1. Using a blockchain for automatic recognition and transfer of credits
The decline in first-time, first-year student enrollments is having a real financial impact on a number of institutions across the United States and focusing on transfer students (a pool of prospects twice as large) has become an important strategy for many. But credit articulation presents a real challenge for institutions bringing in students from community colleges. While setting standardized articulation requirements across the nation presents a high hurdle, blockchain-supported initiatives may hold great promise for university and city education systems looking to streamline educational mobility in their communities.
2. Blockchains for tracking intellectual property and rewarding use and re-use of that property
If researchers were able to publish openly and accurately assess the use of their resources, the access-prohibitive costs of academic book and journal publications could be circumvented, whether for research- or teaching-oriented outputs. Accurately tracking the sharing of knowledge without restrictions has transformative potential for open-education models.
3. Using verified sovereign identities for student identification within educational organizations
The data footprint of higher education institutions is enormous. With FERPA regulations as well as local and international requirements for the storage and distribution of Personally Identifiable Information (PII), maintaining this data in various institutional silos magnifies the risk associated with a data breach. Using sovereign identities to limit the proliferation of personal data promotes better data hygiene and data lifecycle management and could realize significant efficiency gains at the institutional level.
4. Using a blockchain as a lifelong learning passport
Educational institutions and private businesses partner with online course delivery giants to extend the reach of their educational services and priorities. Traditional educational routes are increasingly less normal and in this expanding world of providers, the need for verifiable credentials from a number of sources is growing. Producing a form of digitally “verifiable CVs” would limit credential fraud, and significantly reduce organizational workload in credential verification.
5. Using blockchains to permanently secure certificates
The open source solution Blockcerts already enables signed certificates to be posted to a blockchain and supports the verification of those certificates by third parties.
When an institution issues official transcripts, obtaining copies can be expensive and burdensome for graduates. But student-owned digital transcripts put the power of secure verification in the hands of learners, eliminating the need for lengthy and costly transcripts to further their professional or educational pursuits. An early mover, Central New Mexico Community College, debuted digital diplomas on the blockchain in December of 2017.
6. Using blockchains to verify multi-step accreditation
As different accreditors recognize different forms of credentials and a growing diversity of educational providers issue credentials, checking the ‘pedigree’ of a qualification can be laborious. Turning a certification verification process from a multi-stage research effort into a single-click process will automate many thousands of labor hours for organizations and institutions
In his book, “Experience on Demand,” Jeremy Bailenson, the founding director of Stanford University’s Virtual Human Interaction Lab, writes, “No medium, of course can fully capture the subjective experience of another person, but by richly evoking a real-seeming, first-person experience, virtual reality does seem to promise to offer new, empathy-enhancing qualities.” Bailenson contrasts experiencing virtual reality with reading news accounts and watching documentaries. Those latter activities, he writes, require “a lot of imaginative work,” whereas virtual reality can “convey the feeling” of, say, a refugee camp’s environment, and the “smallness of the living quarters, the size of the camp.”
Caldwell—who used Google Expeditions to deliver a virtual reality experience set in the Holocaust—says that when his students first put on the goggles, they viewed them as a novelty. But within a minute or two, the students became quiet, absorbed in what they were seeing; they realized the “reality of the horror of what was in front of them.” Questions ensued.
Ron Berger, the Chief Academic Officer of EL Education, points to another factor schools should consider. He thinks virtual reality can be a powerful way to introduce kids to situations that require empathy or adopting different perspectives. However, he thinks no one tool or experience will bring results unless it is “nested in a broader framework of a vision and goals and relationships.”
Berger says virtual reality experiences have to be accompanied by work beforehand and follow-up afterwards. Kids, he says, need to be reflective and think critically.
immersion experiences like virtual reality should be “embedded in positive” adult and peer relationships. He adds that ideally, there’s also a resulting action where kids do something productive with the information they’ve learned, to help their own growth and to help others. He mentions an example where students interviewed local immigrants and refugees, then wrote the stories they heard. They published the stories in a book, and the profits went to legal fees for local refugees.
saving virtual reality for “very special experiences,” keeping it “relatively short” and not getting students dizzy or disoriented. A report Bailenson co-authored for Common Sense Media highlights the research that has—and has not—explored the effects of virtual reality on children. It states that the “potentially negative outcomes of VR include impacts on children’s sensory systems and vision, aggression, and unhealthy amounts of escapism and distraction from the physical world.”
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The Brain Science Is In: Students’ Emotional Needs Matter
What the neuro-, cognitive, and behavioral research says about social-emotional learning
Teachers, like parents, have always understood that children’s learning and growth do not occur in a vacuum, but instead at the messy intersection of academic, social, and emotional development.
• Malleability: Genes are not destiny. Our developing brains are largely shaped by our environments and relationships—a process that continues into adulthood.
• Context: Family, relationships, and lived experiences shape the physiological structure of our brains over time. Healthy amounts of challenge and adversity promote growth, but toxic stress takes a toll on the connections between the hemispheres of our brain.
• Continuum: While we’ve become familiar with the exponential development of the brain for young children, it continues throughout life. The explosion of brain growth into adolescence and early adulthood, in particular, requires putting serious work into much more intentional approaches to supporting that development than is common today.
Basically, my response to ed tech is “It depends.” And one key consideration on which it depends is the reason given for supporting it.
ads in education periodicals, booths at conferences, and advocacy organizations are selling not only specific kinds of software but the whole idea that ed tech is de rigueur for any school that doesn’t want to risk being tagged as “twentieth century.”
Other people, particularly politicians, defend technology on the grounds that it will keep our students “competitive in the global economy.” This catch-all justification has been invoked to support other dubious policies, including highly prescriptive, one-size-fits-all national curriculum standards. It’s based on two premises: that decisions about children’s learning should be driven by economic considerations, and that people in other countries should be seen primarily as rivals to be defeated.
But the rationale that I find most disturbing—despite, or perhaps because of, the fact that it’s rarely made explicit—is the idea that technology will increase our efficiency…at teaching the same way that children have been taught for a very long time.
a deeper question: “What kinds of learning should be taking place in those schools?” If we favor an approach by which students actively construct meaning, an interactive process that involves a deep understanding of ideas and emerges from the interests and questions of the learners themselves, well, then we’d be open to the kinds of technology that truly support this kind of inquiry. Show me something that helps kids create, design, produce, construct—and I’m on board. Show me something that helps them make things collaboratively (rather than just on their own), and I’m even more interested—although it’s important to keep in mind that meaningful learning never requires technology, so even here we should object whenever we’re told that software (or a device with a screen) is essential.
more worrisome are the variants of ed tech that deal with grades and tests, making them even more destructive than they already are: putting grades online (thereby increasing their salience and their damaging effects), using computers to administer tests and score essays, and setting up “embedded” assessment that’s marketed as “competency-based.”
we shouldn’t confuse personalized learning with personal learning. The first involves adjusting the difficulty level of prefabricated skills-based exercises based on students’ test scores, and it requires the purchase of software. The second involves working with each student to create projects of intellectual discovery that reflect his or her unique needs and interests, and it requires the presence of a caring teacher who knows each child well.
a recent review found that studies of tech-based personalized instruction “show mixed results ranging from modest impacts to no impact” – despite the fact that it’s remarkably expensive. In fact, ed tech of various kinds has made headlines lately for reasons that can’t be welcome to its proponents. According to an article in Education Week, “a host of national and regional surveys suggest that teachers are far more likely to use tech to make their own jobs easier and to supplement traditional instructional strategies than to put students in control of their own learning.” Last fall, meanwhile, OECD reportednegative outcomes when students spent a lot of time using computers, while Stanford University’s Center for Research on Education Outcomes
Ed tech is increasingly making its way even into classrooms for young children. And the federal government is pushing this stuff unreservedly: Check out the U.S. Office of Education Technology’s 2016 plan recommending greater use of “embedded” assessment, which “includes ongoing gathering and sharing of data,” plus, in a development that seems inevitable in retrospect, a tech-based program to foster a “growth mindset” in children. There’s much more in that plan, too—virtually all of it, as blogger Emily Talmage points out, uncannily aligned with the wish list of the Digital Learning Council, a group consisting largely of conservative advocacy groups and foundations, and corporations with a financial interest in promoting ed tech.
Open Discussion: VR in Education | Тема: Виртуалната реалност в образованието
Where | Университет Пловдив https://goo.gl/maps/bLBYXkp5S1S2 and online ( виртуално) When | Кога: 3. май, 2018, 15 часа | May 3, 2018, 3PM local time (Bulgaria) Who | Кой: преподаватели и суденти | faculty аnd students How | Как: използвайте “обратна връзка” за споделяне на вашите идеи | use the following hashtag for backchanneling #BGtechEd
Виртуална реалност в учебния процес – теория и практика- 1-1, 1/2 час продължителност Virtual reality in teaching and learning – theory and hands-on
Уточняване на понятията относно различните видове реалност: виртуална реалност, video 360 ; разширена реалност; смесена реалност. VR/AR/MR in education.
Подход и усвояване на различните видове реалност в образованието. Връзка между трите вида реалност в образованието и конструктивизма като теория на преподаването. Връзка между трите вида реалност в образованието и игровия подход и игрофикацията на образованието. Оценяване на обучението базирано на различните видове реалности.
When a student is brilliant on the street corner but falling asleep in class, something is wrong with the schooling system Ако учащ се е страхотен на ъгъла на улицата, но се проваля или заспива в клас, тогава нещо е грешно с учебната система https://blog.stcloudstate.edu/ims/2018/04/17/education-teched-frenemies/
Дискусия относно методиката на приложение в учебния процес
2 min video from the entrance of your University is viewable through Google Cardboard and your laptops. Study the video and seek answers to the following questions:
******https://youtu.be/VmOpsrVhEQE ********
– what are the advantages of Video 360 to all other known-to-you media formats?
кои са предимствата на Видео 360 в сравнение с всички други медийни формати, които познавате?
– what would you do better in terms the video footage?
какво бихте заснимали, което да подобри видео материала за преподавателски и учебни цели (например: както друго място бихте избрали)
– how is / can be this medium advantageous to implementing core learning / teaching techniques
как този медиен формат може да се използва за да се подобрят съществуващите условия за успешно преподаване и обучение
По избор – разговор с Марк Гил от Щатския университет Сейнт Клауд и демонстрация на виртуална реалност в учебния процес – 10-15 мин
online learning is most effective when the perceived pedagogical distance between the instructor and students in the course is minimized with increased interaction; Interaction occurs through learner-instructor communication, learner-learner collaboration, and learner-content engagement. All three levels of interaction have important implications for effective online learning
Moore, M. (1972). Learner autonomy: The second dimension of independent learning.Convergence, 5, 76-88.
Moore, M. (1973). Toward a theory of independent learning and teaching. Journal of Higher Education, 44, 661-679.
Moore, M. (1993). Theory of transactional distance. In D. Keegan (Ed.), Theoretical principles of distance education (pp.22-38).New York: Routledge.
Moore, M. G. (1989). Editorial: Three types of interaction. The American Journal of Distance Education, 3 (2), 1-6.
Moore, M. G. (2007). The theory of transactional distance. In M. G. Moore (Ed.), Handbook of distance education (2nd ed.), (pp.89-105). Mahwah, NJ: Lawrence Erlbaum Associates.
Moore, M. G., (2013). Handbook of distance education (3rd ed.). New York: Routledge
Community of Inquiry (CoI)
The Community of Inquiry theoretical framework focuses on the degree of presence in the online learning environment. Presence is vital to student success in online courses. There are three types of presence that must be maintained: 1. Social presence to increase learners’ sense of community in the online environment, 2. Cognitive presence to enable learners to construct meaning from the online experience, and 3. Teaching presence to increase learner perception of the instructor’s ability to provide structure and direction in the online environment
Garrison, D. R., & Akyol, Z. (2013). The community of inquiry theoretical framework. In M. Moore, Handbook of Distance Education (3 ed.) (pp. 104-119). New York: Routledge.
Garrison, D. R., Anderson, T., & Archer, W. (2000). Critical inquiry in a text-based
environment: Computer conferencing in higher education. The Internet and Higher Education, 2(2/3), 87-105.
Garrison, D.R. and Arbaugh, J.B. (2007). Researching the Community of Inquiry framework:
Review, issues, and future directions. The Internet and Higher Education 10(3): 157–172 (2007).
Garrison, D. R., & Cleveland-Innes, M. (2005). Facilitating cognitive presence in online learning: Interaction is not enough. American Journal of Distance Education, 19, 133-148.
Open Discussion: Instruments and Methods for Formative Assessment: by invitation of teachers from Plovdiv region | Тема: Инструменти и методи за актуални училищни занятия
Where | Къде: СУ „Димитър Матевски“ https://goo.gl/maps/rojNjE3dk4s and online ( виртуално) When | Кога: 2. май, 2018, 14 часа | May 2, 2018, 2PM local time (Bulgaria) Who | Кой: преподаватели и педагози | teachers and faculty How | Как: използвайте “обратна връзка” за споделяне на вашите идеи | use the following hashtag for backchanneling#BGtechEd
Intro | Представяне – 5мин. Who are we (please share short intro about your professional interests) | Кои сме ние: споделете накратко професионалните си интереси (използвайте “comment” section под този блог) http://web.stcloudstate.edu/pmiltenoff/faculty/
Reality Check (before we do tech) | минута за откровение (преди да започнем с технологии):
who is our audience | кого учим/обучаваме? https://blog.stcloudstate.edu/ims/2018/04/21/in-memoriam-avicii/ https://blog.stcloudstate.edu/ims/2018/04/17/edtech-implementation-fails/
why technology application fails | защо се проваля използването на технологии в обучението?
Understanding Purpose | какъв е смисълът
Insufficient Modeling of Best Practices | недостатъчен или несподелен опит
Bad First Impressions | лоши първи впечатления
Real-World Usability Challenges | ежедневни проблеми
The Right Data to Track Progress | кои данни определят успеха
Share your thoughts for the fails | Сподели твоите мисли за провала
Тема1. Сравняване на Kahoot, Edpuzzle и Apester – 1-1, 1/2 час продължителност Topic 1: A comparison of Kahoot, Apester and EdPuzzle
Дискусия, относно методиката на използване. Споделяне на опит кога и как го използват колегите от България и САЩ (други страни?).
Short demonstration and discussion regarding methodology of use. Sharing experience of use.
Споделяне на опит | ideas and experience exchange.
Comparison to other tools (e.g. flipped classroom advantage to Kahoot; difference from EdPuzzle, similarities to EdPuzzle) | съпоставяне с други инструменти: например, обърната класна стая – предимство пред Кахут; разлики и прилики с ЕдПъзил и тн)
Създаване на акаунт | account creation and building of learning objects
Comparison to other tools (e.g. flipped classroom advantage to Kahoot; difference from EdPuzzle, similarities to EdPuzzle) | съпоставяне с други инструменти: например, обърната класна стая – предимство пред Кахут; разлики и прилики с Еиптстър и тн)
Тема 2. Виртуална реалност в учебния процес – теория и практика- 1-1, 1/2 час продължителност Topic 2. Virtual reality in teaching and learning – theory and hands-on
When a student is brilliant on the street corner but falling asleep in class, something is wrong with the schooling system Ако учащ се е страхотен на ъгъла на улицата, но се проваля или заспива в клас, тогава нещо е грешно с учебната система https://blog.stcloudstate.edu/ims/2018/04/17/education-teched-frenemies/
Learn about iGen’s beliefs, preferences, and behaviors
Connect these behaviors to program needs, marketing challenges, technology and workforce implications, and other factors
The iGeneration—the part of Generation Z that is high school or college age—has been estimated at 42 million strong. Due to recent events and the influence of families and social networks, this segment is finding its voice and power much quicker than its predecessors, the Millennials.
Speakers
Jim Fong Chief Research Officer, University Professional and Continuing Education Association (UPCEA)
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more on Gen Z in this IMS blog https://blog.stcloudstate.edu/ims?s=gen+z
What: Overview of new D2L Brightspace features
When: Monday, April 9 at 10:00 AM
Please join us to learn about the new features that will be available in D2L Brightspace as of June 2, 2018. The session will be recorded.
D2L cloud is the big news. stcloudstate.learn.minnstate.edu will be the link to log into the cloud.
Quiz/Question Library – The ability to search the text of quiz questions. See video (7:00)
Quizzes – Add a quiz due date, in addition to a start and end date.
Quiz Taking – Students start and submit a quiz with fewer clicks.
Manage Dates Tool – ‘Due Dates’ are now included.
Additional features will be rolled out to the QA cloud on April 10 (version 10.8.0) and May 7 (version 10.8.1)
ePortfolio -“A digital showcase for the learning journey. It helps you document the experience, reflect on it, and share ideas and achievements as they happen.” D2L has provided an overview video and a video to help you navigate this new tool for Minnesota State campuses. Look for an invitation to an overview session on April 18.
IP restriction, which is supposed to alleviate proctoring issues. But this will work only for oncampus quizzes. not for online classes.
The Quiz library being moved to the cloud. Does this mean that the Quiz Library can be shared across institutions? E.g. if faculty from one university is teaching biology and has developed a quiz library content, it can be shared with the content of a faculty from another university? All bells and whistles so far are only secondary to the fact that content generation remains most important for faculty and if faculty can share their test banks, I see this as the most advantageous of moving to a cloud.
eportfolio – new D2L tool. April 18 overview scheduled. so, isn’t in collision with TK20? I, personally, think that LInkedIn is the way to go. I will not mention eFolio MN, since it is a losing bet. So, how we reconcile the existence of several platforms for eportofolio?
SSO. single sign on. Adobe Connect, Mediaspace and service desk are already on SSO. signing in one application allows to move to D2L without having to sign on again.
The idea that we learn better when taught via our preferred modality or “learning style” – such as visually, orally, or by doing – is not supported by evidence. Nonetheless the concept remains hugely popular, no doubt in part because learning via our preferred style can lead us to feel like we’ve learned more, even though we haven’t.
For a new paper in Anatomical Sciences Education, a pair of researchers at Indiana University School of Medicine have conducted just such an investigation with hundreds of undergrads. Once again however the findings do not support the learning styles concept, reinforcing its reputation among mainstream psychologists as little more than a myth.
one of the most popular online learning styles surveys, the VARK. Taken by millions of people worldwide, the VARK categorises students according to how much they prefer to learn visually, via auditory information, through reading and writing, or through kinaesthetics (by doing or by practical example).
Husmann and O’Loughlin don’t pull any punches in their conclusion. Their findings, they write – especially when considered in the context of past research – “provide strong evidence that instructors and students should not be promoting the concept of learning styles for studying and/or for teaching interventions. Thus, the adage of ‘I can’t learn subject X because I am a visual learner’ should be put to rest once and for all.”
Publisher / Organization: Athabasca University Press
Year founded: 2000
Description: The International Review of Research in Open and Distributed Learning disseminates original research, theory, and best practice in open and distributed learning worldwide.
Publisher / Organization: The University of Illinois at Chicago- University Library
Year founded: 1996
Description: First Monday is among the very first open access journals in the EdTech field. The journal’s subject matter encompasses the full range of Internet issues, including educational technologies, social media and web search. Contributors are urged via author guidelines to use simple explanations and less complex sentences and to be mindful that a large proportion of their readers are not part of academia and do not have English as a first language.
Academic Management: University of Catalonia (UOC)
Year founded: 2004
Description: This journal aims to: provide a vehicle for scholarly presentation and exchange of information between professionals, researchers and practitioners in the technology-enhanced education field; contribute to the advancement of scientific knowledge regarding the use of technology and computers in higher education; and inform readers about the latest developments in the application of information technologies (ITs) in higher education learning, training, research and management.
Description: Online Learning promotes the development and dissemination of new knowledge at the intersection of pedagogy, emerging technology, policy, and practice in online environments. The journal has been published for over 20 years as the Journal of Asynchronous Learning Networks (JALN) and recently merged with the Journal of Online Learning and Teaching (JOLT).
Publisher / Organization: International Forum of Educational Technology & Society
Year founded:1998
Description: Educational Technology & Society seeks academic articles on the issues affecting the developers of educational systems and educators who implement and manage these systems. Articles should discuss the perspectives of both communities – the programmers and the instructors. The journal is currently still accepting submissions for ongoing special issues, but will cease publication in the future as the editors feel that the field of EdTech is saturated with high quality publications.
Description: The Australasian Journal of Educational Technology aims to promote research and scholarship on the integration of technology in tertiary education, promote effective practice, and inform policy. The goal is to advance understanding of educational technology in post-school education settings, including higher and further education, lifelong learning, and training.
DESCRIPTION: The Internet and Higher Education is devoted to addressing contemporary issues and future developments related to online learning, teaching, and administration on the Internet in post-secondary settings. Articles should significantly address innovative deployments of Internet technology in instruction and report on research to demonstrate the effects of information technology on instruction in various contexts in higher education.
Publisher / Organization: British Educational Research Association (BERA)
YEAR FOUNDED: 1970
DESCRIPTION: The journal publishes theoretical perspectives, methodological developments and empirical research that demonstrate whether and how applications of instructional/educational technology systems, networks, tools and resources lead to improvements in formal and non-formal education at all levels, from early years through to higher, technical and vocational education, professional development and corporate training.
Description: Computers & Education aims to increase knowledge and understanding of ways in which digital technology can enhance education, through the publication of high quality research, which extends theory and practice.
Description: TechTrends targets professionals in the educational communication and technology field. It provides a vehicle that fosters the exchange of important and current information among professional practitioners. Among the topics addressed are the management of media and programs, the application of educational technology principles and techniques to instructional programs, and corporate and military training.
Description: Advances in technology and the growth of e-learning to provide educators and trainers with unique opportunities to enhance learning and teaching in corporate, government, healthcare, and higher education. IJEL serves as a forum to facilitate the international exchange of information on the current research, development, and practice of e-learning in these sectors.
Led by an Editorial Review Board of leaders in the field of e-Learning, the Journal is designed for the following audiences: researchers, developers, and practitioners in corporate, government, healthcare, and higher education. IJEL is a peer-reviewed journal.
Description: JCMST is a highly respected scholarly journal which offers an in-depth forum for the interchange of information in the fields of science, mathematics, and computer science. JCMST is the only periodical devoted specifically to using information technology in the teaching of mathematics and science.
Just as researchers build reputation over time that can be depicted (in part) through quantitative measures such as h-index and i10-index, journals are also compared based on the number of citations they receive..
Description: The Journal of Interactive Learning Research (JILR) publishes papers related to the underlying theory, design, implementation, effectiveness, and impact on education and training of the following interactive learning environments: authoring systems, cognitive tools for learning computer-assisted language learning computer-based assessment systems, computer-based training computer-mediated communications, computer-supported collaborative learning distributed learning environments, electronic performance support systems interactive learning environments, interactive multimedia systems interactive simulations and games, intelligent agents on the Internet intelligent tutoring systems, microworlds, virtual reality based learning systems.
Description: JEMH is designed to provide a multi-disciplinary forum to present and discuss research, development and applications of multimedia and hypermedia in education. It contributes to the advancement of the theory and practice of learning and teaching in environments that integrate images, sound, text, and data.
Publisher / Organization: Society for Information Technology and Teacher Education (SITE)
Year founded: 1997
Description: JTATE serves as a forum for the exchange of knowledge about the use of information technology in teacher education. Journal content covers preservice and inservice teacher education, graduate programs in areas such as curriculum and instruction, educational administration, staff development instructional technology, and educational computing.
Publisher / Organization: Association for the Advancement of Computing in Education (AACE)
YEAR FOUNDED: 2015
DESCRIPTION: The Journal of Online Learning Research (JOLR) is a peer-reviewed, international journal devoted to the theoretical, empirical, and pragmatic understanding of technologies and their impact on primary and secondary pedagogy and policy in primary and secondary (K-12) online and blended environments. JOLR is focused on publishing manuscripts that address online learning, catering particularly to the educators who research, practice, design, and/or administer in primary and secondary schooling in online settings. However, the journal also serves those educators who have chosen to blend online learning tools and strategies in their face-to-face classroom.
The most commonly used index to measure the relative importance of journals is the annual Journal Citation Reports (JCR). This report is published by Clarivate Analytics (previously Thomson Reuters).
SCImago Journal Rank (SJR indicator) measures the influence of journals based on the number of citations the articles in the journal receive and the importance or prestige of the journals where such citations come from. The SJR indicator is a free journal metric which uses an algorithm similar to PageRank and provides an open access alternative to the journal impact factor in the Web of Science Journal Citation Report. The portal draws from the information contained in the Scopus database (Elsevier B.V.).
Introduced by Google in 2004, Scholar is a freely accessible search engine that indexes the full text or metadata of scholarly publications across an array of publishing formats and disciplines.
Introduced by Elsevier in 2004, Scopus is an abstract and citation database that covers nearly 18,000 titles from more than 5,000 publishers. It offers journal metrics that go beyond just journals to include most serial titles, including supplements, special issues and conference proceedings. Scopus offers useful information such as the total number of citations, the total number of articles published, and the percent of articles cited.
Anne-Wil Harzing:
“Citations are not just a reflection of the impact that a particular piece of academic work has generated. Citations can be used to tell stories about academics, journals and fields of research, but they can also be used to distort stories”.
Harzing, A.-W. (2013). The publish or perish book: Your guide to effective and responsible citation analysis. http://harzing.com/popbook/index.htm
ResearchGate is a social networking site for scientists and researchers to share papers, ask and answer questions, and find collaborators. The community was founded in May 2008. Today it has over 14 million members.
Google Scholar allows users to search for digital or physical copies of articles, whether online or in libraries. It indexes “full-text journal articles, technical reports, preprints, theses, books, and other documents, including selected Web pages that are deemed to be ‘scholarly. It comprises an estimated 160 million documents.
Academia.edu is a social-networking platform for academics to share research papers. You can upload your own work, and follow the updates of your peers. Founded in 2008, the network currently has 59 million users, and adding 20 million documents.
The ORCHID (Open Researcher and Contributor ID) is a nonproprietary alphanumeric code to uniquely identify scientific and other academic authors and contributors. It provides a persistent identity for humans, similar to content-related entities on digital networks that utilize digital object identifiers (DOIs). The organization offers an open and independent registry intended to be the de facto standard for contributor identification in research and academic publishing.
The Scopus Author Identifier assigns a unique number to groups of documents written by the same author via an algorithm that matches authorship based on a certain criteria. If a document cannot be confidently matched with an author identifier, it is grouped separately. In this case, you may see more than one entry for the same author.
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more on metrics in this iMS blog