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Prof. Rosa Rio-Belver
University of the Basque Country UPV/EHU (Spain)

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0 Innovation Management
0 Technology Management
0 Tech-mining
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Journal article
Published: 28 January 2021 in Journal of Industrial Engineering and Management
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Purpose: The main objective of this research is to design an Organizational Culture Transformation Model (OCTM) prototype, in order to enable a High Performance Organization (HPO).Design/methodology/approach: There are three main processes involved in the methodology. Two of them, the definition of the main OCTM work elements as an initial hypothesis based on a work environment approach and the scientific visualization of the key Organizational Culture research hubs through the analysis of the main topics in research publications, flow in parallel. Subsequently, at a certain point, both of these merge in a third process, the OCTM prototype definition. This last process, will deliver the Organizational Culture Transformation Model prototype, which essentially constitutes the main objective of the study.Findings: As result of the methodology, an Organizational Culture Transformation Model prototype has been developed.Originality/value: The resulting model will serve as a reference framework for those companies that wish to conduct an in-depth re-structuring of their operations, focusing it on their human capital.

ACS Style

Asier Ipinazar; Enara Zarrabeitia; Rosa Maria Rio Belver; Itziar Martinez De Alegría. Organizational culture transformation model: Towards a high performance organization. Journal of Industrial Engineering and Management 2021, 14, 25 -44.

AMA Style

Asier Ipinazar, Enara Zarrabeitia, Rosa Maria Rio Belver, Itziar Martinez De Alegría. Organizational culture transformation model: Towards a high performance organization. Journal of Industrial Engineering and Management. 2021; 14 (1):25-44.

Chicago/Turabian Style

Asier Ipinazar; Enara Zarrabeitia; Rosa Maria Rio Belver; Itziar Martinez De Alegría. 2021. "Organizational culture transformation model: Towards a high performance organization." Journal of Industrial Engineering and Management 14, no. 1: 25-44.

Journal article
Published: 19 December 2020 in Sustainability
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The change in business management towards a vision based on open innovation has opened the doors to knowledge transfer between organizations, promoting scientific–technological collaborations resulting in new research that opens the way to new technological innovations. Therefore, the objective of this study is to see how the company Iberdrola has oriented its management strategy towards an open innovation approach, analyzing both its scientific and technological development through a bibliometric and network analysis. The results highlight that Iberdrola has always considered scientific and technological development to be part of its strategic approach as a means of disseminating and transferring knowledge. Furthermore, it can be concluded that the implementation of strategic axes related to sustainable development in an open innovation environment has improved the results of its scientific and technical production, and also the company’s financial results.

ACS Style

Izaskun Alvarez-Meaza; Naiara Pikatza-Gorrotxategi; Rosa Rio-Belver. Sustainable Business Model Based on Open Innovation: Case Study of Iberdrola. Sustainability 2020, 12, 10645 .

AMA Style

Izaskun Alvarez-Meaza, Naiara Pikatza-Gorrotxategi, Rosa Rio-Belver. Sustainable Business Model Based on Open Innovation: Case Study of Iberdrola. Sustainability. 2020; 12 (24):10645.

Chicago/Turabian Style

Izaskun Alvarez-Meaza; Naiara Pikatza-Gorrotxategi; Rosa Rio-Belver. 2020. "Sustainable Business Model Based on Open Innovation: Case Study of Iberdrola." Sustainability 12, no. 24: 10645.

Journal article
Published: 10 December 2020 in Journal of Open Innovation: Technology, Market, and Complexity
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The essence of innovation lies in knowledge, which is why open innovation opens the door to knowledge transfer with agents outside the organization. In order to comprehend the joint scientific trajectory of these two areas of knowledge, the aim of this study is to identify and analyze the main indicators of scientific behavior involved in the research field related to the link between open innovation and knowledge transfer or knowledge sharing concepts through bibliometric and network analysis. The results show clear European leadership in scientific production developed in universities. In addition, the high quality of the main sources of diffusion infers publications of good scientific quality. The most recognized source of knowledge used in new research is directed towards university-company relationships in an open innovation environment. Network analysis related to keywords has allowed us to define the most interesting, relevant fields of research, highlighting the importance acquired by topics such as ‘communication’, ‘inter-organizational context’ and ‘education’, to better focus on future research of the scientific community. It can be concluded that the scientific development of both concepts is an active field in the academic community, and also, that new key terms appear, opening new paths of research.

ACS Style

Izaskun Alvarez-Meaza; Naiara Pikatza-Gorrotxategi; Rosa Maria Rio-Belver. Knowledge Sharing and Transfer in an Open Innovation Context: Mapping Scientific Evolution. Journal of Open Innovation: Technology, Market, and Complexity 2020, 6, 186 .

AMA Style

Izaskun Alvarez-Meaza, Naiara Pikatza-Gorrotxategi, Rosa Maria Rio-Belver. Knowledge Sharing and Transfer in an Open Innovation Context: Mapping Scientific Evolution. Journal of Open Innovation: Technology, Market, and Complexity. 2020; 6 (4):186.

Chicago/Turabian Style

Izaskun Alvarez-Meaza; Naiara Pikatza-Gorrotxategi; Rosa Maria Rio-Belver. 2020. "Knowledge Sharing and Transfer in an Open Innovation Context: Mapping Scientific Evolution." Journal of Open Innovation: Technology, Market, and Complexity 6, no. 4: 186.

Journal article
Published: 17 March 2020 in Sustainability
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The fuel-cell electric vehicle (FCEV) has been defined as a promising way to avoid road transport greenhouse emissions, but nowadays, they are not commercially available. However, few studies have attempted to monitor the global scientific research and technological profile of FCEVs. For this reason, scientific research and technological development in the field of FCEV from 1999 to 2019 have been researched using bibliometric and patent data analysis, including network analysis. Based on reports, the current status indicates that FCEV research topics have reached maturity. In addition, the analysis reveals other important findings: (1) The USA is the most productive in science and patent jurisdiction; (2) both Chinese universities and their authors are the most productive in science; however, technological development is led by Japanese car manufacturers; (3) in scientific research, collaboration is located within the tri-polar world (North America–Europe–Asia-Pacific); nonetheless, technological development is isolated to collaborations between companies of the same automotive group; (4) science is currently directing its efforts towards hydrogen production and storage, energy management systems related to battery and hydrogen energy, Life Cycle Assessment, and greenhouse gas (GHG) emissions. The technological development focuses on technologies related to electrically propelled vehicles; (5) the International Journal of Hydrogen Energy and SAE Technical Papers are the two most important sources of knowledge diffusion. This study concludes by outlining the knowledge map and directions for further research.

ACS Style

Izaskun Alvarez-Meaza; Enara Zarrabeitia-Bilbao; Rosa Maria Rio-Belver; Gaizka Garechana-Anacabe. Fuel-Cell Electric Vehicles: Plotting a Scientific and Technological Knowledge Map. Sustainability 2020, 12, 2334 .

AMA Style

Izaskun Alvarez-Meaza, Enara Zarrabeitia-Bilbao, Rosa Maria Rio-Belver, Gaizka Garechana-Anacabe. Fuel-Cell Electric Vehicles: Plotting a Scientific and Technological Knowledge Map. Sustainability. 2020; 12 (6):2334.

Chicago/Turabian Style

Izaskun Alvarez-Meaza; Enara Zarrabeitia-Bilbao; Rosa Maria Rio-Belver; Gaizka Garechana-Anacabe. 2020. "Fuel-Cell Electric Vehicles: Plotting a Scientific and Technological Knowledge Map." Sustainability 12, no. 6: 2334.

Journal article
Published: 01 January 2020 in DYNA
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The objective of this work is to determine the carbon footprint of a university building. This work is considered as a contribution aimed at integrating sustainability in its management, determining the main sources of greenhouse gas emissions and proposing solutions to reduce its environmental impact. This educational center houses 1064 students of Engineering and is located at the campus of the University of the Basque Country in Vitoria-Spain. The methodology applied to calculate greenhouse gas emissions follows the guidelines issued by the Ministry of Agriculture, Food and Environment of Spain (MAPAMA). It was found that an adequate environmental management system eases the calculation of these emissions and the source identifications. It was assessed that the carbon footprint for the studied institution was 0.558 t CO2 eq/ person-year and 0.635t CO2 eq/student-year. With regard to direct emissions, 205.15 t CO2eq / year and indirect 392 t CO2eq / year were detected, for the last year studied. For this edifice, it is proposed that the appropriate measures to reduce the carbon footprint should focus on changing the current energy source used for the air conditioning of the building, what is now natural gas, and improving the insulation system. The calculation method depends on emission factors that are representative. Thus, it is recommended to continue researching in order to set emission factors, which can be applied specifically for university buildings. In this way, the methodology would be standardized and more accurate comparisons could be established between related studies. Keywords: Global Change, Carbon Footprint, Sustainability, Responsible university management, decrease carbon dioxide emissions.

ACS Style

Alejandro Rodríguez Andara; Rosa M Rio-Belver; Vanessa Garcia Marina. SUSTAINABLE UNIVERSITY INSTITUTIONS: DETERMINATION OF GASES GREENHOUSE EFECT IN A UNIVERSITY CENTER AND STRATEGIES TO DECREASE THEM. DYNA 2020, 95, 47 -53.

AMA Style

Alejandro Rodríguez Andara, Rosa M Rio-Belver, Vanessa Garcia Marina. SUSTAINABLE UNIVERSITY INSTITUTIONS: DETERMINATION OF GASES GREENHOUSE EFECT IN A UNIVERSITY CENTER AND STRATEGIES TO DECREASE THEM. DYNA. 2020; 95 (1):47-53.

Chicago/Turabian Style

Alejandro Rodríguez Andara; Rosa M Rio-Belver; Vanessa Garcia Marina. 2020. "SUSTAINABLE UNIVERSITY INSTITUTIONS: DETERMINATION OF GASES GREENHOUSE EFECT IN A UNIVERSITY CENTER AND STRATEGIES TO DECREASE THEM." DYNA 95, no. 1: 47-53.

Journal article
Published: 30 September 2019 in IEEE Transactions on Engineering Management
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This article uses text mining techniques to determine the time lag of knowledge transfer between research activity and technology development in bioremediation, complementing these with advanced visualization techniques in order to extract patterns that could be of interest for decision making in this field. The emergence patterns in this field have been identified and a method based on subject-action-object (SAO) semantic structure is proposed for characterizing such patterns, using 2-word tuples. Our results show that technology developments in heavy metal bioremediation swiftly follow scientific advances, as opposed to developments in bioremediation of organic chemical components. The science mapping reveals three distinct areas: 1) heavy metal remediation and phytoremediation; 2) aerobic and anaerobic remediation of chemical elements; and 3) bioremediation techniques for treating specific contamination sources such as oil. The emergence analysis points at activities involving energy recovery by bioremediation, and shows an increasing amount of technologies involving specific strains of microorganisms, which could gain significant traction in this field in an estimated time horizon of ten years. Our SAO approach, tested on the data sample corresponding to these strains, proves to be useful for characterizing the emerging technologies when applied to instrumental concepts.

ACS Style

Gaizka Garechana; Rosa Rio-Belver; Enara Zarrabeitia; Izaskun Alvarez-Meaza. From Research to Industry: A Quantitative and Qualitative Analysis of Science-Technology Transferences and Emergence Patterns in Bioremediation. IEEE Transactions on Engineering Management 2019, 68, 1520 -1531.

AMA Style

Gaizka Garechana, Rosa Rio-Belver, Enara Zarrabeitia, Izaskun Alvarez-Meaza. From Research to Industry: A Quantitative and Qualitative Analysis of Science-Technology Transferences and Emergence Patterns in Bioremediation. IEEE Transactions on Engineering Management. 2019; 68 (5):1520-1531.

Chicago/Turabian Style

Gaizka Garechana; Rosa Rio-Belver; Enara Zarrabeitia; Izaskun Alvarez-Meaza. 2019. "From Research to Industry: A Quantitative and Qualitative Analysis of Science-Technology Transferences and Emergence Patterns in Bioremediation." IEEE Transactions on Engineering Management 68, no. 5: 1520-1531.

Journal article
Published: 27 June 2019 in Sustainability
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This article analyses how the concept of sustainability is being incorporated into global research of higher education. This study utilizes different scientometric reviews of global research between 1991 and 2018 using text mining techniques in order to generate first and second-generation bibliometric indicators, the latter are displayed in science maps. A total of 6724 articles and conference proceedings were collected from the Web of Science and Scopus databases to generate this research. From the results obtained, it was possible to build a canvas of the main institutions that have significantly contributed to the topic of sustainability in higher education, and it was found that 40.58% of the records originated in institutions from the United States, China, United Kingdom, and Australia. This study also provides an insight into emerging trend themes, and patterns of research in the area of sustainability worldwide. Terms such as regional planning and environmental protection inside the top keywords found, suggest a greater interest in issues of sustainable planning and social awareness and that higher education is becoming the cornerstone of environmental awareness, innovation, and guidance to achieve sustainability goals in higher education institutions, as well as in society and government.

ACS Style

Jesus S. Alejandro-Cruz; Rosa M. Rio-Belver; Yara C. Almanza-Arjona; Alejandro Rodriguez-Andara. Towards a Science Map on Sustainability in Higher Education. Sustainability 2019, 11, 3521 .

AMA Style

Jesus S. Alejandro-Cruz, Rosa M. Rio-Belver, Yara C. Almanza-Arjona, Alejandro Rodriguez-Andara. Towards a Science Map on Sustainability in Higher Education. Sustainability. 2019; 11 (13):3521.

Chicago/Turabian Style

Jesus S. Alejandro-Cruz; Rosa M. Rio-Belver; Yara C. Almanza-Arjona; Alejandro Rodriguez-Andara. 2019. "Towards a Science Map on Sustainability in Higher Education." Sustainability 11, no. 13: 3521.

Journal article
Published: 05 June 2019 in International Journal of Production Management and Engineering
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Patents are a means of protecting inventions developed by firms, institutions or individuals, and they may be interpreted as indicators of invention. Patents indicators convey information on the processes of inventive activities. Therefore, patent statistics will assess science and technology (S&T) activities. Besides, additive manufacturing (AM) has become a revolutionary technology that is changing medical science. For this reason, the patent statistics will allow us to monitor what is the state of the inventive activity of AM in medical applications. The database used in order to retrieve patent information is Patseer and the data have been analyzed through the analytics package called Quick Stats. From the data obtained, it can be concluded that, additive manufacturing in medical applications is an emerging technology with huge market potential. Undoubtedly, the core of invention is located in United States, followed by Germany, United Kingdom and China somewhat behind. Firms are the main holders of legal rights, and the firm’s market value and the knowledge diffusion of technology are ensured by the technological diversity and the number of forward citations presented by patents.

ACS Style

Izaskun Alvarez; E. Zarrabeitia-Bilbao; R.M. Rio-Belver; I. Martinez De Alegria; I. Bildosola. Patentometric: monitoring the scientific and technological trends of Additive Manufacturing in Medical Applications. International Journal of Production Management and Engineering 2019, 7, 65 -72.

AMA Style

Izaskun Alvarez, E. Zarrabeitia-Bilbao, R.M. Rio-Belver, I. Martinez De Alegria, I. Bildosola. Patentometric: monitoring the scientific and technological trends of Additive Manufacturing in Medical Applications. International Journal of Production Management and Engineering. 2019; 7 ():65-72.

Chicago/Turabian Style

Izaskun Alvarez; E. Zarrabeitia-Bilbao; R.M. Rio-Belver; I. Martinez De Alegria; I. Bildosola. 2019. "Patentometric: monitoring the scientific and technological trends of Additive Manufacturing in Medical Applications." International Journal of Production Management and Engineering 7, no. : 65-72.

Journal article
Published: 05 March 2019 in El Profesional de la información
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Additive Manufacturing (AM) technologies, technologies that produce three-dimensional parts layer by layer from a material, have the potential to revolutionize the paradigm of manufacturing. Furthermore, in recent years AM technologies have sparked intense interest for developing medical implants, devices, and scaffolds. In this context, the main objective of this article is to present an overall view of the trends and the impact of the research carried out in AM technologies for biomedical engineering applications. Therefore, to achieve the main objective, a research trend and scientific impact analysis model was designed and implemented, to carry out a bibliometric indicator analysis, in general, and a web indicator analysis, in particular. The findings obtained will advance the means of visualizing the state of research in AM for biomedical engineering technologies.

ACS Style

Enara Zarrabeitia-Bilbao; Izaskun Alvarez-Meaza; Rosa-María Río-Belver; Gaizka Garechana-Anacabe. Additive manufacturing technologies for biomedical engineering applications: Research trends and scientific impact. El Profesional de la información 2019, 28, 1 .

AMA Style

Enara Zarrabeitia-Bilbao, Izaskun Alvarez-Meaza, Rosa-María Río-Belver, Gaizka Garechana-Anacabe. Additive manufacturing technologies for biomedical engineering applications: Research trends and scientific impact. El Profesional de la información. 2019; 28 (2):1.

Chicago/Turabian Style

Enara Zarrabeitia-Bilbao; Izaskun Alvarez-Meaza; Rosa-María Río-Belver; Gaizka Garechana-Anacabe. 2019. "Additive manufacturing technologies for biomedical engineering applications: Research trends and scientific impact." El Profesional de la información 28, no. 2: 1.

Research article
Published: 07 January 2019 in PLOS ONE
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This paper presents a method for the identification of the “technology fronts”—core technological solutions—underlying a certain broad technology, and the characterization of their change dynamics. We propose an approach based on the Latent Dirichlet Allocation (LDA) model combined with patent data analysis and text mining techniques for the identification and dynamic characterization of the main fronts where actual technological solutions are put into practice. 3D printing technology has been selected to put our method into practice for its market emergence and multidisciplinarity. The results show two highly relevant and specialized fronts strongly related with mechanical design that evolve gradually, in our opinion acting as enabling technologies. On the other side, we detected three fronts undergoing significant changes, namely layer-by-layer multimaterial manufacturing, data processing and stereolithograpy techniques. Laser and electron-beam based technologies take shape in the latter years and show signs of becoming enabling technologies in the future. The technology fronts and data revealed by our method have been convincing to experts and coincident with many technology trends already pointed out in technical reports and scientific literature.

ACS Style

Gaizka Garechana; Rosa Río-Belver; Iñaki Bildosola; Ernesto Cilleruelo-Carrasco. A method for the detection and characterization of technology fronts: Analysis of the dynamics of technological change in 3D printing technology. PLOS ONE 2019, 14, e0210441 .

AMA Style

Gaizka Garechana, Rosa Río-Belver, Iñaki Bildosola, Ernesto Cilleruelo-Carrasco. A method for the detection and characterization of technology fronts: Analysis of the dynamics of technological change in 3D printing technology. PLOS ONE. 2019; 14 (1):e0210441.

Chicago/Turabian Style

Gaizka Garechana; Rosa Río-Belver; Iñaki Bildosola; Ernesto Cilleruelo-Carrasco. 2019. "A method for the detection and characterization of technology fronts: Analysis of the dynamics of technological change in 3D printing technology." PLOS ONE 14, no. 1: e0210441.

Article
Published: 01 November 2018 in Scientometrics
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While novel technologies have tremendous competitive potential, they also involve certain risks. Maturity assessment analyzes how well a technological development can fulfill an expected task. The technology readiness level (TRL) has been considered to be one of the most promising approaches for addressing technological maturity. Nonetheless, its assessment requires opinions of the experts, which is costly and implies the risk of personal bias. To fill this gap, this paper presents a Bibliometric Method for Assessing Technological Maturity (BIMATEM). It is a repeatable framework that assesses maturity quantitatively. Our method is based on the assumption that each technology life cycle stage can be matched to technology records contained in scientific literature, patents, and news databases. The scientific papers and patent records of mature technologies display a logistic growth behavior, while news records follow a hype-type behavior. BIMATEM determines the maturity level by curve fitting technology records to these behaviors. To test our approach, BIMATEM was applied to additive manufacturing (AM) technologies. Our results revealed that material extrusion, material jetting, powder bed fusion and vat photopolymerization are the most mature AM technologies with TRL between 6 and 7, followed by directed energy deposition with TRL between 4 and 5, and binder jetting and sheet lamination, the least mature, with TRL between 1 and 2. BIMATEM can be used by competitive technology intelligence professionals, policymakers, and further decision makers whose main interests include assessing the risk of implementing new technologies. Future research can focus on testing the method with regard to altmetrics.

ACS Style

René Lezama-Nicolás; Marisela Rodríguez-Salvador; Rosa Río-Belver; Iñaki Bildosola. A bibliometric method for assessing technological maturity: the case of additive manufacturing. Scientometrics 2018, 117, 1425 -1452.

AMA Style

René Lezama-Nicolás, Marisela Rodríguez-Salvador, Rosa Río-Belver, Iñaki Bildosola. A bibliometric method for assessing technological maturity: the case of additive manufacturing. Scientometrics. 2018; 117 (3):1425-1452.

Chicago/Turabian Style

René Lezama-Nicolás; Marisela Rodríguez-Salvador; Rosa Río-Belver; Iñaki Bildosola. 2018. "A bibliometric method for assessing technological maturity: the case of additive manufacturing." Scientometrics 117, no. 3: 1425-1452.

Journal article
Published: 01 November 2018 in DYNA
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The digital interconnection of the machines through the Internet is generating the Fourth Industrial Revolution (4IR). These "smart machines" are already transforming a wide variety of sectors, from manufacturing and agriculture to health and transport. This study aims to visualize and analyze the flows of technological knowledge leading to inventions that lead to industrial digitization with great impact on the value chain. Through the study of patents, we can observe how the technological advances characteristic of Industry 4.0 are contributing to generate new inventions in the Machine Tool sector. The sample, extracted from the European Patent Office's (EPO) global patent database, is comprised of all patent applications related to the 4IR and Machine Tool in the period 1990-2016. The study shows how in recent years the influence of 4IR on Machine Tools has grown exponentially, with industry 4.0 technologies related to hardware and data analysis and interpretation being the most cited in Machine Tool patents. American companies are the main contributors to the digitalization of the sector, followed closely by European companies, mainly German, and in the case of Chinese companies, the data indicate that their presence will increase considerably in the coming years. Keywords: Machine tool; Fourth Industrial Revolution; Industry 4.0; Patents; Technological knowledge flows

ACS Style

Javier Gavilanes Trapote; Rosa M Rio-Belver; Ernesto Cilleruelo Carrasco; Alejandro Rodriguez-Andara. VISUALISATION OF THE DIGITAL TRANSFORMATION OF THE MACHINE TOOL SECTOR. TOWARDS INDUSTRY 4.0. DYNA 2018, 93, 587 -591.

AMA Style

Javier Gavilanes Trapote, Rosa M Rio-Belver, Ernesto Cilleruelo Carrasco, Alejandro Rodriguez-Andara. VISUALISATION OF THE DIGITAL TRANSFORMATION OF THE MACHINE TOOL SECTOR. TOWARDS INDUSTRY 4.0. DYNA. 2018; 93 (1):587-591.

Chicago/Turabian Style

Javier Gavilanes Trapote; Rosa M Rio-Belver; Ernesto Cilleruelo Carrasco; Alejandro Rodriguez-Andara. 2018. "VISUALISATION OF THE DIGITAL TRANSFORMATION OF THE MACHINE TOOL SECTOR. TOWARDS INDUSTRY 4.0." DYNA 93, no. 1: 587-591.

Conference paper
Published: 19 September 2018 in Lecture Notes in Management and Industrial Engineering
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Maturity is a stage in the technology life cycle where technology is highly competitive and it can (safely) be integrated into products or processes. This article analyzes the most important methods to assess maturity and proposes a method based on their best features. On the one hand, Future-oriented Technology Analysis, an approach that incorporates different decision-taking techniques. On the other hand, Technology Readiness Levels, a quantitative scale used to measure technology’s progress. The proposed approach uses logistic-growth fitting to match technology publication trends to the Technology Readiness Level scale. Three technologies at different maturity levels were successfully tested.

ACS Style

Marisela Rodríguez Salvador; René Lezama Nicolás; Rosa María Río Belver; Alejandro Rodríguez Andara. Lessons Learned in Assessment of Technology Maturity. Lecture Notes in Management and Industrial Engineering 2018, 103 -110.

AMA Style

Marisela Rodríguez Salvador, René Lezama Nicolás, Rosa María Río Belver, Alejandro Rodríguez Andara. Lessons Learned in Assessment of Technology Maturity. Lecture Notes in Management and Industrial Engineering. 2018; ():103-110.

Chicago/Turabian Style

Marisela Rodríguez Salvador; René Lezama Nicolás; Rosa María Río Belver; Alejandro Rodríguez Andara. 2018. "Lessons Learned in Assessment of Technology Maturity." Lecture Notes in Management and Industrial Engineering , no. : 103-110.

Conference paper
Published: 19 September 2018 in Lecture Notes in Management and Industrial Engineering
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Abengoa Solar New Technologies (ASNT) is a relevant R&D actor in solar energy EPC/Turnkey sector, its innovation strategy being characterized by the aggressive patenting strategy they have deployed since year 2008. On that same year ASNT got its innovation management system certified under UNE 166002 standard, combining two divergent issues such as standardization and innovation. This paper presents the main features of the innovation model put into practice at ASNT, detailing its implications for knowledge management and R&D employee incentive system.

ACS Style

Gaizka Garechana; Rosa María Río Belver; Ernesto Cilleruelo-Carrasco; Iñaki Bildosola. An Innovation Model for EPC/Turnkey Sector: The Case of Abengoa Solar New Technologies. Lecture Notes in Management and Industrial Engineering 2018, 17 -24.

AMA Style

Gaizka Garechana, Rosa María Río Belver, Ernesto Cilleruelo-Carrasco, Iñaki Bildosola. An Innovation Model for EPC/Turnkey Sector: The Case of Abengoa Solar New Technologies. Lecture Notes in Management and Industrial Engineering. 2018; ():17-24.

Chicago/Turabian Style

Gaizka Garechana; Rosa María Río Belver; Ernesto Cilleruelo-Carrasco; Iñaki Bildosola. 2018. "An Innovation Model for EPC/Turnkey Sector: The Case of Abengoa Solar New Technologies." Lecture Notes in Management and Industrial Engineering , no. : 17-24.

Conference paper
Published: 19 September 2018 in Lecture Notes in Management and Industrial Engineering
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Additive manufacturing technologies have the potential to change the paradigm of manufacturing. In this scenario, the main objective of this research work is to gain, through a patent study, an overall view of the trends of laser-based additive manufacturing technologies. The database used in order to retrieve patent information is Patseer and the data have been analyzed through the text mining and analytics package called VantagePoint. From the data obtained it can be concluded that, Laser-based additive manufacturing is an emerging technology with huge market potential. Undoubtedly, China is the prime mover of basic research in this technology development. However, Germany and the United States are the ones who are developing the market applications.

ACS Style

Enara Zarrabeitia; Iñaki Bildosola; Rosa María Río Belver; Izaskun Alvarez; Ernesto Cilleruelo-Carrasco. Laser Additive Manufacturing: A Patent Overview. Lecture Notes in Management and Industrial Engineering 2018, 183 -191.

AMA Style

Enara Zarrabeitia, Iñaki Bildosola, Rosa María Río Belver, Izaskun Alvarez, Ernesto Cilleruelo-Carrasco. Laser Additive Manufacturing: A Patent Overview. Lecture Notes in Management and Industrial Engineering. 2018; ():183-191.

Chicago/Turabian Style

Enara Zarrabeitia; Iñaki Bildosola; Rosa María Río Belver; Izaskun Alvarez; Ernesto Cilleruelo-Carrasco. 2018. "Laser Additive Manufacturing: A Patent Overview." Lecture Notes in Management and Industrial Engineering , no. : 183-191.

Book chapter
Published: 18 July 2018 in Scientometrics
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ACS Style

Iñaki Bildosola; RosaMaría Río-Bélver; Gaizka Garechana; Enara Zarrabeitia. Technology Roadmapping of Emerging Technologies: Scientometrics and Time Series Approach. Scientometrics 2018, 1 .

AMA Style

Iñaki Bildosola, RosaMaría Río-Bélver, Gaizka Garechana, Enara Zarrabeitia. Technology Roadmapping of Emerging Technologies: Scientometrics and Time Series Approach. Scientometrics. 2018; ():1.

Chicago/Turabian Style

Iñaki Bildosola; RosaMaría Río-Bélver; Gaizka Garechana; Enara Zarrabeitia. 2018. "Technology Roadmapping of Emerging Technologies: Scientometrics and Time Series Approach." Scientometrics , no. : 1.

Conference paper
Published: 12 July 2018 in Proceedings of the 2nd International Conference on Advanced Research Methods and Analytics (CARMA 2018)
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This article provides a retrospective and understanding of the development of automatic learning methods. The beginnings are visualized as a discipline within Computer Sciences in the subcategory of Artificial Intelligence, its development and the current transfer of knowledge to other areas of Engineering and its industrial applications. Based on the publications about machine learning and its application contained in the Web of Science database, records from 1986 to 2017 are downloaded. After a description of the technological profile, a new approach is introduced to the classification of a discipline based on the year of appearance of those terms that define it. Mining of technological texts and network theory has been applied to extract the terms and interpret their evolution. They are the those that define the stages of emergence, development and maturation of the discipline Machine learning. The novelty of this approach lies in the technical nature of applied research in Machine Learning, which aims to be a guide for the development of future engineering applications and to make technology transfer toindustry visible.

ACS Style

Rosa María Río-Belver; Gaizka Garechana; Iñaki Bildosola; Enara Zarrabeitia. Evolution and scientific visualization of Machine learning field. Proceedings of the 2nd International Conference on Advanced Research Methods and Analytics (CARMA 2018) 2018, 1 .

AMA Style

Rosa María Río-Belver, Gaizka Garechana, Iñaki Bildosola, Enara Zarrabeitia. Evolution and scientific visualization of Machine learning field. Proceedings of the 2nd International Conference on Advanced Research Methods and Analytics (CARMA 2018). 2018; ():1.

Chicago/Turabian Style

Rosa María Río-Belver; Gaizka Garechana; Iñaki Bildosola; Enara Zarrabeitia. 2018. "Evolution and scientific visualization of Machine learning field." Proceedings of the 2nd International Conference on Advanced Research Methods and Analytics (CARMA 2018) , no. : 1.

Journal article
Published: 05 February 2018 in International Journal of Sustainability in Higher Education
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Purpose The purpose of this paper is to deliver a roadmap that displays pathways to develop sustainability skills in the engineering curricula. Design/methodology/approach The selected approach to enrich engineering students with sustainability skills was active learning methodologies. First, a survey was carried out on a sample of 189 students to test the current sustainability literacy and determine the roadmap starting point. Next, a scientometric study regarding active learning methodologies was executed. A total of 2,885 articles and conference proceedings from the period 2013-2016 were retrieved from the Web of Science database. The records were then imported into text mining software to undergo a term clumping process. Annual knowledge clusters based on key terms were outputted. Finally, a roadmap was created by experts based on the annual knowledge clusters. Findings Four annual pathways were created along the roadmap to develop sustainability skills during the four-year college course in engineering. The first consisted on promoting a recycling campaign through a circular economy. The second aimed at creating educational videos regarding sustainability. The third reinforced reasoning and argumentative skills by preparing a debate on environmental issues. The last path assumed that the student is working in internship programs and prepared him/her to apply environmental management models to solve sustainability issues within the company. Research limitations/implications Roadmaps should be updated approximately every two years to reflect novelty. The proposed methodology shows an easy way to create them. Practical implications Results from this paper, as well as the proposed methodology, can be applied to any organization forming individuals: from primary school education to employee training programs in organizations. Social implications The development of sustainability skills has a direct, positive impact on professional decision-making and, ultimately, on the environment. Originality/value This paper presents a roadmapping process to develop sustainability competences throughout engineering college education.

ACS Style

Alejandro Rodriguez-Andara; Rosa M Rio-Belver; Marisela Rodríguez-Salvador; René Lezama-Nicolás. Roadmapping towards sustainability proficiency in engineering education. International Journal of Sustainability in Higher Education 2018, 19, 413 -438.

AMA Style

Alejandro Rodriguez-Andara, Rosa M Rio-Belver, Marisela Rodríguez-Salvador, René Lezama-Nicolás. Roadmapping towards sustainability proficiency in engineering education. International Journal of Sustainability in Higher Education. 2018; 19 (2):413-438.

Chicago/Turabian Style

Alejandro Rodriguez-Andara; Rosa M Rio-Belver; Marisela Rodríguez-Salvador; René Lezama-Nicolás. 2018. "Roadmapping towards sustainability proficiency in engineering education." International Journal of Sustainability in Higher Education 19, no. 2: 413-438.

Journal article
Published: 01 November 2017 in Journal of Renewable and Sustainable Energy
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This study analyses the efficiency in knowledge transmission of organizations and local regions participating in European R&D projects in 2000–2013 within renewable energy (RE) sectors (wind, solar, sea, geothermal, and biomass) using social network analysis (SNA). A review of the collaborative R&D consortium networks as technological transfer structures and public policy support issues was carried out. Then, not only is the traditional SNA centrality perspective of actors employed to identify key players who bridge less connected areas, but also the structural hole approach is applied based on the relative position, role, and potential redundancy of collaborations from the overall network perspective. It reveals that networks of organizations and local regions are neither completely random nor homogenous in terms of cohesion and efficiency. Additionally, the existence of areas between core and peripheral nodes (structural holes) is confirmed. Higher education and research centers, which show a greater influential position and higher experience, take advantage of them. Research concludes that the efficiency in terms of knowledge transmission is not always positively correlated with high centrality values. The most emergent RE sectors still appear less efficient according to the rankings produced integrating both approaches. This paper makes a novel academic contribution to RE policy makers since a new application of centrality and efficiency perspectives is applied. As a result, policy makers should consider it in detail when designing public RE projects with the aim of building an efficient European Research Area.

ACS Style

Jaso Larruscain; Rosa Río-Belver; Juan Ramón Arraibi; Gaizka Garechana. Efficiency in knowledge transmission in R&D project networks: European renewable energy sector. Journal of Renewable and Sustainable Energy 2017, 9, 065908 .

AMA Style

Jaso Larruscain, Rosa Río-Belver, Juan Ramón Arraibi, Gaizka Garechana. Efficiency in knowledge transmission in R&D project networks: European renewable energy sector. Journal of Renewable and Sustainable Energy. 2017; 9 (6):065908.

Chicago/Turabian Style

Jaso Larruscain; Rosa Río-Belver; Juan Ramón Arraibi; Gaizka Garechana. 2017. "Efficiency in knowledge transmission in R&D project networks: European renewable energy sector." Journal of Renewable and Sustainable Energy 9, no. 6: 065908.

Conference paper
Published: 18 August 2017 in Lecture Notes in Management and Industrial Engineering
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Emerging Technologies are having a huge impact in the income statement of current enterprises and therefore they must be adopted as soon as possible. Thus, any attempt to introduce the characteristics and evolution of this kind of technologies is helpful for decision makers. In this sense, this paper aims at depicting Big Data, one of these cutting edge technologies, by obtaining a complete profile of it and generating the bases for a valid forecast. The approach is made within the Information Structuring and Technological Forecasting fields, with the application of several methods, namely: Text Mining and Natural Language Processing, Visualization Techniques and Trend Analysis.

ACS Style

Iñaki Bildosola; Rosa Rio-Bélver; Ernesto Cilleruelo; Gaizka Garechana. Depicting Big Data: Producing a Technological Profile. Lecture Notes in Management and Industrial Engineering 2017, 39 -47.

AMA Style

Iñaki Bildosola, Rosa Rio-Bélver, Ernesto Cilleruelo, Gaizka Garechana. Depicting Big Data: Producing a Technological Profile. Lecture Notes in Management and Industrial Engineering. 2017; ():39-47.

Chicago/Turabian Style

Iñaki Bildosola; Rosa Rio-Bélver; Ernesto Cilleruelo; Gaizka Garechana. 2017. "Depicting Big Data: Producing a Technological Profile." Lecture Notes in Management and Industrial Engineering , no. : 39-47.