Relevant bibliographies by topics / Open labs

Academic literature on the topic 'Open labs'

Author: Grafiati
Published: 6 July 2024

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Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Journal articles on the topic "Open labs":

1

Banerjee, P., R. Friedrich, and L. Morell. "Open Innovation at HP Labs." Computer 43, no. 11 (November 2010): 88–90. http://dx.doi.org/10.1109/mc.2010.322.

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Metz, Steven B. "Open Letter to Norden Labs." AAV Today 1, no. 1 (1987): 13. http://dx.doi.org/10.2307/27670221.

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Leminen, Seppo, Mika Westerlund, and Anna-Greta Nyström. "Living Labs as Open-Innovation Networks." Technology Innovation Management Review 2, no. 9 (September 12, 2012): 6–11. http://dx.doi.org/10.22215/timreview/602.

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Leminen, Seppo, Mika Westerlund, and Anna-Greta Nyström. "Living Labs as Open-Innovation Networks." Technology Innovation Management Review 2, no. 9 (September 12, 2012): 6–11. http://dx.doi.org/10.22215/timreview602.

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Da Silva, Silvio Bitencourt, and Claudia Cristina Bitencourt. "Open social innovation in living labs." Revista Pensamento Contemporâneo em Administração 13, no. 3 (September 23, 2019): 16. http://dx.doi.org/10.12712/rpca.v13i3.32914.

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Schmidt, Suntje. "Open Creative Labs – Treffpunkte für Kreative?" Standort 44, no. 2 (April 6, 2020): 67–72. http://dx.doi.org/10.1007/s00548-020-00638-x.

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Scozzi, Barbara, Nicola Bellantuono, and Pierpaolo Pontrandolfo. "Managing Open Innovation in Urban Labs." Group Decision and Negotiation 26, no. 5 (January 31, 2017): 857–74. http://dx.doi.org/10.1007/s10726-017-9524-z.

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Sulaiman, Madiareni. "Transformasi Perpustakaan Khusus menjadi Data Labs dalam Mendukung Open Data dan Open Government di Indonesia." Media Pustakawan 28, no. 1 (April 27, 2021): 1–14. http://dx.doi.org/10.37014/medpus.v28i1.1165.

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Data Labs is one of the elements of the data center and has been owned by almost all organizations in the special library environment for government and private institutions, on behalf of the data and information center. The term, data labs, become the focus of the study in its function to maximize the use of data (reusable data) in institutional repositories and generally managed by special libraries. The discussion focuses on material that answers the function/role of a special library as data labs; current and future challenges; how information professionals respond to these challenges; as well as how to see the potential of the collections and content they have. Survey analysis and data collection through depth-interviews are a form of research approach in this study. Based on the results of the study, it was found that most of the respondents had played a part in supporting the openness of data in their institutions, and had some of the functions of data labs. There are several things that need to be considered further, namely the points for the roles they have (digital divide, data management, and knowledge workers), challenge points (policies and data openness ecosystem), response points (targeted-groups, business processes, action plans, and skill-upgrade), as well as points for the potential collections and content owned by the institutions (advocacy, needs analysis, open data principles, and inclusiveness). The research results are expected to be the basis for policy in determining the position of special libraries with data labs functions to support institutions’ performance. So it can be concluded that in supporting the transformation of this function, it is necessary to provide competent employees in accordance with the needs for the future development of data repository content, as well as in line with government programs and the global community related to data transparency and governance in Indonesia.
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Shibin, Konstantin, Sergei Devadze, Vjatseslav Rosin, Artur Jutman, and Raimund Ubar. "Open-Source JTAG Simulator Bundle for Labs." International Journal of Electronics and Telecommunications 58, no. 3 (September 2012): 233–39. http://dx.doi.org/10.2478/v10177-012-0032-4.

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Abstract This paper presents a software/hardware bundle for studying, training and research related to IEEE 1149.1 Boundary Scan (BS) standard. The presented package includes a software environment Trainer 1149 that is capable to graphically visualize BS facilities and perform fine-grain simulation of BS test process. Trainer 1149 provides a cozy graphical design and simulation environment of BS-enabled chips and non-BS clusters. It provides the user with a full flexibility in working with any type of BS structures by supporting standard formats such as Boundary Scan Description Language and SVF (for defining test patterns). A special fault simulation mode allows injecting various types of interconnection faults to simulate their impact and inspect them using interactive tools. Trainer 1149 is the main component of a recent goJTAG initiative that aims at bringing JTAG tools closer to the user for both learning and experimental work purposes. The software part is implemented in multi-platform Java environment and distributed as an open-source freeware. Using a convenient low-cost USB-JTAG controller, one can also test real defects in real hardware. Such combination of features is unique for a public domain BS package.
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Hiscott, Laura. "Open-source tool calculates labs’ carbon footprint." Physics World 35, no. 10 (December 1, 2022): 7i. http://dx.doi.org/10.1088/2058-7058/35/10/10.

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You might also be interested in the extended bibliographies on the topic 'Open labs' for particular source types:
Journal articles Dissertations / Theses Books

Dissertations / Theses on the topic "Open labs":

1

Mills, Thomas W. (Thomas Wayne). "Intel Corporation -- Intel Labs Europe : open innovation 2.0." Thesis, Massachusetts Institute of Technology, 2015. http://hdl.handle.net/1721.1/99033.

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Thesis: S.M. in Management of Technology, Massachusetts Institute of Technology, Sloan School of Management, 2015.
Cataloged from PDF version of thesis.
Includes bibliographical references (pages 62-64).
Around the world, the name Intel is synonymous with personal computers. Since the early 1980s nearly all personal computers, and more recently servers, are designed with a microprocessor based on Intel's x86 architecture. Over the last decade, however, the industry has seen many changes, and current trends send strong signals to Intel that it must continue the evolution of its own internal corporate innovation process-one that has driven Intel's success for many years-or suffer potential negative consequences. The reality is that for almost 40 years, personal computers have remained relatively the same; all had the same open modular architecture originally designed by IBM in the early 1980s. However, the past few years have seen a wave of evolution that includes embedded computing driven by the growth of digital devices like tablets and smartphones. These changes are of major importance to Intel. Instead of using the workhorse standard x86 processor, digital devices today have a chipset optimized for that device's specific application. This hardware change is further complicated by the shift to cloud computing and data centers. Change within the semiconductor industry, and specifically for Intel, is requisite and inevitable. Today, the firm is investing heavily in its future. Part of this investment is an initiative called Open Innovation 2.0, undertaken in Ireland under the umbrella of Intel Labs Europe. This innovation demonstrates Intel's commitment to evolving its corporate innovation processes to meet the needs of today's customers as well as future customers, markets, and industries. It must be said, however, that some technology-based innovation luminaries and academics believe Open Innovation (OI) is nothing new but merely the latest repackaged fad in innovation. In this thesis I evaluate how Intel developed its 01 initiative and then assess the levels of success achieved to date and planned for the future. History will show if OI is a useful innovation tool and whether Intel can maintain its reputation in the volatile field of digital computing.
by Thomas W. Mills.
S.M. in Management of Technology
2

Isabel, Santos. "Designing Future Cities through a Living Labs Approach : Case-Study of the Väsby Labs." Thesis, KTH, Industriell ekonomi och organisation (Inst.), 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-123539.

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Title - Designing Future Sustainable Cities through a Living Labs Approach – A Case study of “Väsby Labs” Purpose - The purpose of this study is to analyze the contributions of the Living Labs research and innovation methodology to the planning process of designing future sustainable cities as well as its main shortcomings. Additionally, this study intends to provide possible solutions to improve the model in the future. The Living Labs model focuses on creating platforms for communication, innovation and long term development by inviting different stakeholders to an open planning process before public places are defined, houses built and schools developed. Interaction between developers, inhabitants, social services, and political and financial systems is the key element of this model. Research questions - What are the main contributions of the Living Labs Model to the process of designing future sustainable cities and which are its main limitations? How can these limitations be addressed to improve the process in the future? Methodology - Qualitative research consisting of a literature review and an empirical case study based on semi-structured interviews with key individuals as well as secondary data gathered from the web and from participating in workshops and exhibitions in the project’s site. Research limitations/implications – Due to time limitations this study is a mere analysis of a project being developed on a Swedish municipality and does not contemplate its final results, only the ones reached on the date of the current study. The language is also a limitation, due to some of the literature related to the case study, and the conferences and workshops being in Swedish. Originality/Value - This study is the first attempt to analyze the contribution of a methodology such as the Living Labs to the planning process of designing future sustainable cities.
3

Neves, Heloisa Maria Domingues. "Maker innovation. Do open design e fab labs... às estratégias inspiradas no movimento maker." Universidade de São Paulo, 2014. http://www.teses.usp.br/teses/disponiveis/16/16134/tde-14072015-112909/.

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O objeto central desta pesquisa é o termo \"Maker Innovation\", uma síntese de estratégias \"makers\", tornando-as legíveis, replicáveis e contextualizadas dentro de um processo de Inovação pelo Design. Este conceito foi alcançado através do estudo qualitativo: (1) das práticas abertas provenientes do \"Open Design\" e conceitos relacionados, (2) dos ambientes colaborativos do tipo Fab Lab, e (3) das ações de indivíduos intitulados \"makers\". Ambos estão fazendo emergir um novo sistema, o chamado Ecossistema Maker.
The central object of this research is the term \"Maker Innovation\", a synthesis of \"maker\" strategies, presented in a readable, replicable and contextualized manner within a process of Innovation by Design. This concept was achieved through qualitative study of open practices from: (1) the \"Open Design\" and re¬lated concepts, (2) collaborative environments like Fab Lab and (3) the actions of individuals entitled \"makers\". Both are bringing out a new system, called Ecosystem Maker.
4

Tremblay, Nathalie. "Living labs as innovation intermediaries : symphonic orchestration of innovation dynamics in open innovation ecosystems." Electronic Thesis or Diss., Strasbourg, 2023. http://www.theses.fr/2023STRAB012.

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La thèse revisite les dynamiques de l'innovation à travers le prisme des living labs. Ce travail présente une représentation de la manière dont les intermédiaires orchestrent efficacement les écosystèmes d'innovation par le biais d'initiatives d'innovations ouvertes-distribuées. L'étude identifie les mécanismes clés et les meilleures pratiques de gouvernance dans le secteur des innovations technologiques médicales. Pour cela, le travail prend une perspective évolutionniste et envisage le rôle joué par les communautés au sein de l’écosystème d’innovation, notamment le biais de la théorie des Communs
The dissertation defines the dynamics of innovation through the lens of living labs, theorising on how these intermediaries, can effectively orchestrate innovation ecosystems through open innovation initiatives. The study offers numerous theoretical contributions on innovation for managerial practice and public policies, identifying key mechanisms and best governance practices, ensuring that sociotechnological and ecosystem perspectives are included in innovation strategies that create shared value outcomes. The thesis provides an opportunity to consider the role played by communities within the innovation ecosystem through the theory of the Commons (Ostrom, 1990), in an evolutionary perspective
5

Paiva, Godinho Raquel. "Open Device Labs - a global community movement to democratise testing and evaluation on real devices." Doctoral thesis, Universitat de Vic - Universitat Central de Catalunya, 2020. http://hdl.handle.net/10803/668637.

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Han sorgit xarxes de laboratoris oberts a tothom i caracteritzats per la seva activitat local i connectivitat global per atendre diferents demandes del usuaris. Open Device Labs (ODLs) és un moviment comunitari de base que té per objectiu democratitzar les proves i l'avaluació en dispositius digitals reals, que fins ara havia estat inexplorat. Els ODLs són un espai normalment equipat amb dispositius mòbils (per exemple: telèfons intel·ligents i tauletes tàctils) connectats a Internet amb la finalitat que els usuaris puguin fer proves de d’aplicacions web, jocs, i mòbils. L’objectiu d’aquesta tesi ha estat investigar l'ecosistema dels Open Device Labs per tal de presentar-ne les seves principals característiques, pràctiques, beneficis i reptes. La recerca s’ha realitzat mitjançant una investigació qualitativa d’estudi de casos i s’ha dividit en quatre unitats centrals. La secció I va explorar l’ecosistema d’ODLs, el local i el global, a través del nucli de la comunitat des de la perspectiva dels amfitrions i centrat en els ODL professionals. La secció II va investigar la perspectiva que tenen els usuaris convidats dels ODLs sobre el servei. La secció III va explorar el potencial de la comunitat per beneficiar-se de la indústria del joc. Per últim, la secció IV presenta un marc per establir ODL acadèmics.
Open labs networks characterised by local activity and global connectivity have emerged to address different demands. Open Device Labs (ODLs) is a grass-roots community movement, which aims to democratise testing and evaluation on real devices, thus far unexplored academically. An ODL is a space typically equipped with mobile devices (e.g. smartphones and tablets) connected to the Internet for Web and app testing purposes. This PhD thesis investigates the ODL ecosystem to identify its main characteristics, practices, benefits, and challenges. We conducted a qualitative inductive case study through four main units. Section I explores the ODL ecosystem, both local and global, through the community core from the hosts’ perspective and focuses on professional ODLs. Section II discusses the investigation of the ODL’s guest users’ perspective of the service. Section III explores the potential of the community to benefit the gaming industry. Section IV examines a single case of an academic ODL. Lastly, the final section presents a framework for establishing academic ODLs.
6

Santos, Allan Souza. "Dados governamentais abertos, mobilidade urbana e laboratórios vivos (Living labs): um estudo a partir da experiência do MobiLab no município de São Paulo." Universidade de São Paulo, 2017. http://www.teses.usp.br/teses/disponiveis/100/100138/tde-11102017-183141/.

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A pressão pela publicação e divulgação de mais dados governamentais produzidos pelos governos tem contribuído não só para aprimoramento dos níveis de transparência pública, mas também como forma de potencializar o desenvolvimento de serviços públicos digitais por meio de novas plataformas TIC. Em São Paulo, a criação de um ambiente de inovação, pautado pela criação de ferramentas e soluções digitais do tipo, desenvolvidas através da coparticipação entre o governo municipal e demais partes interessadas, se baseou essencialmente na utilização de dados abertos de transporte e mobilidade urbana. Dessa forma, nasceu o MobiLab, um laboratório vivo (living lab), pautado pela copartipação de setor público, empresas, universidades e demais potenciais usuários que juntos, passaram a direcionar seus esforços para a criação de soluções digitais voltadas para solucionar problemas de locomoção presentes hoje no cotidiano do município de São Paulo. Esta dissertação, portanto, buscou lançar um olhar para o MobiLab, de modo a poder realizar um estudo de caso que contemplasse as questões envolvendo a utilização de dados governamentais abertos, a partir da utilização de um living lab, o MobiLab, como catalisador de diferentes oportunidades e desafios que governos, empresas e a sociedade podem enfrentar engajadas no uso de novas tecnologias criadas a partir do uso de dados abertos. Como forma de melhor analisar as atividades realizadas no MobiLab, a pesquisa realizou um estudo de caso junto à startups participantes de um programa de residência, onde foi possível acompanhar parte do processo de criação de aplicativos digitais e a percepção dos usuários do laboratório a respeito da utilização de um ambiente de inovação tecnológica, caracterizado pelo uso de dados abertos e a forma como ele incide no desenvolvimento das soluções propostas
The pressure for the publication and dissemination of more government-produced government data has contributed not only to improved levels of public transparency, but also as a way of leveraging the development of digital public services through new ICT platforms. In São Paulo, the creation of an innovative environment, based on the creation of digital tools and solutions of the kind, developed through the co-participation between the municipal government and other interested parties, based on the use of open transport data and urban mobility. MobiLab was born, a living lab, based on the co-participation of the public sector, companies, universities and other potential users, who together began to direct their efforts towards the creation of digital solutions aimed at solving problems of Urban mobility present today in the daily life of the municipality of São Paulo. This dissertation, therefore, sought to look at MobiLab, as a case study that contemplated the issues involving the use of open government data, focused on urban mobility, and guided by the use of a living lab, the MobiLab, as a catalyst for different opportunities and challenges that governments, startups and society may face while using new technologies created from the use of open government data. As a way to better analyze the activities developed at MobiLab, the research carried out a case study with startups participants of a residence program, where it was possible to follow part of the creation process of the applications and the perception of the users regarding the use of an environment of technological innovation, based on the use of open data and the way in which it focuses on the development of the proposed solutions
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Sénécal, Julia, and Ismaila A. Jallow. "Open Innovation Strategies : A new pivot for OEM and Start-up Coopetition." Thesis, Umeå universitet, Företagsekonomi, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-160740.

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“[A]s much as any other product, the car has shaped not only the global economy but how billions of people live”1,whilethe digital area is nowshapingthe car.Coopetition, a strategy presenting firms with the opportunity to collaborate and compete at the same time,is becoming a prevalent phenomenonamong large OEMs and start-ups in the automotive industry.Respectively, considering that coopetition, in the context of open innovation and new technologies, has been identified as a successful strategy, this thesis will therefore analyse the relationship between OEMs and external start-ups in the context of coopetition and corporate open innovation strategies. Several typesof corporate incubators, accelerators and corporate innovation labs emerged within the last years, howeveran integration of all three of these has not yet been widely explored. Accordingly, while these open innovation streamsare used by large corporationsto get access to the start-upecosystemand increase their innovation capabilities, the relationship between OEMs and external start-ups will further lead to CIIAs (a combined approach of corporate incubators, corporate innovation labs and corporate accelerators),demonstratedin the context of coopetition. This exploratory study therebycontributes to the relationship between external start-ups and OEMsthrough aCIIA approach,answering the two following researchquestions;•What are the main drivers of the OEM and external start-uprelationship?•How do OEMs and external start-ups coopete in the context of corporate open innovation strategies?To dulyanswer these research questions, we choseaqualitative researchmethodcombined with an interpretivist and inductiveapproachas well asempirical findings generated from 6semi-structured interviews. We furthercontributed tothe illustrationof the key aspects of CIIAsas well asthe motives, management and implications behind the relationshipsbetween OEMs and external start-upsbyaconceptual framework. Our analysishence showsthe significanceof the access to complementary resources, the co-creation and co-development of value as well as the systematic implementation of a proof of conceptin the light of thesecoopetitive relationshipsbetween CIIAs and external start-ups.However, consideringthat thisresearch has been based on the German automotive industry only, it will require further research in other contexts, sectors or countries. To conclude, thisthesis contributes tothe management literature ofcoopetition, corporate innovation and entrepreneurship. We proposeda finalframeworkto highlightthekey motives, the management and the implications behind thecoopetitive relationshipsbetween OEMsand external start-upsthrough the CIIA platform.This willexpectedly help managers and entrepreneurs develop efficientmanagement techniques as well asfurther recognize and understand the influential dynamicspresent in these relationships
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Mateus, Américo da Conceição. "Product/Brand co-creation methodology crossing marketing, design thinking, creativity and management: ideas(r)evolution." Doctoral thesis, Universidade de Évora, 2016. http://hdl.handle.net/10174/19162.

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This thesis introduce a new innovation methodology called IDEAS(R)EVOLUTION that was developed according to an on-going experimental research project started in 2007. This new approach to innovation has initial based on Design thinking for innovation theory and practice. The concept of design thinking for innovation has received much attention in recent years. This innovation approach has climbed from the design and designers knowledge field towards other knowledge areas, mainly business management and marketing. Human centered approach, radical collaboration, creativity and breakthrough thinking are the main founding principles of Design thinking that were adapted by those knowledge areas due to their assertively and fitness to the business context and market complexity evolution. Also Open innovation, User-centered innovation and later on Living Labs models emerge as answers to the market and consumers pressure and desire for new products, new services or new business models. Innovation became the principal business management focus and strategic orientation. All this changes had an impact also in the marketing theory. It is possible now to have better strategies, communications plans and continuous dialogue systems with the target audience, incorporating their insights and promoting them to the main dissemination ambassadors of our innovations in the market. Drawing upon data from five case studies, the empirical findings in this dissertation suggest that companies need to shift from Design thinking for innovation approach to an holistic, multidimensional and integrated innovation system. The innovation context it is complex, companies need deeper systems then the success formulas that “commercial “Design thinking for innovation “preaches”. They need to learn how to change their organization culture, how to empower their workforce and collaborators, how to incorporate external stakeholders in their innovation processes, hoe to measure and create key performance indicators throughout the innovation process to give them better decision making data, how to integrate meaning and purpose in their innovation philosophy. Finally they need to understand that the strategic innovation effort it is not a “one shot” story it is about creating a continuous flow of interaction and dialogue with their clients within a “value creation chain“ mindset; RESUMO: Metodologia de co-criação de um produto/marca cruzando Marketing, Design Thinking, Criativity and Management - IDEAS(R)EVOLUTION. Esta dissertação apresenta uma nova metodologia de inovação chamada IDEAS(R)EVOLUTION, que foi desenvolvida segundo um projecto de investigação experimental contínuo que teve o seu início em 2007. Esta nova abordagem baseou-se, inicialmente, na teoria e na práctica do Design thinking para a inovação. Actualmente o conceito do Design Thinking para a inovação “saiu” do dominio da area de conhecimento do Design e dos Designers, tendo despertado muito interesse noutras áreas como a Gestão e o Marketing. Uma abordagem centrada na Pessoa, a colaboração radical, a criatividade e o pensamento disruptivo são principios fundadores do movimento do Design thinking que têm sido adaptados por essas novas áreas de conhecimento devido assertividade e adaptabilidade ao contexto dos negócios e à evolução e complexidade do Mercado. Também os modelos de Inovação Aberta, a inovação centrada no utilizador e mais tarde os Living Labs, emergem como possiveis soluções para o Mercado e para a pressão e desejo dos consumidores para novos productos, serviços ou modelos de negócio. A inovação passou a ser o principal foco e orientação estratégica na Gestão. Todas estas mudanças também tiveram impacto na teoria do Marketing. Hoje é possivel criar melhores estratégias, planos de comunicação e sistemas continuos de diálogo com o público alvo, incorporando os seus insights e promovendo os consumidores como embaixadores na disseminação da inovação das empresas no Mercado Os resultados empiricos desta tese, construídos com a informação obtida nos cinco casos realizados, sugerem que as empresas precisam de se re-orientar do paradigma do Design thinking para a inovação, para um sistema de inovação mais holistico, multidimensional e integrado. O contexto da Inovação é complexo, por isso as empresas precisam de sistemas mais profundos e não apenas de “fórmulas comerciais” como o Design thinking para a inovação advoga. As Empresas precisam de aprender como mudar a sua cultura organizacional, como capacitar sua força de trabalho e colaboradores, como incorporar os públicos externos no processo de inovação, como medir o processo de inovação criando indicadores chave de performance e obter dados para um tomada de decisão mais informada, como integrar significado e propósito na sua filosofia de inovação. Por fim, precisam de perceber que uma estratégia de inovação não passa por ter “sucesso uma vez”, mas sim por criar um fluxo contínuo de interação e diálogo com os seus clientes com uma mentalidade de “cadeia de criação de valor”
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Fonseca, Cecília Bezerra da Silva, Camila Elena Muza Cruz, and Rodrigo Bezerra da Silva. "Estruturação de living labs e sua governança por temas da cidade inteligente: o caso da linha verde em Curitiba." reponame:Repositório Institucional do FGV, 2016. http://hdl.handle.net/10438/17419.

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The purpose of this work is to elaborate a proposal of Living Labs organization on the region known as 'Linha Verde' urban zone of road BR 116, that crosses Curitiba and became the sixth structuring axis of the city. As an old road, it provides low added-value services and has social demands pending of solution, as the same time as it is passing by an urban requalification process aiming the change in this scenario. It is believed that, by transforming this route in a sustainable innovation center, the attractiveness of this zone will be increased, bringing in companies and services intensive in technology and of higher complexity. To accomplish the change in 'Linha Verde' in aaccordance with the Reference Term presented by the City Hall of Curitiba to Fundação Getulio Vargas, a study on Living Labs was conducted – real life experimentation labs that target the creation of innovative products and services through public-private-personal partnerships. The research methods applied in the formulation of the present thesis proposal were national and international experience collection through literature revision, semi-structured interviews with key players of 'Linha Verde' project material analysis and field visits. The Strategic Situational Planning was used to realize scenario diagnosis and proposals to the solution of the case. The proposal developed in the work consists of mapping potential Living Labs for 'Linha Verde' detaling important aspects apprehended in bibliographical review (coordination, participation and network formation and implementation method). It was made the option of suggesting them according to the six interest areas of a smart city (smart environment, smart mobility, smart living, smart people, smart economy and smart governance) given the fact that Curitiba already adopts this concept. In addition to that, the creation of a structure of governance and innovative ideas capitation was suggested, based on researched international experiences. Possible externalities that the Living Labs may bring to the city are also presented. Lastly, the steps of the proposal implemetation are presented. The initiatives presented here can contribute to make the 'Linha Verde' a social and economic development area serving as a laboratory of innovative urban solutions.
O objetivo desse trabalho consiste na elaboração de proposta para estruturação de Living Labs na região da Linha Verde, trecho urbano da BR 116, que cruza Curitiba, e que se tornou o sexto eixo estruturante da cidade. Por ser antiga rodovia, apresenta serviços de baixo valor agregado, com demandas sociais a serem resolvidas, e passa por um processo de requalificação urbana, visando mudar esse cenário. Acredita-se que transformar essa via num centro de inovações urbanas sustentáveis aumentará a atratividade da região, trazendo empresas e serviços intensivos em tecnologia e de maior complexidade. Para realizar essa mudança na Linha Verde, atendendo ao Termo de Referência apresentado à Fundação Getulio Vargas pela Prefeitura de Curitiba, realizou-se estudo de Living Labs – laboratórios de experimentação na vida real, cujo objetivo é criar produtos e serviços inovadores por meio de parcerias público-privada-pessoais. Os métodos de pesquisa utilizados para formulação da proposta dessa dissertação foram: revisão de literatura com levantamento de experiências nacionais e internacionais, entrevistas semiestruturadas com atores do projeto da Linha Verde, análise de materiais e visitas de campo. Utilizou-se o Planejamento Estratégico Situacional para diagnóstico do cenário e proposição das soluções para o caso. A proposta elaborada no trabalho consiste no mapeamento de potenciais Living Labs para a Linha Verde, com detalhamento de aspectos importantes identificados na revisão bibliográfica (coordenação, participação, formação da rede e método de implementação). Optou-se por sugeri-los de acordo com as seis áreas de interesse de uma cidade inteligente (smart environment, smart mobility, smart living, smart people, smart economy e smart governance), visto que Curitiba já adota esse conceito. Adicionalmente, sugeriu-se a criação de estrutura de governança e de captação de ideias inovadoras, baseadas em experiências internacionais pesquisadas. Apresentam-se também possíveis externalidades que os Living Labs podem trazer à cidade. Por fim, apresentam-se as etapas de implantação da proposta. As iniciativas aqui propostas podem contribuir para tornar a Linha Verde uma área de desenvolvimento econômico e social, servindo como um laboratório de soluções urbanas inovadoras.
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Cruz, Sanchez Fabio Alberto. "Methodological proposition to evaluate polymer recycling in open-source additive manufacturing contexts." Thesis, Université de Lorraine, 2016. http://www.theses.fr/2016LORR0291/document.

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En ce début de XXIème siècle, l’époque où seul la technique transformait la société toute entière est clairement révolue. Certes, les révolutions techniques sont là : interconnexion des personnes, explosion de l’internet, apparition de nouvelles formes d’énergies, de nouveaux procédés de production, de nouveaux matériaux etc... mais l’homme n'est plus un simple consommateur sensible au prix et aux incitations de l’état. Il souhaite être acteur et participer à l’utilisation des nouvelles technologies mais de manière raisonnée et en intégrant les grands enjeux sociétaux tels que le partage et la sauvegarde des ressources et matières premières. Cette thèse s’inscrit dans cette problématique globale: en effet tout au long du manuscrit nous réfléchissons à comment une révolution technique tel que la fabrication additive (FA) est prise en main par des citoyens dans des lieux de partage de la connaissance que sont les FabLabs, et plus précisément, s’il est possible et de quelle manière introduire de la durabilité dans le contexte open-source. Nous voyons dans un premier temps, comment la problématique sociétale forte du recyclage des matériaux se développe dans le contexte de la FA en générale et plus particulièrement nous proposons une revue bibliographique systématique sur le sujet. Dans un second temps nous recentrons notre recherche sur la FA dans le contexte open source et nous montrons que les machines dans ce contexte, bien qu’à des coûts très faibles par rapport aux machines professionnelles, ont cependant des niveaux de reproductibilités suffisant pour que l’on les utilise dans le cadre d’une recherche poussée. Dans le troisième chapitre nous proposons une méthodologie générale fixant l’étude du recyclage de polymères thermoplastiques dans le contexte open-source. Dans le quatrième chapitre nous utilisons la méthodologie vu précédemment pour le recyclage de l’acide polylactique (PLA). Nous montrons le niveau de dégradation de la matière à travers l’ensemble du procédé et concluons qu’il est possible de recycler le PLA pour l’impression 3D mais dans une moindre mesure que pour les procédés d’injection. Enfin nous concluons et proposons en perspective d’étudier le recyclage en circuit court d’autres polymères thermoplastique
Since the beginning of the XXI century, we can recognize that several technical (r)evolutions have changed the way we conceived our world. New realities have appeared thanks to the information and communication technologies (e.g. Internet), peer-to-peer dynamics (e.g. open software/hardware, collaborative economy), new means of production (fablabs, hackerspaces), among others. One of the impacts of this technical ecosystem is the individual's empowerment that changes the relationship between consumer and producer. For instance, we observe an evolution of role passing from a passive consumer towards an active prosumer, where this latter considers not only economic aspects, but also social and environmental issues.This thesis is integrated in this global issue; indeed, throughout the manuscript we analyze about the impact of open-source (OS) Additive Manufacturing (AM) (also as known as open-source 3D printing or just 3D printing) in the light of the sustainability issues. The democratization of OS AM and the creation of spaces for co-creation (e.g. FabLabs) proved the interest for changes in the established roles. Therefore, we are interested in how this OS technology could develop sustainable waste management options through a polymer recycling process. In a first phase, we present the concept of additive manufacturing (AM) and its importance on sustainability issues. A systematic literature review related to the material recycling advances in the commercial and open-source (OS) AM is developed with a focus on thermoplastic polymer recycling.In a second phase, our aim is to validate open-source AM systems as a reliable manufacturing tool. We develop and test an experimental protocol in order to evaluate the dimensional performance using as case study a representative OS 3D printer: called FoldaRap. It was found that the International Standard Tolerance Grade of this machine is situated between IT14 and IT16. We conclude that the dimensional performance of this case study is comparable to the commercial AM systems, taking into account the important different in terms of machine cost. In a third phase, we center our attention on the recycling process and we propose a systematic methodology to evaluate the feasibility of the use of recycled thermoplastic polymer in OS 3D printers. A case study is developed with the evaluation of the recycling process using polylactid acid (PLA). The results allow us to conclude that the use of recycled PLA is technically feasible. Nevertheless, the degradation of the material is more important than in other traditional manufacturing systems (e.g. injection). Finally, we concludes and propose as perspectives, the study of a distributed recycling process for other type of polymers
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Books on the topic "Open labs":

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Mérindol, Valérie, and David W. Versailles. Open Labs and Innovation Management. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003125587.

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Ribarič, Marjan. Conservation laws and open questions of classical electrodynamics. Singapore: World Scientific, 1990.

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Sathanapally, Aruna. Beyond disagreement: Open remedies in human rights adjudication. Oxford: Oxford University Press, 2013.

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Maxwell, Dionne. To open or not to open: The issue of public access in child protection hearings. Reno, NV: National Council of Juvenile and Family Court Judges, Permanency Planning for Children Dept., 2004.

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Maxwell, Dionne. To open or not to open: The issue of public access in child protection hearings. Reno, NV: National Council of Juvenile and Family Court Judges, Permanency Planning for Children Dept., 2004.

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Maxwell, Dionne. To open or not to open: The issue of public access in child protection hearings. Reno, NV: National Council of Juvenile and Family Court Judges, Permanency Planning for Children Dept., 2004.

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Maxwell, Dionne. To open or not to open: The issue of public access in child protection hearings. Reno, NV: National Council of Juvenile and Family Court Judges, Permanency Planning for Children Dept., 2004.

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Fenster, Jay. Open Road's best of Las Vegas. Cold Spring Harbor, NY: Open Road Publishing, 2007.

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Williams, Jason. Expanding choice: Moving to Linux and Open Source with Novell Open Enterprise server. Indianapolis, Ind: Pearson Education, 2005.

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Delhi, India) Open House Session on Globalised Economy Calls For Labour Reform (2012 New. Open house session on globalised economy calls for labour reform. New Delhi: Associated Chambers of Commerce and Industry of India & Dayal Legal Associates, 2012.

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Book chapters on the topic "Open labs":

1

Le Chaffotec, Alexandra, and Valérie Mérindol. "Living labs." In Open Labs and Innovation Management, 83–105. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003125587-7.

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Aubouin, Nicolas. "Art, entrepreneurs, and open labs." In Open Labs and Innovation Management, 65–82. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003125587-6.

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Omer, Mohammed, Melina Kaiser, Manuel Moritz, Tobias Redlich, and Daniele Ingrassia. "Enabling Technology Diffusion with the Open Lab Starter Kit." In Global collaboration, local production, 257–64. Wiesbaden: Springer Fachmedien Wiesbaden, 2024. http://dx.doi.org/10.1007/978-3-658-44114-2_19.

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AbstractIn recent years, fabrication laboratories or Fab Labs have challenged the dominant position of conventional large-scale manufacturing by offering low-threshold opportunities to engage with production. Fab Labs are therefore catalysts to the emancipation of manufacturing from primarily industrial to personal and communal contexts. However, various bureaucratic and resource-related challenges make the set-up of Fab Labs difficult and hinder an equitable spatial distribution of Fab Labs; there exists, for example, a great difference in the number of labs between industrialized and developing countries. This is contrary to the Fab Lab idea as it hurts the egalitarian access to digital fabrication machines. In response to this, efforts such as the Open Lab Starter Kit (OLSK) make use of Open-Source Hardware (OSH) and specifically Open-Source Machine Tools (OSMT) to facilitate the establishing of labs. The costs and thresholds of these so-called open labs are significantly lower compared to conventional Fab Labs because the machine tools used in them can be manufactured and replicated locally, using local resources. This chapter presents the OLSK approach to open-sourcing the design and documentation of machine tools, and furthermore examines its scope as an enabling technology for a more inclusive and equitable fab city concept.
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Versailles, David W. "The business model of open labs." In Open Labs and Innovation Management, 39–62. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003125587-4.

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Damiani, Ernesto, Claudio Agostino Ardagna, and Nabil El Ioini. "The role of virtual testing labs." In Open Source Systems Security Certification, 1–14. Boston, MA: Springer US, 2008. http://dx.doi.org/10.1007/978-0-387-77324-7_8.

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Sirois, Luc, and Karl-Emanuel Dionne. "From spatiality to temporality." In Open Labs and Innovation Management, 106–25. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003125587-8.

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Sirois, Luc, Octave Niamié, and Patrick Cohendet. "Communitech in Waterloo, Canada." In Open Labs and Innovation Management, 126–45. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003125587-9.

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Capdevila, Ignasi. "Building communities in rural coworking spaces." In Open Labs and Innovation Management, 146–68. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003125587-10.

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Mérindol, Valérie, and David W. Versailles. "Open Labs in the transition from Triple to Quadruple Helix." In Open Labs and Innovation Management, 209–32. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003125587-14.

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Irrmann, Olivier. "Cracking the nut from the inside." In Open Labs and Innovation Management, 171–86. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003125587-12.

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Conference papers on the topic "Open labs":

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Adams, Mark A. "Managing open access labs." In the 32nd annual ACM SIGUCCS conference. New York, New York, USA: ACM Press, 2004. http://dx.doi.org/10.1145/1027802.1027845.

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Sandoval-Almazan, Rodrigo, and David Valle-Cruz. "Open Innovation, Living Labs and Public Officials." In ICEGOV '17: 10th International Conference on Theory and Practice of Electronic Governance. New York, NY, USA: ACM, 2017. http://dx.doi.org/10.1145/3047273.3047308.

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Santoro, Roberto, and Marco Conte. "Living Labs in Open Innovation Functional Regions." In 2009 IEEE International Technology Management Conference (ICE). IEEE, 2009. http://dx.doi.org/10.1109/itmc.2009.7461431.

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Viseur, Ir Robert. "A Sector-Selection Methodology for Living Labs Implementation." In OpenSym '16: The International Symposium on Open Collaboration. New York, NY, USA: ACM, 2016. http://dx.doi.org/10.1145/2957792.2957795.

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Masek, Pavel, Martin Stusek, Jan Krejci, Krystof Zeman, Jiri Pokorny, and Marek Kudlacek. "Unleashing Full Potential of Ansible Framework: University Labs Administration." In 2018 22nd Conference of Open Innovations Association (FRUCT). IEEE, 2018. http://dx.doi.org/10.23919/fruct.2018.8468270.

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Butakov, Sergey. "Open source based virtual servers for IT labs." In 2010 2nd IEEE International Conference on Information Management and Engineering. IEEE, 2010. http://dx.doi.org/10.1109/icime.2010.5478138.

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Hagiwara, Masato. "Octanove Labs’ Japanese-Chinese Open Domain Translation System." In Proceedings of the 17th International Conference on Spoken Language Translation. Stroudsburg, PA, USA: Association for Computational Linguistics, 2020. http://dx.doi.org/10.18653/v1/2020.iwslt-1.20.

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Halimi, Wissam, Christophe Salzmann, and Denis Gillet. "Access to Massive Open Online Labs through a MOOC." In L@S 2017: Fourth (2017) ACM Conference on Learning @ Scale. New York, NY, USA: ACM, 2017. http://dx.doi.org/10.1145/3051457.3054017.

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Kumar, Dhanush, Krishnashree Achuthan, Bipin Nair, and Shyam Diwakar. "Online bio-robotics labs: Open hardware models and architecture." In 2016 International Conference on Robotics and Automation for Humanitarian Applications (RAHA). IEEE, 2016. http://dx.doi.org/10.1109/raha.2016.7931877.

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Sayil, Selahattin, Gleb Tcheslavski, Julia Yoo, and Yuyao Wang. "Online Electrical Engineering Labs with Collaborative Open-Ended Assignments." In 2023 IEEE Frontiers in Education Conference (FIE). IEEE, 2023. http://dx.doi.org/10.1109/fie58773.2023.10343432.

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Reports on the topic "Open labs":

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Scott Pownall, Scott Pownall. Open Tools for Engineering Yeast in Community Labs and Beyond. Experiment, May 2024. http://dx.doi.org/10.18258/69382.

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Kourkoutas, Konstantinos, Begonya Saez, Veronica Junjan, Anders Riel Müller, Wiro Kuipers, Fabio Hernández Palacio, Kristiane Marie Fjær Lindland, Tina-Simone Neset, and Sara Malmgren. ECIU Position Paper on Living Labs and Experimentation Spaces: Recommendations and insights about the potential of Living Labs as innovation and learning platforms in the ECIU University. University of Stavanger, April 2024. http://dx.doi.org/10.31265/usps.276.

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To accelerate transformations towards just and sustainable future cities across Europe, local and regional projects need to scale up and share sustainability pathways and planning efforts. In this context, Living Labs, and innovation and experimentation spaces in general, have demonstrated great potential in serving as platforms for connecting universities with societal stakeholder, facilitating transdisciplinary collaboration in the innovation process but also as tools for cross-case learning and upscaling innovative solutions. At the same time there is an ever increasing emergence and diversification of these spaces, even within ECIU, that can often create a certain confusion and at the same time reluctance to engage and make use of them or explore their full potential. The ECIU-UTC seed project’s objective was to expand existing research and innovation initiatives of the ECIU by linking established living labs and citizen science projects run by partners and their regional ecosystems. This resulted in an initial Roadmap for the distributed network of a “Living Lab and experimentation and innovation spaces” within ECIU, an effort that will continue in the ULALABS project during the next three years where we will open up the process to the extended ECIU ecosystem. The SMART-ER Conference in Barcelona gave us an initial opportunity to share and reflect the Seed project results together with the broader community but also the objectives and scope of the new project. We envision that the ULALABS project will produce tools, methodologies and experiences that will help the community learn and understand how to make use of these innovative infrastructures to enhance their activity and its impact. At the same time aid with the effort towards the realization of the ECIU 2030 Vision1 by articulating a platform and mechanisms for integrating multi-disciplinary challenge-based research, innovation and learnings; and a distributed network of ECIU physical and virtual collaboration spaces operational and interconnected between the ECIU member universities. In this context, the ECIU consortium in its vision to establish an open, inclusive and collaborative ecosystem should seek to make the existence of the labs visible and promote their active use in teaching, research and innovation activities in future activities.
3

Balyk, Nadiia, Yaroslav Vasylenko, Vasyl Oleksiuk, and Galina Shmyger. Designing of Virtual Cloud Labs for the Learning Cisco CyberSecurity Operations Course. [б. в.], June 2019. http://dx.doi.org/10.31812/123456789/3177.

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The article is devoted to the study of the problem of the cybersecurity basics teaching. The training of the ICT-specialties students using the course “CCNA Cyber Operations” of the network academy Cisco is considered. At present, many universities have similar academies, while others can open them. On the basis of free software platforms Apache CloudStack and EVE-NG Community authors designed and implemented a virtual cloud laboratory. It operates according to the “IaaS” model. Thanks to the technology of embedded virtualization, the work of many virtual machines, storing of their status, traffic analysis and visualization of network topologies are maintained. The article describes the experience of teaching students of the specialty “Pedagogical education. ICT” in the course “CCNA Cyber Operations” with the use of virtual cloud laboratories. The authors have been conducted a survey of students who studied at the course. Its purpose was to determine how much they satisfied were with the course. Statistical processing of the results was performed on the basis of the Rasch model using the software MiniSteps.
4

Acevedo, Sebastián, and Nicolás Dassen. Innovation for Better Management: The Contribution of Public Innovation Labs. Inter-American Development Bank, September 2016. http://dx.doi.org/10.18235/0010661.

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The technological, economic, and social changes of recent years have required governments to adapt to new challenges and growing demands from civil society. In many countries, and at different levels of government, this has led to the creation of innovation labs that aim to promote policy innovation in diverse ways. This paper analyzes the roles of innovation labs in Latin America, examines their challenges, and compares them to best practices and characteristics that current literature associates with higher levels of innovation in the public sector and in other organizations. Based on a survey of lab directors and the undertaking of two case studies, this paper describes the scope of innovation labs in Latin America and discusses the challenges they face to (i) work on central issues, (ii) achieve the adoption and scale up of their innovations, and (iii) ensure their sustainability. There are four key factors that determine the success of innovation labs in overcoming these challenges: two of these are of a political and institutional nature, namely leadership support and policy networks, while the other two relate to lab methodologies, namely the technical adaptation of their innovations and the building of a shared meaning. Additionally, two major differences have been identified between the innovation labs discussed herein and those of other regions, as described by the existing literature: a greater focus on issues of open government and less rigorous testing of their innovations, such as randomized experimentation and impact evaluation. Lastly, this study provides the relevant conclusions and recommendations on how to establish innovation labs as effective channels to manage innovation in government, along with its in-herent risks, and modernize public administration.
5

Heston, Roxanne. Mapping U.S. Multinationals’ Global AI R&D Activity. Center for Security and Emerging Technology, December 2020. http://dx.doi.org/10.51593/20190008.

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Many factors influence where U.S. tech multinational corporations decide to conduct their global artificial intelligence research and development (R&D). Company AI labs are spread all over the world, especially in North America, Europe and Asia. But in contrast to AI labs, most company AI staff remain concentrated in the United States. Roxanne Heston and Remco Zwetsloot explain where these companies conduct AI R&D, why they select particular locations, and how they establish their presence there. The report is accompanied by a new open-source dataset of more than 60 AI R&D labs run by these companies worldwide.
6

Seus, Sarah, and Maria Stadler. Evaluating a CIty Lab Process in Mannheim's distric Neckarstadt-West: Three main challenges for the evaluation. Fteval - Austrian Platform for Research and Technology Policy Evaluation, April 2022. http://dx.doi.org/10.22163/fteval.2022.550.

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During the last few years, city labs have emerged as promising formats to address transformative change. The aim of these formats often is to create collaborative spaces in which different stakeholders can jointly experiment with novel solutions for certain problems. While city labs start to establish transdisciplinary research settings, evaluating the effects of a city lab still brings about several chal- lenges. In this contribution, we reflect on three main challenges that emerged in the course of evaluating a city lab in Mannheim’s district Neckarstadt-West. The city lab was conducted as part of the research project SONNET (Social Innovation in Energy Transitions) and aimed to encourage social innovation in energy and thereby enable local energy transition. In the context of evaluating the city lab, we identified three main challenges that were related to a) evaluating an ongoing and open process, b) external shocks (especially in the context of the COVID-19 pandemic) and c) evaluating new forms of innovation under the concept of ‘social innovation’. The main achievement of this evaluation was to trace the process of a city lab and identify changes in objectives as well as the engagement of different stakeholder groups. However, an evaluation of the city lab’s outcomes remains challenging due to the openness of the process. This suggests rethinking linear evaluation models in favour of co-designing evaluation criteria in the course of the city lab process.
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Gerd Moe-Behrens, Gerd Moe-Behrens. Leukippos - an open synthetic biology lab in the cloud. Experiment, June 2013. http://dx.doi.org/10.18258/0696.

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Soroko, Nataliia V., Lorena A. Mykhailenko, Olena G. Rokoman, and Vladimir I. Zaselskiy. Educational electronic platforms for STEAM-oriented learning environment at general education school. [б. в.], July 2020. http://dx.doi.org/10.31812/123456789/3884.

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The article is devoted to the problem of the use of educational electronic platform for the organization of a STEAM-oriented environment of the general school. The purpose of the article is to analyze the use of educational electronic platforms for organizing the STEAM-oriented school learning environment and to identify the basic requirements for supporting the implementation and development of STEAM education in Ukraine. One of the main trends of education modernization is the STEAM education, which involves the integration between the natural sciences, the technological sciences, engineering, mathematics and art in the learning process of educational institutions, in particular, general school. The main components of electronic platform for education of the organization STEAM-oriented educational environment should be open e-learning and educational resources that include resources for students and resources for teachers; information and communication technologies that provide communication and collaboration among students; between teachers; between students and teachers; between specialists, employers, students, and teachers; information and communication technologies that promote the development of STEAM education and its implementation in the educational process of the school; online assessment and self-assessment of skills and competences in STEAM education and information and communication technologies fields; STEAM education labs that may include simulators, games, imitation models, etc.; STEAM-oriented educational environment profiles that reflect unconfirmed participants’ data, their contributions to projects and STEAM education, plans, ideas, personal forums, and more. Prospects for further research are the design of an educational electronic platform for the organization of the STEAM-oriented learning environment in accordance with the requirements specified in the paper.
9

Nicolás Méndez, Nicolás Méndez. Understanding yeast decision making processes in real time through open-source lab automation. Experiment, May 2023. http://dx.doi.org/10.18258/51046.

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Dawson, Stephanie. D11.6 REPO4EU Open Science Strategy. REPO4EU, April 2023. http://dx.doi.org/10.58647/repo4eu.202300d11.6.

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To ensure the widest possible dissemination of the results to the research community, pharmaceutical industry, patients and to the broader public, the REPO4EU project, in line with goals of the European Commission, is committed to an Open Science approach. Because Open Science can be interpreted widely this document lays out the strategy of the project with regard to Open Access publishing, alternative metrics, Intellectual Property and FAIR data. The Open Science Strategy forms the theoretical framework for the REPO4EU Open Science publishing portal that will develop into an open hub of research results and communication for the entire drug repurposing community.

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