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Journal articles on the topic 'Technology roadmap'

Author: Grafiati
Published: 4 June 2021
Last updated: 25 January 2023

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1

HOLMES, CHRISTOPHER, and MICHAEL FERRILL. "A PROCESS FOR THE UPDATE AND REVIEW OF OPERATION AND TECHNOLOGY ROADMAPS." International Journal of Innovation and Technology Management 05, no. 02 (June 2008): 247–58. http://dx.doi.org/10.1142/s0219877008001369.

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In order to aid Singaporean small and medium sized companies identify and select emerging technologies for business benefit, the Operation and Technology Roadmapping (OTR) process has been introduced and applied to over seventy companies. To help these companies continue the adoption of roadmapping, an update process has been developed and applied to ten organizations. This paper introduces the operation and technology roadmap methodology for roadmap creation, and then explores the process used for updating roadmaps. The update process involves an initial review of the roadmap technologies, products and service and drivers to see how 'accurate' the past roadmaps forecasts were and to establish 'rules' for the update of the roadmap. Once the review has been carried out, a decision is then made as to whether create a new roadmap or to update the existing roadmap. If a new roadmap is to be created the existing OTR process is followed. If the roadmap is to be updated then more emphasis is placed on carrying forward the information already present on the roadmap, with the addition of some new ideas within the current roadmap framework.
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2

Carlos, Rafael, Daniel C. Amaral, and Mauro Caetano. "Framework for continuous agile technology roadmap updating." Innovation & Management Review 15, no. 3 (July 16, 2018): 321–36. http://dx.doi.org/10.1108/inmr-05-2018-0030.

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Purpose Roadmapping has been used as an approach to support market, product and technology-integrated planning, resulting in a document commonly known as a roadmap. Despite the gains made in relation to the technique, recent studies indicate that most users leave or have difficulties in sustaining the process (i.e. maintaining the updated roadmaps). This paper aims to present a framework for continuous roadmap updating that incorporates principles from agile management fields. Design/methodology/approach The framework was developed through action research in a manufacturing firm in the construction industry. Findings The results demonstrate a positive impact on the degree of continuous information monitoring, roadmap credibility and use of the roadmap during innovation strategy decisions. Originality/value The key contribution of this framework is the demonstration of a new strategy for carrying out the maps in which information is internalized by the organization itself, using agile teams, without commissioned specialists and as part of the work standards.
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YABE, Akira. "JSME Technology Roadmap." Journal of the Society of Mechanical Engineers 119, no. 1170 (2016): 284. http://dx.doi.org/10.1299/jsmemag.119.1170_284.

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4

Adamovich, I., S. Agarwal, E. Ahedo, L. L. Alves, S. Baalrud, N. Babaeva, A. Bogaerts, et al. "The 2022 Plasma Roadmap: low temperature plasma science and technology." Journal of Physics D: Applied Physics 55, no. 37 (July 5, 2022): 373001. http://dx.doi.org/10.1088/1361-6463/ac5e1c.

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Abstract The 2022 Roadmap is the next update in the series of Plasma Roadmaps published by Journal of Physics D with the intent to identify important outstanding challenges in the field of low-temperature plasma (LTP) physics and technology. The format of the Roadmap is the same as the previous Roadmaps representing the visions of 41 leading experts representing 21 countries and five continents in the various sub-fields of LTP science and technology. In recognition of the evolution in the field, several new topics have been introduced or given more prominence. These new topics and emphasis highlight increased interests in plasma-enabled additive manufacturing, soft materials, electrification of chemical conversions, plasma propulsion, extreme plasma regimes, plasmas in hypersonics, data-driven plasma science and technology and the contribution of LTP to combat COVID-19. In the last few decades, LTP science and technology has made a tremendously positive impact on our society. It is our hope that this roadmap will help continue this excellent track record over the next 5–10 years.
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Dastranj, Nasrin, Sepehr Ghazinoory, and Amir Abbas Gholami. "Technology roadmap for social banking." Journal of Science and Technology Policy Management 9, no. 1 (March 5, 2018): 102–22. http://dx.doi.org/10.1108/jstpm-07-2017-0029.

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Purpose This research presents a technology roadmap for social banking in Iran. Technology roadmapping is a tool for decisionmakers to identify, assess and choose between different strategic options to achieve the best technological objectives and help companies and industries to better understand their market and technological choices. As social banking is in its infancy, it could embody different aspects. Therefore, to be successful in field of social banking, banks should define specific capabilities based on their capacities to create their own model. A social banking roadmap provides a comprehensive plan for banks to design products and services based on their capacities and create required programs for their implementation and improvement. Design/methodology/approach This paper outlines the steps for creating a technology roadmap to develop social banking services of one of Iran’s private banks. Different methods were used to implement each step mainly based on expert panels and carrying out polling and survey research among banking and IT experts. Findings Technology roadmaps pay special attention to the challenges and the level of capabilities (both technical and social) to develop technologies and services specially for developing countries. The level of capabilities and absorptive capacity will determine the direction of technology development. Hence, banks should design their business plan and roadmap based on their background and capabilities, state of market, their status and goals. Policymakers should help increase cooperation, financial transparency, information and payments security via appropriate legislations. Research limitations/implications The number of banks that have entered the social banking field is limited, and as a result, activities that have been carried out in this area in the country are limited too. Therefore, there was limited access to information as well as related studies. This research has tried to extract all the contents of the roadmap. Some sub-topics such as technologies have been dealt with to a lesser depth because of the complexity in identifying and assigning each of technologies to the service features. The technology roadmap experiences in the country are limited, and it was not possible to study the existing roadmaps with regard to their confidentiality. Developing a technology roadmap requires using expert panels and conducting multiple workshops with stakeholders from private sectors, universities and industries. In this research, because of low resources, the panels were confronted with limited continuous attendance as well as the accumulation of different stakeholders. Practical implications The research results provided strategies to inform, encourage and finance banks and other businesses to use social networks appropriately and effectively. These strategies can be categorized into the actions banks should take to expand social banking in the country and the actions policymakers should take into account in this regard. They are described as follows. Banks’ strategic actions include: provide training to staff on how employees should interact with customers on social networks encompassing general information and education about services, benefits and how to use social banking services for customers and society; motivate customer participation in social banking networks; convergence and integration of various offline and online channels; focus on core banking to expand competitiveness; pay attention to sustainable and green development in providing social banking services; analysis of the competitive environment in banking and other financial industries; designing a portfolio of social services for customers and allocation of budget and resources for development of social banking services and participation with other institutions and operators in providing financial and non-financial services. Policymakers’ actions include: adopt motivational policies for participation and use of social networks; education and awareness for different stakeholders; review and update the policies and rules of IT and social networks; establish appropriate laws to protect rights of employees and customers; invest in market and university studies on social banking and related services; develop policies for using in-house software and update rules and policies for small- and medium-sized enterprises. Originality/value Social banking is in its infancy in Iran and few banks deliver services of social banking in a limited scope. There is no technology roadmap for this purpose in Iran. This research presents a technology roadmap for social banking in Iran (and can be adopted for banks of other developing countries) and gives a comprehensive plan for banks to design products and services based on their capacities and create required programs to implement and improve them. The application of technology roadmapping in the field of social banking is new.
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6

Yang, Xi, Xin Liu, and Jun Song. "A Study on Technology Competition of Graphene Biomedical Technology Based on Patent Analysis." Applied Sciences 9, no. 13 (June 28, 2019): 2613. http://dx.doi.org/10.3390/app9132613.

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Graphene, with high biocompatibility, physiological solubility and stability, has been reported as an emerging material for biomedical applications such as biosensors, drug delivery, and tissue engineering. Recently, identifying the technological competition (TC) of graphene biomedical technology has received worldwide attention from stakeholders. However, few studies have attached great importance to review the TC of this field by the analysis of patents. The main objective of this study is to develop a new and comprehensive method to investigate TC in a given technology field by conducting a patent review and then employing a patent roadmap to dig out the technology opportunity. The effectiveness of the approach is verified with the case study on graphene biomedical technology. Compared to previous research, this study makes the following important contributions. First, this study provides a new and systematic framework for the dynamic analysis of TC in a given technology field. It also extends the research perspectives of TC for industry, assignees, and technology, employs a patent roadmap to dig out technology opportunities, and enables stakeholders to understand TC from a dynamic perspective. Second, this study integrates patent analysis with a patent roadmap that has not appeared in existing methodologies of patent review. Third, it first introduces indicators (e.g., high value patent and competition position of top assignees) to the previous patent roadmap and provides a new methodology for patent roadmaps from a country level and assignee level. Finally, this study provides useful information for stakeholders interested in graphene biomedical technology, helps them to find new technology opportunities in this field, encourages them to determine the direction of future research, and has important significance for its application to diverse other emerging technologies.
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Bardsley, J. N. "International OLED Technology Roadmap." IEEE Journal of Selected Topics in Quantum Electronics 10, no. 1 (January 2004): 3–9. http://dx.doi.org/10.1109/jstqe.2004.824077.

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WATANABE, Masayoshi. "Preface:“JSME Technology Roadmap”." Journal of the Society of Mechanical Engineers 119, no. 1170 (2016): 283. http://dx.doi.org/10.1299/jsmemag.119.1170_283.

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9

Moorthy, Vasee S., Robert D. Newman, and Jean-Marie Okwo-Bele. "Malaria vaccine technology roadmap." Lancet 382, no. 9906 (November 2013): 1700–1701. http://dx.doi.org/10.1016/s0140-6736(13)62238-2.

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10

Jackson, Nancy B. "Catalyst technology roadmap report." Applied Catalysis A: General 156, no. 2 (August 1997): N8—N9. http://dx.doi.org/10.1016/s0926-860x(97)90053-3.

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11

Lamb, Ann Marie, Tugrul U. Daim, and Scott Leavengood. "Wood Pellet Technology Roadmap." IEEE Transactions on Sustainable Energy 3, no. 2 (April 2012): 218–30. http://dx.doi.org/10.1109/tste.2011.2175755.

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12

Willyard, Charles H., and Cheryl W. McClees. "Motorola's Technology Roadmap Process." Research Management 30, no. 5 (September 1987): 13–19. http://dx.doi.org/10.1080/00345334.1987.11757057.

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13

Daniszewska, Agnieszka, Witold Łojkowski, Hans Jorg Fecht, Krzysztof Jan Kurzydlowski, Urszula Narkiewicz, Gennady A. Salishchev, Michael Zehetbauer, Mariusz Kulczyk, Małgorzata Chmielecka, and Dmytro Kuzmenko. "Metallic Nano-Materials and Nanostructures: Development of Technology Roadmap." Solid State Phenomena 114 (July 2006): 345–0. http://dx.doi.org/10.4028/www.scientific.net/ssp.114.345.

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Current and prospective trends in application of metallic nanomaterials have been studied. The study has been conducted within the Nanoroad SME European project – as the first step for a roadmap for industrial application of nanomaterials. The web page of the project is http://www.nanoroad.net/. The present report presents an analysis of patents, papers, national and European projects in the field of nano-metals, and also an analysis of the present state of research and expected trends in this domain. Based on the performed analysis a data base of nanomaterials has been developed as well as roadmaps with expected time to applications. It can be found under http://bourgogne.arist.tm.fr/nanoroadsme/home/. The roadmap is mainly addressed to SMEs to help them to decide about applications or production of nanomaterials.
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14

Serrels, Keith. "The EDFAS FA Technology Roadmap—Foundation and Future." EDFA Technical Articles 24, no. 4 (November 1, 2022): 58–59. http://dx.doi.org/10.31399/asm.edfa.2022-4.p058.

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Abstract This column describes the structure and process being followed by the councils working on the Failure Analysis Technology Roadmap at the direction of the EDFAS Board. The FA Roadmap activity was recently restructured to establish three Councils: Die-Level Roadmap Council (DLRC), Package Innovation Roadmap Council (PIRC), and an FA Future Roadmap Council (FAFRC). To incorporate a common FA workflow, the DLRC will host two separate domain teams: Isolation and Post-Isolation Domain. The column describes the FA Roadmap work conducted at the ISTFA 2022 Conference and activities planned for 2023.
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Allan, A., D. Edenfeld, W. H. Joyner, A. B. Kahng, M. Rodgers, and Y. Zorian. "2001 technology roadmap for semiconductors." Computer 35, no. 1 (January 2002): 42–53. http://dx.doi.org/10.1109/2.976918.

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Edenfeld, D., A. B. Kahng, M. Rodgers, and Y. Zorian. "2003 technology roadmap for semiconductors." Computer 37, no. 1 (January 2004): 47–56. http://dx.doi.org/10.1109/mc.2004.1260725.

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Shaffner, Thomas, and David Seiler. "Roadmap: Frontiers of Analytical Metrology for the Silicon Semiconductor Industry." EDFA Technical Articles 3, no. 1 (February 1, 2001): 4–9. http://dx.doi.org/10.31399/asm.edfa.2001-1.p004.

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Abstract The 1997 National Technology Roadmap for Semiconductors (NTRS) and the 1999 International Technology Roadmap for Semiconductors (ITRS) include chapters outlining metrology needs for the silicon semiconductor industry during the next five years and beyond1. The grand challenges include affordable scaling, new materials and structures, and yield and reliability. Although additional requirements within these categories are detailed, it is often difficult for the analytical specialist or metrology equipment vendor to translate these grand challenges into detailed and meaningful roadmaps for success in analytical applications or instrument development. The path-to-impact of a single metrology activity is not always clear.
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18

Kwon, Koopo, Sungchan Jun, Yong-Jae Lee, Sanghei Choi, and Chulung Lee. "Logistics Technology Forecasting Framework Using Patent Analysis for Technology Roadmap." Sustainability 14, no. 9 (April 30, 2022): 5430. http://dx.doi.org/10.3390/su14095430.

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The rapid advancement of digital technologies has fundamentally changed the competitive dynamics of the logistics industry. For players in the logistics industry, digitization has become an unavoidable situation to achieve survival and sustainable competitiveness. A technology strategy is essential for digitization, and identifying opportunities and threats of technology development through technology trend exploration is important for technology strategy. In addition, to enable the implementation of the technology strategy, it is necessary to detect the change in technology and search for the technology that is expected to have a practical development effect. The purpose of this study is to identify opportunities and areas for technology development through patent data in establishing technology strategies. Previous research mainly relied on the expert interview method, and there was also a patent analysis study based on topic modeling, but only to grasp technology trends. This paper aims to propose a new framework for the extension to the stage for establishing a technology roadmap. By using the Word2Vec algorithm, we will investigate the patent search formula that reflects the trend, the prediction of changes in logistics technology through LDA (Latent Dirichlet Allocation) clustering of patent data, and the derivation of vacant technology by experimental methods. The proposed framework is expected to be utilized for predicting technological change and deriving promising technologies for establishing technology roadmaps in logistics companies.
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Chun, Eunsuk, Sungchan Jun, and Chulung Lee. "Identification of Promising Smart Farm Technologies and Development of Technology Roadmap Using Patent Map Analysis." Sustainability 13, no. 19 (September 27, 2021): 10709. http://dx.doi.org/10.3390/su131910709.

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In this study, we suggest methodologies for identifying promising and vacant technologies on smart farms by analyzing patent information. Additionally, a technology roadmap for smart farms is suggested using network analysis. The database of patents related to smart farms was extracted from the United States Patent and Trademark Office (USPTO) by keyword search, and valid patents data was selected and clustered using the Latent Dirichlet Allocation (LDA) algorithm. We also conducted the technical importance analysis and trend analysis to identify promising technology topics. By developing a patent map based on a self-organizing map (SOM), we were able to identify vacant technologies among smart farm technology groups. In order to develop vacant technologies, we presented a stepwise technology roadmap by analyzing the relationship between technology elements using network analysis. The proposed procedure and analysis method provides useful insights in establishing research and development (R&D) strategies for the development of smart farm technology roadmaps.
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Shim, Hyunsook, Taeyeon Kim, and Gyunghyun Choi. "Technology Roadmap for Eco-Friendly Building Materials Industry." Energies 12, no. 5 (February 28, 2019): 804. http://dx.doi.org/10.3390/en12050804.

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As quality of life has improved, the need for high-performance building materials that meet specific technological requirements has increased. Residential environments have also changed owing to climate change. A technology roadmap could define and systematically reflect a timeline for the development of future core technologies. The purpose of this research is to build a technology roadmap that could be utilized for the development of technology in the eco-friendly building material industry. This research is composed of multiple analysis processes—patent analysis, Delphi, and analytic hierarchy process analysis—that minimize the uncertainty caused by the lack of information in the eco-friendly construction industry by securing objective future forecast data. Subsequently, the quality function deployment test is implemented to verify the feasibility of the technology roadmap that is constructed. The design of various types of functional, low-carbon building materials could reduce carbon emissions and save energy by ensuring a hazardous-material-free market in the future. This design development roadmap is required to complement this technology roadmap.
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Daim, Tugrul U., and Pattharaporn Suntharasaj. "Technology Roadmap: Lab-on-a-Chip." Revista de Administração da UFSM 3, no. 1 (November 12, 2010): 160–73. http://dx.doi.org/10.5902/198346592246.

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Cardoso, Fernanda, and Suzana Borschiver. "Technology Roadmap da Biometanização da Palha." Cadernos de Prospecção 11, no. 5 (December 10, 2018): 1596. http://dx.doi.org/10.9771/cp.v12i5.27077.

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<p>O <em>Roadmap</em> Tecnológico da biometanização da palha apresenta de maneira visual o estado da arte do setor no ambiente internacional e pode ser utilizado para explorar a dinâmica de tecnologias emergentes, auxiliando na identificação, seleção e desenvolvimento de tecnologias alternativas para satisfazerem esse mercado. Por se tratar de um documento vivo, o <em>Roadmap</em> necessita de alimentação de novas informações para se manter atualizado e relevante para o setor com o tempo. Destacam-se alguns resultados, tais como a relevância dos <em>players</em> chineses, o que aponta para o grande investimento da China em PD&amp;I neste mercado em comparação ao resto do mundo e as tecnologias de destaque para o pré-tratamento, crucial para a viabilidade do processo de biometanização da palha. O <em>Roadmap </em>permite acompanhar movimentos estratégicos de curto, médio e longo prazo neste setor por companhias multinacionais que não são conhecidas atualmente pela produção de biogás, como a Novozymes, Shell e Texaco.</p>
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23

OKUMA, Takashi. "Strategic Technology Roadmap for Service Engineering." Journal of Japan Society for Fuzzy Theory and Intelligent Informatics 23, no. 3 (2011): 276–80. http://dx.doi.org/10.3156/jsoft.23.3_276.

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24

Wang, Peng, Tao Lin, and Jiang He Zhao. "Research on Distribution Automation Technology Roadmap." Advanced Materials Research 846-847 (November 2013): 86–89. http://dx.doi.org/10.4028/www.scientific.net/amr.846-847.86.

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Distribution automation, since the last century 90's in China, has accumulated a lot of technology and management experience. At present, distribution automation has been to the large-scale application stage. In order to ensure distribution automation economic and practical, this paper proposes distribution automation technical development route based on the analysis of several typical technologies, and supplies the specific technical principles. At the same time, this paper also points out the difficulties of distribution automation development, and puts forward some corresponding technical measures should be taken. This paper proposes the technology roadmap which has been taken by State Grid Corporation of China (SGCC), and has been used into the technology standard of SGCC.
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Pham, Anh Tuan. "Vietnam roadmap to master satellite technology." Vietnam Journal of Science, Technology and Engineering 59, no. 1 (March 31, 2017): 6–9. http://dx.doi.org/10.31276/vjste.59(1).06.

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Yawger, Renee. "PSMA Power Technology Roadmap [PSMA Corner]." IEEE Power Electronics Magazine 9, no. 2 (June 2022): 10–12. http://dx.doi.org/10.1109/mpel.2022.3171103.

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27

Harrop, Peter. "Energy Independent Electric Vehicle Technology Roadmap." World Electric Vehicle Journal 8, no. 3 (September 30, 2016): 646–49. http://dx.doi.org/10.3390/wevj8030646.

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Abbasi, Munir, Panayiota Vassilopoulou, and Lampros Stergioulas. "Technology roadmap for the Creative Industries." Creative Industries Journal 10, no. 1 (January 2, 2017): 40–58. http://dx.doi.org/10.1080/17510694.2016.1247627.

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Kim, Mun Jung, and Helmut H. Hergeth. "Technology roadmap for flushable nonwoven wipes." Journal of the Textile Institute 103, no. 2 (February 2012): 200–209. http://dx.doi.org/10.1080/00405000.2011.564800.

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30

Lawrence, G., K. C. Chan, S. Schriber, T. Wangler, M. Allen, W. Funk, T. Meyer, et al. "ATW accelerator technology in US roadmap." Progress in Nuclear Energy 38, no. 1-2 (January 2001): 25–64. http://dx.doi.org/10.1016/s0149-1970(00)00095-0.

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31

Segarra, G. "The advanced information technology innovation roadmap." Computers in Industry 40, no. 2-3 (November 1999): 185–95. http://dx.doi.org/10.1016/s0166-3615(99)00023-8.

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32

Mortimer, John. "Jaguar “Roadmap” rethinks self‐piercing technology." Industrial Robot: An International Journal 32, no. 3 (June 2005): 209–13. http://dx.doi.org/10.1108/01439910510593875.

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KERR, CLIVE, ROBERT PHAAL, and DAVID PROBERT. "DEPICTING OPTIONS AND INVESTMENT APPRAISAL INFORMATION IN ROADMAPS." International Journal of Innovation and Technology Management 09, no. 03 (August 2012): 1250022. http://dx.doi.org/10.1142/s0219877012500228.

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Roadmapping provides a visual canvas upon which a depiction of business strategy can be articulated and shared both within and between organizations. In this regard, roadmaps can be considered as boundary objects because they are used to forge the links between the differing stakeholders and communicate their shared viewpoints. Typically, the format of the roadmap is that of a skeletal structure consisting of a time-based axis against layers of functional perspectives (e.g., market, product, technology). However, in the later stages of the strategic planning and development activity, there is a need to clearly represent the options identified and embed the associated quantitative measures in the roadmap so as to provide greater assistance in the decision-making process. This is critical since options embody flexibility. From a program management perspective such flexibility is typically manifested through making decisions as to whether to defer, abandon, switch, expand/contract different project elements; for instance, choosing to terminate specific R&D, design or procurement activities. Such decisions are made upon evolving market, product and technology conditions. For example, customer needs, operational requirements, product functionalities and performance levels, technology availability and maturity. In order to visually represent options in terms of decision-point timing and size of investment, this paper presents an initial set of visual objects that could be overlaid on the canvas of a roadmap. To illustrate their use, a real-world case study is presented. A fully populated options-based roadmap, containing a set of alternative futures, is described. It is intended that this roadmap acts as a graphical prototype form for visually depicting options and associated investment appraisal information.
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Saegusa, Shozo. "MoF-1 TECHNOLOGY ROADMAP OF JSME IIP DIVISION : Positioning of Each Technology Field and Challenges." Proceedings of JSME-IIP/ASME-ISPS Joint Conference on Micromechatronics for Information and Precision Equipment : IIP/ISPS joint MIPE 2015 (2015): _MoF—1–1_—_MoF—1–3_. http://dx.doi.org/10.1299/jsmemipe.2015._mof-1-1_.

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Mattila, Juha, and Simon Parkinson. "Evolution of military information management." Zeszyty Naukowe Akademii Sztuki Wojennej 105, no. 4 (August 28, 2017): 188–207. http://dx.doi.org/10.5604/01.3001.0010.3531.

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The paper focuses on information dimension in the structure of Information and Communication Technology architecture and searches for better models to describe the structure of blue force information, especially from Enterprise Architecture (EA) approach. Enterprise Architecture has been developed better to communicate the complex structures of military capabilities. Major EA frameworks (TOGAF, DODAF, NAF) recognize the layer of information between business and technology. Nevertheless, in practice, the focus tends to turn more to the technology as has happened in several Command, Control, Communications, Computing, Information, Surveillance, and Reconnaissance (C4ISR) or Enterprise Resource Management (ERM) programs. The paper develops a tool for architects to use in measuring the maturity of information management in the current military organization and in defining the possible paths of evolution in information management available for military. The outcome is a roadmap that describes the evolution of past and probable future for military information management and explains different drivers and constraints on roads. The roadmap is tested against experiences gained from several C4ISR, and ERM focused military transformations. The overall research approach is following the hypothetico-deductive model, and the roadmap part is applying the theory of evolution in sociotechnical systems. Since information is essential for cognitive level sense making, decision making, and learning, Enterprise Architects should include information maturity in their roadmaps of technical and business process development. The roadmap for military information management is to help the analysing of the current situation and provide possible paths towards future stages aligned through business, information, and technical layers.
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Liu, Song, Xin Gang Wang, and Yu Shui Geng. "Research on the Analysis Method of the Technology Roadmap Supporting Enterprise Technology Decision Based on Patent Text Mining." Applied Mechanics and Materials 411-414 (September 2013): 2617–21. http://dx.doi.org/10.4028/www.scientific.net/amm.411-414.2617.

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In this article, the method for generating technology roadmap based on patent text mining is put forward, and the algorithm of construction two kinds of diagrams, the product and technology effect matrix diagram and the product technology time evolution roadmap, are also presented. Using the method, technology policymakers and technology researchers can grasp the whole competition status, the relationship and the evolution process of the products and technologies.
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Xu, Qing, Keqiang Li, Jianqiang Wang, Quan Yuan, Yanding Yang, and Wenbo Chu. "The status, challenges, and trends: an interpretation of technology roadmap of intelligent and connected vehicles in China (2020)." Journal of Intelligent and Connected Vehicles 5, no. 1 (January 7, 2022): 1–7. http://dx.doi.org/10.1108/jicv-07-2021-0010.

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Purpose The rapid development of Intelligent and Connected Vehicles (ICVs) has boomed a new round of global technological and industrial revolution in recent decades. The Technology Roadmap of Intelligent and Connected Vehicles (2020) comprehensively analyzes the technical architecture, research status and future trends of ICVs. The methodology that supports the roadmap should get studied. Design/methodology/approach This paper interprets the roadmap from the aspects of strategic significance, technical content and characteristics of the roadmap, and evaluates the impact of the roadmap on researchers, industries and international strategies. Findings The technical architecture of ICVs as the “three rows and two columns” structure is studied, the methodology that supported the roadmap is explained with a case study and the influence of key technologies with proposed development routes is analyzed. Originality/value This paper could help researchers understand both thoughts and methodologies behind the technology roadmap of ICVs.
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Musango, Josephine K., and Alan C. Brent. "A roadmap framework for solar aided power generation in South Africa." Journal of Energy in Southern Africa 26, no. 4 (April 13, 2017): 2. http://dx.doi.org/10.17159/2413-3051/2015/v26i4a2087.

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Technology roadmaps are critical for decisions pertaining to technology development. They have been utilised in the renewable energy sector to assist in filtering alternative technology options in order to support energy policy formulation, energy security and energy independence, among others. However, solar aided power generation is a recent concept and no roadmap has been developed for the technology as yet. This paper thus reviewed the literature related to roadmapping with the aim of understanding the methods and tools that have been utilised in other settings. Informed by the literature, a conceptual framework was developed, which was further utilised for the initial analysis for developing a roadmap for solar aided power generation in South Africa. Generally, it would be beneficial for South Africa to integrate solar aided power generation within its current Renewable Energy Independent Power Producer Procurement Programme (REIPPPP) or the National Treasury Public-Private Partnership (PPP) programme. However, it should be noted that this is only feasible in the short- and medium-term. In the long-term, there is a need to support stand-alone solar thermal technologies.
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Musango, Josephine K., and Alan C. Brent. "A roadmap framework for solar aided power generation in South Africa." Journal of Energy in Southern Africa 26, no. 4 (April 5, 2017): 1. http://dx.doi.org/10.17159/2413-3051/2016/v26i4a2116.

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Technology roadmaps are critical for decisions pertaining to technology development. They have been utilised in the renewable energy sector to assist in filtering alternative technology options in order to support energy policy formulation, energy security and energy independence, among others. However, solar aided power generation is a recent concept and no roadmap has been developed for the technology as yet. This paper thus reviewed the literature related to roadmapping with the aim of understanding the methods and tools that have been utilised in other settings. Informed by the literature, a conceptual framework was developed, which was further utilised for the initial analysis for developing a roadmap for solar aided power generation in South Africa. Generally, it would be beneficial for South Africa to integrate solar aided power generation within its current Renewable Energy Independent Power Producer Procurement Programme (REIPPPP) or the National Treasury Public-Private Partnership (PPP) programme. However, it should be noted that this is only feasible in the short- and medium-term. In the long-term, there is a need to support stand-alone solar thermal technologies.
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40

Khan, Aslam A., Chengji Xi, and Navid Asadizanjani. "Physical Security Roadmap for Heterogeneous Integration Technology." EDFA Technical Articles 24, no. 2 (May 1, 2022): 24–32. http://dx.doi.org/10.31399/asm.edfa.2022-2.p024.

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Abstract Interposers play an important role in 2.5D and 3D packages, routing power and communication signals between dies while maintaining electrical contact with I/O pins. This role and their relatively simple construction makes interposers a target for malicious attacks. In this article, the authors assess the vulnerabilities inherent in the fabrication of interposers and describe various types of optical attacks along with practical countermeasures.
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Rosen, Joseph, Simon Alford, Vijayakumar Anand, Jonathan Art, Petr Bouchal, Zdeněk Bouchal, Munkh-Uchral Erdenebat, et al. "Roadmap on Recent Progress in FINCH Technology." Journal of Imaging 7, no. 10 (September 29, 2021): 197. http://dx.doi.org/10.3390/jimaging7100197.

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Fresnel incoherent correlation holography (FINCH) was a milestone in incoherent holography. In this roadmap, two pathways, namely the development of FINCH and applications of FINCH explored by many prominent research groups, are discussed. The current state-of-the-art FINCH technology, challenges, and future perspectives of FINCH technology as recognized by a diverse group of researchers contributing to different facets of research in FINCH have been presented.
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42

TAKEUCHI, Masahiko. "Using a Roadmap of Forging Industry Technology." Journal of the Japan Society for Technology of Plasticity 50, no. 583 (2015): 683–84. http://dx.doi.org/10.9773/sosei.50.683.

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43

Liu, Qiang, Kejun Jiang, and Xiulian Hu. "Low Carbon Technology Development Roadmap for China." Advances in Climate Change Research 2, no. 2 (June 2011): 67–74. http://dx.doi.org/10.3724/sp.j.1248.2011.00067.

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44

Arnaud, Lucile, Severine Cheramy, Amandine Jouve, Lucile Arnaud, Claire Fenouillet, Perrine Batude, and Maud Vinet. "3D High Density: technology, roadmap and applications." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2017, DPC (January 1, 2017): 1–26. http://dx.doi.org/10.4071/2017dpc-tp1_presentation3.

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After many years of packaging evolution as main industrial driver for 3D integration, even denser integration scheme have gained recently more interest. Slowdown of Moore's law while maintaining the need of high performance and/or low power from one hand, and a combination of performance / form factor from the other, lead research to innovation and alternative solutions. Additionally, difficulty of associating in a same 2D wafer heterogeneous processes (ie: combining Cmos device with “exotic” material, with low temperature dielectric) also gives an opportunity for a high density 3D approach rather than a 2D one. As an example, back-side illuminated imagers (BSI Imagers) players have recently released such 3D density (pitch in the range of 5 to 10 micron) [1] � From now, thinking about a 3D industrial integration within the range of few microns pitch is not anymore a dream. This specific application may raise some interest for other products such as memory denser stacking, partitioning of a large SoC � The objective of the paper is to describe 2 complementary technologies developed at CEA-Leti which address such high density of 3D integration: Hybrid Bonding in the range of few �ms; Coolcube in the range of few 100e of nms. We will first take some time to describe both technologies and recent CEA-Leti's results. The positioning of each technologies in terms of pitch and performance will be given. 1 - 3D parallel integration: hybrid bonding Hybrid bonding integration scheme has been first developed on a wafer scale approach. A test vehicle, with several BEOL layers and connected by the implementation of hybrid bonding, has been designed. Morphological and electrical data will be given leading to the conclusion that the process is very reliable and robust [1], [2]. Contact resistance per contact pads has been measured at few mOhms, which is relatively low compared to tens or even hundreds of mOhms for more classical interconnection technologies (copper pillar, bump, Cu-Cu thermos-compression). Nevertheless, for cost reason, as well as for multi dies stacking, the need for Die-To-Wafer approach remains true, while keeping a high density of interconnect [3]. The process flow as well as test vehicle designed for this approach will be described. Major challenges including handling of the dies after sawing and till the bonding itself will be addressed in the paper: wafer handler, wafer preparation and pick & place. Deep characterization is proposed. 2 - 3D sequential integration: CoolCube An alternative approach to conventional planar integration for future nodes is the monolithic 3D integration (3DVLSI). Monolithic offers the possibility to stack devices with a lithographic alignment precision enabling 3D contacts introduction at the device level (up to 100 million vias per mm� with 14nm ground rules). 3DVLSI can by routed either at gate or transistor levels. The partitioning at the gate level allows IC performance gain without resorting to scaling thanks to wire length reduction. Partitioning at the transistor level by stacking n-FET over p-FET (or the opposite) enables the independent optimization of both types of transistors (customized implementation of performance boosters: channel material / substrate orientation / channel and Raised Sources and Drains strain, etc. [4–5]) with reduced process complexity compared to a planar co-integration. The ultimate example of high performance CMOS at low process cost is the stacking of III–V nFETs above SiGe pFETs [6–7]. These high mobility transistors are well suited for 3DVLSI because their process temperatures are intrinsically low. 3DVLSI, with its high contact density, can also be seen as a powerful solution for heterogeneous co-integrations requiring high 3D vias densities such as NEMS with CMOS for gas sensing applications [8–9] or highly miniaturized imagers [10]. 3- Comparison and roadmap This paper will also provide features that give some applications' meaning for the development of both technologies in parallel. Particularly, both technologies will be compared in terms of possible pitch reachable. Main comparison features rely on advanced interconnection: dimension & pitch resistance, parasite. A thermal simulation comparison study will also be included.
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KATO, Niko. "Strategic technology roadmap : 1) As national project." Journal of Information Processing and Management 54, no. 1 (2011): 42–45. http://dx.doi.org/10.1241/johokanri.54.42.

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46

Guo, Yun, Zhiqiang Huang, and Zhiguan Zhou. "Technology Roadmap of IGCC Industry in China." Energy and Power Engineering 07, no. 11 (2015): 535–45. http://dx.doi.org/10.4236/epe.2015.711050.

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47

Padua, D. A. "Outline of a roadmap for compiler technology." IEEE Computational Science and Engineering 3, no. 3 (1996): 65–66. http://dx.doi.org/10.1109/99.537096.

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48

Gallegos Rivero, Alvaro Rigel, and Tugrul Daim. "Technology roadmap: Cattle farming sustainability in Germany." Journal of Cleaner Production 142 (January 2017): 4310–26. http://dx.doi.org/10.1016/j.jclepro.2016.11.176.

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49

Likharev, Konstantin K. "Ultrafast superconductor digital electronics: RSFQ technology roadmap." Czechoslovak Journal of Physics 46, S6 (June 1996): 3331–38. http://dx.doi.org/10.1007/bf02548149.

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50

Dhillon, S. S., M. S. Vitiello, E. H. Linfield, A. G. Davies, Matthias C. Hoffmann, John Booske, Claudio Paoloni, et al. "The 2017 terahertz science and technology roadmap." Journal of Physics D: Applied Physics 50, no. 4 (January 4, 2017): 043001. http://dx.doi.org/10.1088/1361-6463/50/4/043001.

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