Search results

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Open Access
Article
Publication date: 12 April 2021

Björn Hammarfelt

In this article, the ideas and methods behind the “patent-paper citation” are scrutinised by following the intellectual and technical development of approaches and ideas in early…

2578

Abstract

Purpose

In this article, the ideas and methods behind the “patent-paper citation” are scrutinised by following the intellectual and technical development of approaches and ideas in early work on patentometrics. The aim is to study how references from patents to papers came to play a crucial role in establishing a link between science and technology.

Design/methodology/approach

The study comprises a conceptual history of the “patent paper citation” and its emergence as an important indicator of science and technology interaction. By tracing key references in the field, it analyses the overarching frameworks and ideas, the conceptual “hinterland”, in which the approach of studying patent references emerged.

Findings

The analysis explains how interest in patents – not only as legal and economic artefacts but also as scientific documents – became evident in the 1980s. The focus on patent citations was sparked by a need for relevant and objective indicators and by the greater availability of databases and methods. Yet, the development of patentometrics also relied on earlier research, and established theories, on the relation between science and technology.

Originality/value

This is the first attempt at situating patentometrics in a larger societal and scientific context. The paper offers a reflexive and nuanced analysis of the “patent-paper citation” as a theoretical and historical construct, and it calls for a broader and contextualised understanding of patent references, including their social, legal and rhetorical function.

Details

Journal of Documentation, vol. 77 no. 6
Type: Research Article
ISSN: 0022-0418

Keywords

Open Access
Article
Publication date: 3 April 2020

Yongfei Jia, Chang Liu, Chong Yin and Qing Zhu

Under the background of economic and technological globalization, all countries will pay attention to science and technology innovation policies. At this time, the era of…

1590

Abstract

Purpose

Under the background of economic and technological globalization, all countries will pay attention to science and technology innovation policies. At this time, the era of innovation policy plays an important role. In order to thoroughly implement the spirit of the 19th National Congress of the Communist Party of China, earnestly innovate development concepts and strengthen the key supporting role of scientific and technological innovation for social development.

Design/methodology/approach

The research will make an in-depth study on the policy of scientific and technological innovation, take the change trend of the number of laws and regulations and the analysis of the basic content as the entry point, and classify it from five different aspects, such as the policy of scientific and technological system and mechanism, the policy of financial guidance, the policy of technological innovation of enterprises, the policy of scientific and technological talents, and the policy of intellectual property.

Findings

Through the comparison of the development history of science and technology policies at home and abroad, the development history of science and technology innovation policies under the special national conditions of China is obtained. Combining with the relevant basic theories of science and technology innovation system, designing from the publishing department, main content, and implementation subject, constructing a synergistic science and technology innovation system of “government, industry, university and research,” and forming an “integration of supply and demand” technology innovation framework will guide the development of China's science and technology innovation in the future.

Originality/value

The authors construct the policy framework of science and technology collaborative innovation based on the concept of science and technology innovation policies. The framework has realistic significance for its future development.

Details

Journal of Industry-University Collaboration, vol. 2 no. 1
Type: Research Article
ISSN: 2631-357X

Keywords

Open Access
Book part
Publication date: 29 November 2023

Abstract

Details

The Emerald Handbook of Research Management and Administration Around the World
Type: Book
ISBN: 978-1-80382-701-8

Open Access
Article
Publication date: 9 February 2022

Pernilla Nilsson and Jesper Lund

This study aims to investigate how primary teachers, when taking part in digital didactic design (D3) workshops at the Digital Laboratory Centre at the university, develop their…

2382

Abstract

Purpose

This study aims to investigate how primary teachers, when taking part in digital didactic design (D3) workshops at the Digital Laboratory Centre at the university, develop their insights about how digital tools can be designed and further used in their teaching of science. The research question addresses how D3 can be used to develop primary teachers’ knowledge about teaching science with digital technologies.

Design/methodology/approach

During two semesters, 14 primary science teachers from three different schools participated in an in-service course at the university. Five D3 workshops lasting 4 h each were conducted with the aim to analyze, design and implement digital tools based on the needs of teachers and students. This includes discussions about the technological, pedagogical and content knowledge (TPACK) framework and further recommendations about how to choose, design, implement and evaluate digital tools for different teaching and learning situations. In between the workshops, the teachers were told to reflect on their experiences with colleagues and students and share their ideas and reflections to support collegial learning.

Findings

The results indicate that D3 has an opportunity to promote deep learning experiences with a framework that encourages teachers and researchers to study, explore and analyze the applied designs-in-practice, where teachers take part in the design process. This study further indicates that having teachers explicitly articulates their reasoning about designing digital applications to engage students’ learning that seems important for exploring the types of knowledge used in these design practices and reflecting on aspects of their teaching with digital technologies likely to influence their TPACK.

Research limitations/implications

This research indicates that the increasing prevalence of information communication technology offers challenges and opportunities to the teaching and learning of science and to the scientific practice teachers might encounter. It offers solutions by investigating how primary teachers can design their own digital technology to meet students’ science learning needs. One limitation might be that the group of 14 teachers cannot be generalized to represent all teachers. However, this study gives implications for how to work with and for teachers to develop their knowledge of digital technologies in teaching.

Practical implications

As this project shows teachers can take an active part in the digital school development and as such become producer of knowledge and ideas and not only become consumers in the jungle of technical applications that are implemented on a school level. Therefore, it might well be argued that in science teaching, paying more careful attention to how teachers and researchers work together in collaborative settings, offers one way of better valuing science teachers’ professional knowledge of practice. As such, an implication is that digital applications are not made “for” teachers but instead “with” and “by” teachers.

Social implications

The society puts high demands om teachers’ knowledge and competencies to integrate digital technologies into their daily practices. Building on teachers’ own needs and concerns, this project addresses the challenge for teachers as a community to be better prepared for and meet the societal challenge that digitalization means for schools.

Originality/value

Across the field of science education, knowledge about the relation between teachers’ use of digital technology and how it might (or might not) promote students’ learning offers access to ideas of how to design and implement teacher professional development programs. This offers enhanced communication opportunities between schools and universities regarding school facilities and expectations of technology to improve teachers’ experiences with integrating technology into their learning and teaching. This pragmatic approach to research creates theory and interventions that serve school practice but also produces challenges for design-based researchers.

Details

Interactive Technology and Smart Education, vol. 20 no. 1
Type: Research Article
ISSN: 1741-5659

Keywords

Open Access
Article
Publication date: 24 May 2022

Fatimah Alhashem, Nasser Agha and Anwar Mohammad

The aim of this study was to measure the readiness of science and mathematics supervisors to utilize technology and online learning platforms for teachers' plans and professional…

1467

Abstract

Purpose

The aim of this study was to measure the readiness of science and mathematics supervisors to utilize technology and online learning platforms for teachers' plans and professional development, during and after the period of the COVID-19 pandemic.

Design/methodology/approach

To achieve this aim, the researchers developed a questionnaire comprising of 55 items based on the instruments used in pertinent studies. A mixed-methods research design was employed, whereby a quantitative online survey was supplemented by focus group discussions with selected supervisors. Survey data were subjected to one-way analysis of variance and t-test, while information obtained via focus groups was coded to identify common themes related to the obstacles and challenges supervisors face.

Findings

When completing the survey, the supervisors approached proficiency using technology; however, focus group discussions revealed misconceptions related to e-leaning and limitations in their abilities to use technology in schools, as well as obstacles imposed by the structure and management of the educational system. T

Practical implications

These findings indicate that supervisors need support in acquiring the competencies required for integrating technology in education, and that their support to teacher community needs to be grounded in clear and systematic approaches and best educational practices.

Originality/value

These findings indicate that supervisors need support in acquiring the competencies required for integrating technology in education, and that their support to teacher community needs to be grounded in clear and systematic approaches and best educational practices.

Details

The International Journal of Information and Learning Technology, vol. 39 no. 3
Type: Research Article
ISSN: 2056-4880

Keywords

Open Access
Article
Publication date: 7 January 2022

Ahmad Samarji

Governments worldwide have been trying to direct more students towards STEM specialty areas, but the number of students majoring in STEM and seeking a STEM career path is not…

Abstract

Governments worldwide have been trying to direct more students towards STEM specialty areas, but the number of students majoring in STEM and seeking a STEM career path is not proportional to their efforts. Additionally, the COVID-19 pandemic has brought to the surface the unrealistic expectations and false assumptions held by the general public about STEM fields. These have mainly been shaped by the “T” in the acronym, substituting technology for science. This brief urges for a policy shift in STEM and science education to reveal the true nature of science, emphasizing that science is not about providing definite answers nor granting miraculous solutions but about creating and disseminating knowledge based on the most accurate outcome informed by empirical evidence. Such a policy change will have a dual effect. First, it will ensure students authentically appreciate the nature of science, serve as agents of scientific thinking and reasoning within their communities, and become more oriented towards STEM majors. Secondly, this policy shift will prompt more realistic expectations and valid assumptions about science for the general public, which will help reduce public confusion and uncertainty, specifically at times of pandemics or emergencies.

Open Access
Article
Publication date: 27 April 2020

Rachael L. Tawbush, Sabrina D. Stanley, Tye G. Campbell and Melissa A. Webb

This study analyzed articles from India, Italy and Singapore regarding how science, technology, engineering and mathematics (STEM) education is conceptualized in the K-12 setting…

4787

Abstract

Purpose

This study analyzed articles from India, Italy and Singapore regarding how science, technology, engineering and mathematics (STEM) education is conceptualized in the K-12 setting. The research questions that guided our study were as follows: (1) How is K-12 STEM education conceptualized in literature in other countries? (2) Which STEM subject areas are more documented in K-12 STEM literature? (3) How are K-12 STEM teaching practices implemented?

Design/methodology/approach

This study utilized a systematic literature review methodology by (1) creating search terms based on the research questions, (2) choosing databases in which to conduct the search, (3) conducting the search and gathering articles and (4) selecting articles based on inclusion criteria. We chose search terms according to three domains relevant to our study as follows: countries of interest, content of interest and teaching practices. Articles researched were (1) an empirical journal article or literature review; (2) primarily focused on the concept of K-12 STEM teaching practices in one of the countries of interest and (3) written in English.

Findings

Findings from the study revealed few articles addressed a conceptualization of STEM; however, the majority of articles agreed upon the importance of STEM teaching methods in the K-12 classroom setting. Science was documented as the top documented area in K-12 STEM literature for India and Italy, whereas technology and mathematics were the top documented areas in Singapore. Comparing K-12 STEM teaching practices, Italy and Singapore were found to focus more on student-centered STEM teaching practices whereas schools in India mostly utilized student-centered teaching approaches.

Research limitations/implications

The parameters of the systematic literature review, such as key terms used in the search and limited scope of countries investigated, were identified as limitations of the study. By expanding search parameters to include other countries or search terms, STEM education can be viewed on a more global scale.

Practical implications

This study will improve the global perspective of STEM education practices.

Originality/value

This study is unique in that it compared the conceptualization and K-12 STEM teaching practices implemented in India, Italy and Singapore.

Details

Journal of Research in Innovative Teaching & Learning, vol. 13 no. 1
Type: Research Article
ISSN: 2397-7604

Keywords

Open Access
Book part
Publication date: 29 November 2023

Dao Thanh Truong and Nguyen Thi Quynh Anh

This chapter outlines the structure of research management and administration (RMA) in Vietnam, which is a part of the science and technology management sector. The chapter will…

Abstract

This chapter outlines the structure of research management and administration (RMA) in Vietnam, which is a part of the science and technology management sector. The chapter will present the decentralisation of RMA in Vietnam at many levels: the macro level (state), the medium level (local/province), and the micro level (organisations); describe its characteristics, and identify the conditions for the establishment of the RMA community in Vietnam shortly.

Details

The Emerald Handbook of Research Management and Administration Around the World
Type: Book
ISBN: 978-1-80382-701-8

Keywords

Open Access
Article
Publication date: 8 July 2021

Aleksandra Szulczewska-Remi and Hanna Nowak-Mizgalska

Consistent with the knowledge spillover theory of entrepreneurship, the purpose of this paper is to recognise the complementary entrepreneurial role of knowledge transfer…

1712

Abstract

Purpose

Consistent with the knowledge spillover theory of entrepreneurship, the purpose of this paper is to recognise the complementary entrepreneurial role of knowledge transfer intermediary organisations in the context of two Central and Eastern European (CEE) countries: Poland and the Czech Republic.

Design/methodology/approach

The aim was achieved through empirical studies relying on multiple-case study methodology and cross-case analysis covering 21 cases of commercialisation intermediary institutions. It was assumed that institutional and geographical conditions can impact the knowledge-based opportunity exploitation between different national economies.

Findings

Research confirmed that scientists in Poland and the Czech Republic are the central figures of the commercialisation process in terms of entrepreneurial opportunity recognition; however, they need support from intermediary organisations in many other entrepreneurial activities. The history of knowledge commercialisation and its intermediating entities in these countries is relatively young and spin-off company creation is not a common practice. Expertise knowledge, creativity and self-confidence admitted, by the respondents in both countries, can be an optimistic sign for the future efforts in fostering innovativeness of CEE countries. Stronger support of formal institutional framework and policies in those countries is expected.

Originality/value

Science commercialisation has lately attracted much attention, but only a few studies have tried to develop conceptual frameworks considering knowledge-based entrepreneurship and knowledge commercialisation in their relations and subsequential roles. Also, over the past couple of years literature in this area has expanded mainly relying on observations in the USA and Western European countries. Hence, this study allowed to collect findings from CEE countries for which data are still insufficient but can significantly contribute to the theory development. Also, some recommendations for policymakers arise from this study. Further research could validate the results in an extensive quantitative study.

Details

Journal of Entrepreneurship in Emerging Economies, vol. 15 no. 1
Type: Research Article
ISSN: 2053-4604

Keywords

Open Access
Article
Publication date: 9 July 2021

Dimitra Christidou, Sofia Papavlasopoulou and Michail Giannakos

Governments and organizations worldwide are concerned over the declining number of young people choosing to study Science, Technology, Engineering and Mathematics (STEM)…

1804

Abstract

Purpose

Governments and organizations worldwide are concerned over the declining number of young people choosing to study Science, Technology, Engineering and Mathematics (STEM), especially after the age of 16. Research has foregrounded that students with positive attitudes toward science are more likely to find it relevant and aspire to a science career. This study aims to understand the factors shaping students’ attitudes as these are pivotal in promoting science learning.

Design/methodology/approach

This study uses the framework of science capital to understand what shapes young people’s engagement with or resistance to science. The authors conducted four Computational Thinking making-based workshops with 106 children aged 15–16 years, of which 58 filled in a questionnaire and 22 were interviewed. Statistical and content analyses were performed respectively.

Findings

The results indicate that children who are more exposed to science-related activities and contexts are more likely to have higher self-efficacy, and that those with higher prior coding experience scored higher in their self-efficacy and science capital. Six themes emerged from the content analysis, highlighting the diverse factors shaping students’ attitudes, such as teaching methods, stereotypes and the degree of difficulty encountered while engaging with science in and out of school.

Originality/value

By combining qualitative and quantitative methods with the use of science capital, the authors found a number of aspects of the school experience that shape students’ attitudes to science learning in and out of school, as well as their science career aspirations.

Details

Information and Learning Sciences, vol. 122 no. 5/6
Type: Research Article
ISSN: 2398-5348

Keywords

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