analyzed. In particular, the number of medium and large enterprises in the industry in 2015–2017 was relatively stable, while the number of small enterprises decreased. There are positive trends in some product groups in the industry: manufacture of computers, electronic and optical products, and production of electrical equipment with a lower level of knowledge intensity. Measures to increase the competitiveness of domestic electronics enterprises are grouped in three directions: microeconomic (attracting qualified engineering and design staff; employment of young specialists; updating the range; involving scientists in R&D; effective management), mesoeconomic (higher technical education; public-private partnership; increase in public procurement; preferential lease terms for state-owned property; increase in investment localization; long-term bank lending; creation of industrial parks; counteraction to smuggling), and macroeconomic (defining the priorities of scientific and industrial policy; development of legislation; structural transformation; diversification of development and production; international commercialization of research and production activities and cooperation; development of national innovation system infrastructure).
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30

Solis, Mireya. "On the Myth of the Keiretsu Network: Japanese Electronics in North America." Business and Politics 5, no. 3 (November 2003): 303–33. http://dx.doi.org/10.2202/1469-3569.1079.

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This study of Japanese consumer electronic networks in North America challenges conventional wisdom on the pervasiveness of keiretsu ties in Japanese production networks abroad. The consumer electronics industry poses hard questions to current views on the relationship between keiretsu and FDI not only because of the more modest internationalization of subcontractors, but more interestingly, because Japanese electronic production networks overseas remained remarkably closed to outside suppliers even in the absence of keiretsu commitments that could constrain purchasing decisions. This article offers a comparison of domestic subcontracting practices in the Japanese automobile and consumer electronic industries, a discussion of the internationalization of electronic part makers, and an analysis of the sourcing strategies of Japanese firms in North America. The article highlights the impact of the non-market environment in Japanese FDI strategies since Japanese companies embarked on foreign production in North America as a direct response to export caps imposed by the American government and/or tighter regional integration rules adopted in NAFTA. Revealingly, Japanese automobile and electronic firms diverged in their reliance on subcontracting firms to meet the more stringent demands for regional production.
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31

Ngoc, Tran Thi Bich, and Dao Thanh Binh. "Energy-Saving Electronics Production in Viet Nam: Rise and Problems of Sustainable Development." E3S Web of Conferences 134 (2019): 03020. http://dx.doi.org/10.1051/e3sconf/201913403020.

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Electronic industry is the basis for the growth of industrial production in ASEAN countries, and represents the main lever of economic development when the region moves up to higher added value using modern technological solutions. At the same time, modern environmental imperatives require the electronics industry to make a significant contribution to reducing environmental stress and lowering energy consumption. This contribution is the production of energy-saving devices. Viet Nam’s modern industry is increasing the production of electronic energy-saving devices, but still has problems, such as low added value, spontaneous structure, import dependence in production, lack of unified state administration, and the quality of training of labor resources. In the framework of this article, the authors investigated the state of the electronic industry in Viet Nam by analyzing its successes and shortcomings in recent years compared with the countries of Southeast Asia. The authors’ proposals as the results of the study can be recommended for further development of a policy for the progress of energy-saving production in the electronic industry of Viet Nam and an import substitution program in the country’s industry as a whole for a new period.
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32

de Souza, Thaís Cavalcante, Julia Didier Pedrosa de Amorim, Claudio José Galdino da Silva Junior, Alexandre D’Lamare Maia de Medeiros, Andréa Fernanda de Santana Costa, Gloria Maria Vinhas, and Leonie Asfora Sarubbo. "Magnetic Bacterial Cellulose Biopolymers: Production and Potential Applications in the Electronics Sector." Polymers 15, no. 4 (February 9, 2023): 853. http://dx.doi.org/10.3390/polym15040853.

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Bacterial cellulose (BC) is a biopolymer that has been widely investigated due to its useful characteristics, such as nanometric structure, simple production and biocompatibility, enabling the creation of novel materials made from additive BC in situ and/or ex situ. The literature also describes the magnetization of BC biopolymers by the addition of particles such as magnetite and ferrites. The processing of BC with these materials can be performed in different ways to adapt to the availability of materials and the objectives of a given application. There is considerable interest in the electronics field for novel materials and devices as well as non-polluting, sustainable solutions. This sector influences the development of others, including the production and optimization of new equipment, medical devices, sensors, transformers and motors. Thus, magnetic BC has considerable potential in applied research, such as the production of materials for biotechnological electronic devices. Magnetic BC also enables a reduction in the use of polluting materials commonly found in electronic devices. This review article highlights the production of this biomaterial and its applications in the field of electronics.
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33

Ribeiro, Joselito Nardy, Angelo Fernando Melo Barbosa, Araceli Veronica Flores Nardy Ribeiro, Madson de Godoi Pereira, Jairo Pinto de Oliveira, Alan Bragança Zordan, and André Romero da Silva. "E-Waste and Its Consequence for Environment and Public Health: Perspectives in Covid-19 Pandemic Times." Global Journal of Health Science 14, no. 3 (February 17, 2022): 54. http://dx.doi.org/10.5539/gjhs.v14n3p54.

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Every year the electronics industry increases its production and earns billions of dollars. This increase is associated to the growth electronic waste production that, unfortunately, is not followed by the proportional recycling increase. An extensive quantity of e-waste containing several toxic chemical residues, that provoke serious toxic effects for human health, is released in the environment every day. This work it is a mini review about the issue of electronic waste production and its chemical contamination capacity for soil, water, plants, animals, food, and humans. Finally, this mini-review finalize with a small reflection about e-waste in Covid-19's Pandemic times.
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34

Borisov, Vasily. "The Transistor Revolution of the Second Half of the Twentieth Century against the Background of the Cold War." Voprosy istorii estestvoznaniia i tekhniki 42, no. 3 (2021): 466. http://dx.doi.org/10.31857/s020596060016346-2.

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The invention of the transistor in the late 1940s – early 1950s revolutionized electronics and led to a radical change in the design and manufacturing technology of most electronic devices, to the emergence of new requirements for the purity and uniformity of materials, the quality of technological and control equipment, etc. The subsequent development of semiconductor devices and integrated circuits, electronic computer technology based on the new element base, became the most important factor in improving information technologies and in the formation of a post-industrial information society. Chronologically, many events of the transistor revolution occurred during the period of confrontation between the USSR and the United States in the Cold War, the isolation of the Soviet Union from the scientific and technological achievements of the West. Nevertheless, the period from the mid-1960s through the 1980s was characterized by the extensive development of semiconductor devices and the growth of their production in the USSR. After the collapse of the Soviet Union, Russia found itself heavily dependent on the imports of semiconductor electronic products. At present, despite lagging behind in the technological sophistication of some types of electronic equipment, electronics production rates in Russia are higher than the country’s overall production rates.
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35

Masoom, Muhammad Rehan, and Mohammad Mokammel Karim Toufique. "Protecting Environment, Managing E-Waste and Ensuring Development: Perspective on ‘Waste Electrical and Electronic Equipment’ Situation in Guiyu, Agbogbloshie and Dhaka." International Letters of Natural Sciences 52 (March 2016): 88–96. http://dx.doi.org/10.18052/www.scipress.com/ilns.52.88.

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Fast development of the electronics industry and an eminent value of obsolescence of the electronic productions conduce to the uninterrupted production of great amounts of electronic waste or e-wasteworldwide. Due to the frequent commingling of a wide range of reusable, or recyclable, and non-recyclable surplus electronics, the term "e-waste" infer all sorts of these leftovers. Even though the economic benefits are potentially enormous, only a small proportion of the electronic waste is being recycled all around. There is a transaction cost associated with therecycling process due to the environmental protection regulations, hence economically less attractiveat the industry level in developed nations. However, to the least developed nations where owing to low living standard the demand for the better quality environment is low, even nonexistent, recycling e-waste has become a livelihood earning opportunity. The study intends to interpret the socio-economic consequences of e-wastes by focusing the detrimental effects that it have created in China and Ghana, and attempts to outline what developing nations like Bangladesh can do to prevent or reduce the harmful consequences of it.
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36

Masoom, Muhammad Rehan, and Mohammad Mokammel Karim Toufique. "Protecting Environment, Managing E-Waste and Ensuring Development: Perspective on ‘Waste Electrical and Electronic Equipment’ Situation in Guiyu, Agbogbloshie and Dhaka." International Letters of Natural Sciences 52 (March 11, 2016): 88–96. http://dx.doi.org/10.56431/p-is0u9y.

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Fast development of the electronics industry and an eminent value of obsolescence of the electronic productions conduce to the uninterrupted production of great amounts of electronic waste or e-wasteworldwide. Due to the frequent commingling of a wide range of reusable, or recyclable, and non-recyclable surplus electronics, the term "e-waste" infer all sorts of these leftovers. Even though the economic benefits are potentially enormous, only a small proportion of the electronic waste is being recycled all around. There is a transaction cost associated with therecycling process due to the environmental protection regulations, hence economically less attractiveat the industry level in developed nations. However, to the least developed nations where owing to low living standard the demand for the better quality environment is low, even nonexistent, recycling e-waste has become a livelihood earning opportunity. The study intends to interpret the socio-economic consequences of e-wastes by focusing the detrimental effects that it have created in China and Ghana, and attempts to outline what developing nations like Bangladesh can do to prevent or reduce the harmful consequences of it.
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37

Mazierska, Ewa. "Improvisation in Electronic Music—The Case of Vienna Electronica." Open Cultural Studies 2, no. 1 (December 1, 2018): 553–61. http://dx.doi.org/10.1515/culture-2018-0050.

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Abstract The purpose of this article is to establish what improvisation means and how it is used by electronic musicians operating in Vienna from the late 1980s till the present day: Peter Rehberg, Peter Kruder, Rupert Huber, Patrick Pulsinger, and the members of the band Sofa Surfers. It attempts to find out whether they believe that their choice of electronic instruments enhanced or impeded their ability to improvise and their sense of artistic agency; what type of improvisation they favour and what are their views on the changing role of improvisation in producing electronic music. It also examines the difference between old and new style electronic instruments in improvisation and music production at large. Finally, it asks a question whether the musicians had any views about the link (or the lack thereof) between the cultural milieu in which they operate and their willingness and ability to improvise.
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38

McAllister, T. A., D. J. Gibb, R. A. Kemp, C. Huisma, M. E. Olson, D. Milligan, and K. S. Schwartzkopf-Genswein. "Electronic identification: Applications in beef production and research." Canadian Journal of Animal Science 80, no. 3 (September 1, 2000): 381–92. http://dx.doi.org/10.4141/a99-099.

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Individual identification of beef cattle is not new to the Canadian beef industry, as traceback systems played a pivotal role in the eradication of bovine tuberculosis in the 1940s and 1950s and brucellosis in the 1970s and 1980s. Recent concerns over animal health (e.g., bovine spongiform encephaolopathy), export markets, product consistency, meat quality (e.g., tenderness, marbling) and safety (e.g., Escherichia. coli 0157:H7, Salmonella spp.) make reestablishment of a traceback system a logical approach to assuring consumer confidence in Canadian beef. Originally, simple Kurl-lockTM ear tags with a unique number were used to trace individuals back to their herd of origin. Although useful for addressing disease concerns, this system did not lend itself to compiling additional information (e.g., growth performance, animal health, breeding programs, carcass quality) for use in management or marketing decisions. More sophisticated electronic identification systems can readily interface with computers and make information management an even more pivotal component of beef production. Several electronic identification systems (e.g., bar codes, radio frequency identification, read–write systems) are being assessed for their effectiveness for identifying individual cattle under production conditions. In research applications, this technology has the potential for individual animals to become the experimental unit under group housing conditions. By combining electronic identification technology with devices that measure physiological (e.g., temperature, pH, body weight, feed intake) parameters, researchers will be able to collect data in natural production environments that were previously only obtainable under controlled experimental conditions with a limited number of animals. Key words: Electronic identification, beef, traceback, radio frequency identification
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39

Tverdokhlebova, M. D. "MULTIATTRIBUTIVE MODEL OF ELECTRONIC BOOK PRODUCTION: KEY FEATURES." Фундаментальные исследования (Fundamental research), no. 5 2021 (2021): 98–103. http://dx.doi.org/10.17513/fr.43045.

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Aliabev, A. A. "Atomic Layer Deposition Technology for Electronic Components Production." St. Petersburg State Polytechnical University Journal. Computer Science. Telecommunications and Control Systems. 224, no. 4 (October 2015): 51–58. http://dx.doi.org/10.5862/jcstcs.224.5.

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Tamara N., Patrusheva, Barashkov Vladimir A., Churbakova Olga V., and Petrov Sergey K. "Ecological Problems of Electronic Means Production and Utilization." Journal of Siberian Federal University. Engineering & Technologies 11, no. 6 (September 2018): 679–93. http://dx.doi.org/10.17516/1999-494x-0085.

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42

Petrushenskaya, A. A., G. I. Korshunov, and S. A. Smirnov. "Digital production management methods of radio-electronic industry." IOP Conference Series: Materials Science and Engineering 537 (June 17, 2019): 032037. http://dx.doi.org/10.1088/1757-899x/537/3/032037.

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Li, Huaidong, Niansong Zhang, and Aiming Wang. "Execution process monitoring technology for electronic assembly production." Journal of Physics: Conference Series 1345 (November 2019): 042019. http://dx.doi.org/10.1088/1742-6596/1345/4/042019.

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Stapleton, Larry, Janko Cernetic, Donald MacLean, and Robert Macintosh. "Economic recovery through electronic mode 2 knowledge production." IFAC Proceedings Volumes 34, no. 21 (November 2001): 73–77. http://dx.doi.org/10.1016/s1474-6670(17)33023-9.

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Chimi, Y., A. Iwase, N. Ishikawa, and T. Kambara. "Defect production induced by electronic excitation in iron." Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 193, no. 1-4 (June 2002): 248–52. http://dx.doi.org/10.1016/s0168-583x(02)00769-3.

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ESASHI, Masayoshi. "Production of Electronic Components Based on Semiconductor Microfabrication." Journal of the Society of Mechanical Engineers 113, no. 1099 (2010): 432–33. http://dx.doi.org/10.1299/jsmemag.113.1099_432.

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Arrowsmith, D. J., and K. J. Lodge. "Gold powder production for thick film electronic applications." Transactions of the IMF 65, no. 1 (January 1987): 120–26. http://dx.doi.org/10.1080/00202967.1987.11870785.

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48

Kholghi Eshkalak, Saeideh, Marziyeh Khatibzadeh, Elaheh Kowsari, Amutha Chinnappan, W. A. D. M. Jayathilaka, and Seeram Ramakrishna. "Overview of electronic ink and methods of production for use in electronic displays." Optics & Laser Technology 117 (September 2019): 38–51. http://dx.doi.org/10.1016/j.optlastec.2019.04.003.

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49

Ahamad, Shaik Fasi. "Evaluation of Electronic Technologies and Mitigation of E-Service Risk in the Digital Era." Technoarete Journal on Advances in E-Commerce and E-Business (TJAEE) 1, no. 1 (February 15, 2022): 6–11. http://dx.doi.org/10.36647/tjaee/01.01.a002.

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Electronics technology can be considered as the application of several scientific theories including numerous principles in the production, testing, design, installation, utilization, and services. In addition, these electronics technologies can also be recognized as the application of controlling electrical parts along with those electronic parts, systems and several equipment. Electronic technologies are utilized across numerous industries, organizations that are basically residential, industrial and commercial. In recent days, electronic technologies are universally utilized in telecommunications, computers including that signal processing and employing oriented integrated circuits with the support of several transistors upon an individual chip. In this study particularly for this purpose technology and strategy implementation method has been selected as this method helps in knowing suitable paths of utilizing electronics devices effectively in daily life. The selected technology for this purpose is Information technology (IT) and this technology helps in facilitating any organizational work. Keyword :Information technology (IT), Electronic technologies, technology and strategy implementation, telecommunications
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Wang, Xiao Li. "Counter System Design According to ATmega16L-8PC on the Machine Production Line." Applied Mechanics and Materials 58-60 (June 2011): 680–84. http://dx.doi.org/10.4028/www.scientific.net/amm.58-60.680.

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Along with electronics technique of development rapidly, SCM has become essential tool to the development of modern electronic technology. This paper introduces the core of ATmega16L-8PC microcontroller, and the MAX485 with low-power transceiver for the system of products counting on the production line system. The system is highly integrated, strongly stable and low power consumption, very convenient use and maintenance, with high Cost effective and practical value.
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