Sugimoto, C. R., Work, S., Larivière, V., & Haustein, S. (2016). Scholarly use of social media and altmetrics: a review of the literature. Retrieved from https://arxiv.org/abs/1608.08112
One of the central issues associated with altmetrics (short for alternative metrics) is the identification of communities engaging with scholarly content on social media (Haustein, Bowman, & Costas, 2015; Neylon, 2014; Tsou, Bowman, Ghazinejad, & Sugimoto, 2015) . It is thus of central importance to understand the uses and users of social media in the context of scholarly communication.
most identify the following major categori es: social networking, social bookmarking, blogging, microblogging, wikis , and media and data sharing (Gu & Widén -Wulff, 2011; Rowlands, Nicholas, Russell, Canty, & Watkinson, 2011; Tenopir et al., 2013) . Some also conside r conferencing, collaborative authoring, scheduling and meeting tools (Rowlands et al., 2011) or RSS and online documents (Gu & Widén -Wulff, 2011; Tenopir et al., 2013) as social media. The landscape of social media, as well as that of altmetrics, is constantly changing and boundaries with othe r online platforms and traditional metrics are fuzzy. Many online platforms cannot be easily classified and more traditional metrics , such as downloads and mentions in policy documents , have been referred to as altmetrics due to data pr ovider policies.
the Use of social media platforms for by researchers is high — ranging from 75 to 80% in large -scale surveys (Rowlands et al., 2011; Tenopir et al., 2013; Van Eperen & Marincola, 2011) .
but
less than 10% of scholars reported using Twitter (Rowlands et al., 2011) , while 46% used ResearchGate (Van Noorden, 2014) , and more than 55% use d YouTube (Tenopir et al., 2013) —it is necessary to discuss the use of various types of social media separately . Furthermore, there i s a distinction among types of us e, with studies showing higher uses of social media for dissemination, consumption, communication , and promotion (e.g., Arcila -Calderón, Piñuel -Raigada, & Calderín -Cruz, 2013; Van Noorden, 2014) , and fewer instances of use for creation (i.e., using social media to construct scholarship) (British Library et al., 2012; Carpenter, Wetheridge, Tanner, & Smith, 2012; Procter et al., 2010b; Tenopir et al., 2013) .
Frequently mentioned social platforms in scholarly communication research include research -specific tools such as Mendeley, Zotero, CiteULike, BibSonomy, and Connotea (now defunct) as well as general tools such as Delicious and Digg (Hammond, Hannay, Lund, & Scott, 2005; Hull, Pettifer, & Kell, 2008; Priem & Hemminger, 2010; Reher & Haustein, 2010) .
Social data sharing platforms provide an infrastructure to share various types of scholarly objects —including datasets, software code, figures, presentation slides and videos —and for users to interact with these objects (e.g., comment on, favorite, like , and reuse ). Platforms such as Figshare and SlideShare disseminate scholars’ various types of research outputs such as datasets, figures, infographics, documents, videos, posters , or presentation slides (Enis, 2013) and displays views, likes, and shares by other users (Mas -Bleda et al., 2014) . GitHub provides for uploading and stor ing of software code, which allows users to modify and expand existing code (Dabbish, Stuart, Tsay, & Herbsleb, 2012) , which has been shown to lead to enhanced collaboratio n among developers (Thung, Bissyande, Lo, & Jiang, 2013) . As w ith other social data sharing platforms, usage statistics on the number of view and contributions to a project are provided (Kubilius, 2014) . The registry of research data repositories, re3data.org, ha s indexed more than 1,200 as of May 2015 2 . However, only a few of these repositories (i.e. , Figshare, SlideShare and Github) include social functionalities and have reached a certain level of participation from scholars (e.g., Begel, Bosch, & Storey, 2013; Kubilius, 2014) .
Video provide s yet another genre for social interaction and scholarly communication (Kousha, Thelwall, & Abdoli, 2012; Sugimoto & Thelwall, 2013) . Of the various video sharing platforms, YouTube, launched in 2005, is by far the most popular
A study of UK scholars reports that the majority o f respondents engaged with video for scholarly communication purposes (Tenopir et al., 2013) , yet only 20% have ever created in that genre. Among British PhD students, 17% had used videos and podcasts passively for research, while 8% had actively contributed (British Library et al., 2012) .
Blogs began in the mid -1990s and were considered ubiquitous by the mid- 200 0s (Gillmor, 2006; Hank, 2011; Lenhart & Fox, 2006; Rainie, 2005) . Scholarly blogs emerged during this time with their own neologisms (e.g., blogademia , blawgosphere , bloggership) and body of research (Hank, 2011) and were considered to change the exclusive structure of scholarly communication
Technorati, considered t o be on e of the largest ind ex of blogs, deleted their entire blog directory in 2014 3 . Individual blogs are also subject to abrupt cancellations and deletions, making questionable the degree to which blogging meets the permanence criteria of scholarly commu nication (Hank, 2011) .
ResearchBlogging.org (RB) — “an aggregator of blog posts referencing peer -reviewed research in a structured manner” (Shema, Bar -Ilan, & Thelwall, 2015, p. 3) — was launched in 2007 and has been a fairly stable structure in the scholarly blogging environment. RB both aggregates and —through the use of the RB icon — credentials scholarly blogs (Shema et al., 2015) . The informality of the genre (Mewburn & Thomson, 2013) and the ability to circumve nt traditional publishing barr iers has led advocates to claim that blogging can invert traditional academic power hierarchies (Walker, 2006) , allow ing people to construct scholarly identities outside of formal institutionalization (Ewins, 2005; Luzón, 2011; Potter, 2012) and democratize the scientific system (Gijón, 2013) . Another positive characteristic of blogs is their “inherently social” nature (Walker, 2006, p. 132) (see also Kjellberg, 2010; Luzón, 2011 ). Scholars have noted the potential for “communal scholarship” (Hendrick, 2012) made by linking and commenting, calling the platform “a new ‘third place’ for academic discourse” (Halavais, 2006, p. 117) . Commenting functionalities were seen as making possible the “shift from public understanding to public engagement with science” (Kouper, 2010, p. 1) .
Studies have also provided evidence of high rate s of blogging among certain subpopulations: for example, approximately one -third of German university staff (Pscheida et al., 2013) and one fifth of UK doctoral students use blogs (Carpenter et al., 2012) .
Academics are not only producers, but also consumers of blogs: a 2007 survey of medical bloggers foundthat the large majority (86%) read blogs to find medical news (Kovic et al., 2008)
Mahrt and Puschmann (2014) , who defined science blogging as “the use of blogs for science communication” (p. 1). It has been similarly likened to a sp ace for public intellectualism (Kirkup, 2010; Walker, 2006) and as a form of activism to combat perceived biased or pseudoscience (Riesch & Mendel, 2014. Yet, there remains a tension between science bloggers and science journalists, with many science journals dismissing the value of science blogs (Colson, 2011)
.
while there has been anecdotal evidence of the use of blogs in promotion and tenure (e.g., (Podgor, 2006) the consensus seem s to suggest that most institutions do not value blogging as highly as publishing in traditional outlets, or consider blogging as a measure of service rather than research activity (Hendricks, 2010, para. 30) .
Microblogging developed out of a particular blogging practice, wherein bloggers would post small messages or single files on a blog post. Blogs that focused on such “microposts” were then termed “tumblelogs” and were described as “a quick and dirty stream of consciousness” kind of blogging (Kottke, 2005, para. 2)
most popular microblogs are Twitter (launched in 2006), tumblr (launched in 2007), FriendFeed (launched in 2007 and available in several languages), Plurk (launched in 2008 and popular in Taiwan), and Sina Weibo (launched in 2009 and popular in China).
users to follow other users, search tweets by keywords or hashtags, and link to other media or other tweets
.
Conference chatter (backchanneling) is another widely studied area in the realm of scholarly microblogging. Twitter use at conferences is generally carried out by a minority of participants
Wikis are collaborative content management platforms enabled by web browsers and embedded markup languages.
Wikipedia has been advocated as a replacement for traditional publishing and peer review models (Xia o & Askin, 2012) and pleas have been made to encourage experts to contribute (Rush & Tracy, 2010) . Despite this, contribution rates remain low — likely hindered by the lack of explicit authorship in Wikipedia, a cornerstone of the traditional academic reward system (Black, 2008; Butler, 2008; Callaway, 2010; Whitworth & Friedman, 2009) . Citations to scholarly documents —another critical component in the reward system —are increasingly being found i n Wikiped ia entries (Bould et al., 2014; Park, 2011; Rousidis et al., 2013) , but are no t yet seen as valid impact indicators (Haustein, Peters, Bar -Ilan, et al., 2014) .
The altmetrics manifesto (Priem et al., 2010, para. 1) , altmetrics can serve as filters , which “reflect the broad, rapid impact of scholarship in this burgeoning ecosystem”.
There are also a host of platforms which are being used informally to discuss and rate scholarly material. Reddit, for example, is a general topic platform where users can submit, discuss and rate online content. Historically, mentions of scientific journals on Reddit have been rare (Thelwall, Haustein, et al., 2013) . However, several new subreddits —e.g., science subreddit 4 , Ask Me Anything sessions 5 –have recently been launched, focusing on the discussion of scientific information. Sites like Amazon (Kousha & Thelwall, 2015) and Goodreads (Zuccala, Verleysen, Cornacchia, & Engels, 2015) , which allow users to comment on and rate books, has also been mined as potential source for the compilation of impact indicators
libraries provide services to support researchers’ use of social media tools and metrics (Lapinski, Piwowar, & Priem, 2013; Rodgers & Barbrow, 2013; Roemer & Borchardt, 2013). One example is Mendeley Institutional Edition, https://www.elsevier.com/solutions/mendeley/Mendeley-Institutional-Edition, which mines Mendeley documents, annotations, and behavior and provides these data to libraries (Galligan & Dyas -Correia, 2013) . Libraries can use them for collection management, in a manner similar to other usage data, such as COUNTER statistics (Galligan & Dyas -Correia, 2013) .
Factors affecting social media use; age, academic rank and status, gender, discipline, country and language,
Zhang, X., Chen, H., Pablos, P. O. de, Lytras, M. D., & Sun, Y. (2016). Coordinated Implicitly? An Empirical Study on the Role of Social Media in Collaborative Learning. The International Review of Research in Open and Distributed Learning, 17(6). https://doi.org/10.19173/irrodl.v17i6.2622
Vlachopoulos, D. (2016). Assuring Quality in E-Learning Course Design: The Roadmap. The International Review of Research in Open and Distributed Learning, 17(6). https://doi.org/10.19173/irrodl.v17i6.2784
Ungerer, L. M. (2016). Digital Curation as a Core Competency in Current Learning and Literacy: A Higher Education Perspective. The International Review of Research in Open and Distributed Learning, 17(5). https://doi.org/10.19173/irrodl.v17i5.2566
metaliteracy
Technology considerably impacts on current literacy requirements (Reinking, as cited in Sharma & Deschaine, 2016). Being literate in the 21st century requires being able to decode and comprehend multimodal texts and digital format and also engage with these texts in a purposeful manner. Literacy is not merely based on a specific skill, but consists of a process that embraces the dynamic, social, and collaborative facets of digital technology (Lewis & Fabos, as cited in Mills, 2013).
Mackey and Jacobson (2011) suggest reframing the concept of information literacy as metaliteracy (supporting multiple literacy types) because of a tremendous growth in social media and collaborative online communities. They propose that information literacy currently involves more than a set of discrete skills, since active knowledge production and distribution in collaborative online communities are also necessary.
Mackey and Jacobson (2011) position metaliteracy as an overarching and comprehensive framework that informs other literacy types. It serves as the basis for media literacy, digital literacy, ICT literacy, and visual literacy.
According to Mills (2013, p. 47), digital curation is the sifting and aggregation of internet and other digital resources into a manageable collection of what teachers and students find relevant, personalized and dynamic. It incorporates the vibrancy of components of the Internet and provides a repository that is easily accessible and usable.
Pedagogies of Abundance
According to Weller (2011), a pedagogy of abundance should consider a number of assumptions such as that content often is freely available and abundant. Content further takes on various forms and it is often easy and inexpensive to share information. Content is socially based and since people filter and share content, a social approach to learning is advisable. Further, establishing and preserving connections in a network is easy and they do not have to be maintained on a one-to-one basis. Successful informal groupings occur frequently, reducing the need to formally manage groups.
Resource-based learning. Ryan (as cited in Weller, 2011) defines resource-based learning as “an integrated set of strategies to promote student centred learning in a mass education context, through a combination of specially designed learning resources and interactive media and technologies.”
Problem-based learning. Problem-based learning takes place when learners experience the process of working toward resolving a problem encountered early in the learning process (Barrows & Tamblyn, as cited in Weller, 2011). Students often collaborate in small groups to identify solutions to ill-defined problems, while the teacher acts as facilitator and assists groups if they need help. Problem-based learning meets a number of important requirements such as being learner-directed, using diverse resources and taking an open-ended approach.
Communities of practice. Lave and Wenger’s (as cited in Weller, 2011) concept of situated learning and Wenger’s (as cited in Weller, 2011) idea of communities of practice highlight the importance of apprenticeship and the social role in learning.
My note: this article spells out what needs to be done and how. it is just flabeghasting that research guides are employed so religiously by librarians. They are exactly the opposite concept of the one presented in this article: they are closed, controlled by one or several librarians, without a constant and easy access of the instructor, not to mention the students’ participation
Social media has the potential to facilitate much closer relationships between libraries and their patrons. Current usage of social media by the library community generally remains ad hoc and somewhat experimental, but the uptake of these tools is accelerating, and they will likely play an increasingly important role in library service provision and outreach in the future. Taylor & Francis has produced a white paper that analyzes current practices relating social media’s use in the library and how this differs by librarian job role. The sample was taken from academic librarians around the world, which also allows us to examine differences by geographic location. The goal: to establish how librarians are currently using social media in their roles, the most useful social media tools and best applications for these tools in a library setting.
explores a variety of social media tools in terms of how they can be used to organize information and communities. Together, you will survey and use a variety of social media tools, such as Delicious, Diigo, Facebook, Goodreads, Google Hangouts, LibraryThing, Pinterest, Storify, Twitter, and more! You will also explore how social media tools can be used to organize and disseminate information and how they can be used to foster and sustain communities of learning.
With the widespread use of library technology that incorporates social media components, intelligent objects, and knowledge-sharing tools comes the ability of libraries to provide greater opportunities for patron engagement in those discovery systems through user-generated content. These features may include the ability of users to contribute commentary such as reviews, simple point-and-click rating systems (e.g. one star to five stars), or to engage in extensive discussions or other social interactions. This kind of content could transform authoritative files, alter information architecture, and change the flow of information within the library discovery system.
Across generations, concerns for privacy may dissipate with time as specific technologies take hold or as people become aware of a technology’s benefits and value those over their value for privacy.
Library Privacy Guidelines for Students in K-12 Schools
Beyond social media, there is also a clear disconnect between how college admins reach out to their students and what students actually pay attention to. While the average college admin, like most adults, is used to reading and sending emails, students are quickly moving away from using email in their daily lives and getting them to check it regularly is painful.
A fantastic New York Times article in the fall examined college student use of technology and the results were fascinating.
While some faculty members are hesitant to contact students on whichever social media platform is in vogue, others have explored texting as an alternative to email.
The paper, which is being presented at next month’s Information and Telecommunications Education and Research Association conference, also recommends colleges should consider using texting and social media platforms to reach students. However, the findings still suggest email can be an effective method of communication.
How Millennials use and control social media, Published
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Social Media Usage Trends Among Higher Education Faculty ;
ACRL e-Learning webcast series: Learning Analytics – Strategies for Optimizing Student Data on Your Campus
This three-part webinar series, co-sponsored by the ACRL Value of Academic Libraries Committee, the Student Learning and Information Committee, and the ACRL Instruction Section, will explore the advantages and opportunities of learning analytics as a tool which uses student data to demonstrate library impact and to identify learning weaknesses. How can librarians initiate learning analytics initiatives on their campuses and contribute to existing collaborations? The first webinar will provide an introduction to learning analytics and an overview of important issues. The second will focus on privacy issues and other ethical considerations as well as responsible practice, and the third will include a panel of librarians who are successfully using learning analytics on their campuses.
Webcast One: Learning Analytics and the Academic Library: The State of the Art and the Art of Connecting the Library with Campus Initiatives
March 29, 2016
Learning analytics are used nationwide to augment student success initiatives as well as bolster other institutional priorities. As a key aspect of educational reform and institutional improvement, learning analytics are essential to defining the value of higher education, and academic librarians can be both of great service to and well served by institutional learning analytics teams. In addition, librarians who seek to demonstrate, articulate, and grow the value of academic libraries should become more aware of how they can dovetail their efforts with institutional learning analytics projects. However, all too often, academic librarians are not asked to be part of initial learning analytics teams on their campuses, despite the benefits of library inclusion in these efforts. Librarians can counteract this trend by being conversant in learning analytics goals, advantages/disadvantages, and challenges as well as aware of existing examples of library successes in learning analytics projects.
Learn about the state of the art in learning analytics in higher education with an emphasis on 1) current models, 2) best practices, 3) ethics, privacy, and other difficult issues. The webcast will also focus on current academic library projects and successes in gaining access to and inclusion in learning analytics initiatives on their campus. Benefit from the inclusion of a “short list” of must-read resources as well as a clearly defined list of ways in which librarians can leverage their skills to be both contributing members of learning analytics teams, suitable for use in advocating on their campuses.
student’s opinion of this process
benefits: self-assessment, personal learning, empwerment
analytics and data privacy – students are OK with harvesting the data (only 6% not happy)
8 in 10 are interested in personal dashboard, which will help them perform
Big Mother vs Big Brother: creepy vs helpful. tracking classes, helpful, out of class (where on campus, social media etc) is creepy. 87% see that having access to their data is positive
librarians:
recognize metrics, assessment, analytics, data. visualization, data literacy, data science, interpretation
INSTRUCTION DEPARTMENT – N.B.
determine who is the key leader: director of institutional research, president, CIO
who does analyics services: institutional research, information technology, dedicated center
analytic maturity: data drivin, decision making culture; senior leadership commitment,; policy supporting (data ollection, accsess, use): data efficacy; investment and resourcefs; staffing; technical infrastrcture; information technology interaction
student success maturity: senior leader commited; fudning of student success efforts; mechanism for making student success decisions; interdepart collaboration; undrestanding of students success goals; advising and student support ability; policies; information systems
developing learning analytics strategy
understand institutional challenges; identify stakeholders; identify inhibitors/challenges; consider tools; scan the environment and see what other done; develop a plan; communicate the plan to stakeholders; start small and build
ways librarians can help
idenfify institu partners; be the partners; hone relevant learning analytics; participate in institutional analytics; identify questions and problems; access and work to improve institu culture; volunteer to be early adopters;
questions to ask: environmental scanning
do we have a learning analytics system? does our culture support? leaders present? stakeholders need to know?
questions to ask: Data
questions to ask: Library role
learning analytics & the academic library: the state of the art of connecting the library with campus initiatives
questions:
literature
7 Things You Should Know About First-Generation Learning Analytics. Published:
Barneveld, A., Arnold, K., & Campbell, J. (2012). Analytics in Higher Education: Establishing a Common Language. Educause Learning Initiative. Retrieved from http://net.educause.edu/ir/library/pdf/ELI3026.pdf
causation versus correlation studies. speakers claims that it is difficult to establish causation argument. institutions try to predict as accurately as possible via correlation, versus “if you do that it will happen what.”
resources on student-centered learning and the use of rubrics, multimedia, social media to personalize and engage learners
WHAT:
what is student-centered learning: Student-centered learning, also known as learner-centered education, broadly encompasses methods of teaching that shift the focus of instruction from the teacher to the student. In original usage, student-centered learning aims to develop learner autonomy and independence [1] by putting responsibility for the learning path in the hands of students.[2][3][4] Student-centered instruction focuses on skills and practices that enable lifelong learning and independent problem-solving.[5] Student-centered learning theory and practice are based on the constructivist learning theory that emphasizes the learner’s critical role in constructing meaning from new information and prior experience. https://en.wikipedia.org/wiki/Student-centred_learning
+++++++++++++
Student-centered learning moves students from passive receivers of information to active participants in their own discovery process. What students learn, how they learn it and how their learning is assessed are all driven by each individual student’s needs and abilities.
At the system level, this requires implementing curriculum planning practices, pedagogy and assessment methods that support a student-centric approach. In the classroom, teachers craft instruction and apply technology in a way that best serves each student’s learning journey. Technology use is always guided by two primary criteria:
What’s appropriate for the task at hand?
How can activities be designed to develop higher-order thinking skills?
When students take responsibility for their own learning, they become explorers capable of leveraging their curiosity to solve real-world problems. To that end, the ISTE Standards guide teachers toward designing learning experiences that permit student independence and foster lifelong learning.
Technology allows for an unprecedented level of personalized learning, with valuable opportunities to monitor progress and engagement, follow student thinking, and digitally assess competencies. When schools effectively leverage both technology and pedagogy, both students and teachers become empowered to make decisions about their own learning and teaching.
True student-centered learning requires more than just an increase in technology implementation. It represents a shift in the educational culture toward a system that supports technology for standards-based learning and real-world problem solving. As a system transitions to a student-centered approach, educators can more effectively apply technology to improve learning outcomes and help students develop the skills for college and career readiness.
Rejab, M. M., Awang, I. b., Hassan, S. b., & Ahmad, M. b. (2010). Customizable Rubrics Model for Formative Evaluation of Problem-Based Learning Course. Annual International Conference On Infocomm Technologies In Competitive Strategies, 126-131. doi:10.5176/978-981-08-7240-3_I-51
CORLU, M. S. (2013). Insights into STEM Education Praxis: An Assessment Scheme for Course Syllabi.Educational Sciences: Theory & Practice, 13(4), 2477-2485. doi:10.12738/estp.2013.4.1903
Klein, G. C., & Carney, J. M. (2014). Comprehensive Approach to the Development of Communication and Critical Thinking: Bookend Courses for Third- and Fourth-Year Chemistry Majors. Journal Of Chemical Education,91(10), 1649-1654. doi:10.1021/ed400595j
Moore, T. J., Guzey, S. S., Roehrig, G. H., Stohlmann, M., Park, M. S., Kim, Y. R., & … Teo, H. J. (2015). Changes in Faculty Members’ Instructional Beliefs while Implementing Model-Eliciting Activities. Journal Of Engineering Education, 104(3), 279-302. doi:10.1002/jee.20081
student-centered learning through engagement and buy-in: engage with multimedia
Attard, A., Di lorio Emma, Geven, K., & Santa, R. (2010, October). Student-Centred Learning Toolkit for students, staff and higher education institutions. Education International. Retrieved from http://pascl.eu/wp-content/uploads/SCL_toolkit_ESU_EI.pdf
My note: the US News and World Report is behind times on its reporting, unless this article has been held for a while by their editor: teenagers moved from Snapchat as quickly as they moved away from Facebook to Twitter and from Twitter to Snapchat. The generation, which is running US News and World Report is way too slow to notice the nomadic social media moves of the Millennials.
The cited case from Nebraska, Katelyn Gilroy, a library media specialist, who is using Snapchat or school purposes, can undoubtedly have a niche in education, enticing students to learn about their library, reading, etc.
However, it is questionable to present the media specialist’s case from Nebraska as a blank statement; a case, which can be adopted nationwide. Ms. Pannoni fails to mention that since 15 years ago, when instant messaging was the “snapchat” of the times, U.S. students consider these applications their “virtual mall,” where they like to hang out, but are not keen to consider them for educational purposes. In the same fashion, U.S. students are somehow unique in considering Facebook, later Twitter, then Snapchat and now Kik, Yammer, Celly, or Elgg a domain reserved for their private, extracurricular activities.
More about use of social media in education in this IMS blog:
bibliography on the impact of music on intellectual development.
Does music help learn better? get smarter? advance in life?
keywords: music, education, intelligence.
Misra, S., & Shastri, I. (2015). Pairing Linguistic and Music Intelligence. International Journal Of Multidisciplinary Approach & Studies, 2(5), 32-36.
Costa-Giomi, E. (2015). The Long-Term Effects of Childhood Music Instruction on Intelligence and General Cognitive Abilities. Update: Applications Of Research In Music Education, 33(2), 20-26.
Pelayo, J. M. G., & Galang, E. (2013). Social and Emotional Dynamics of College Students with Musical Intelligence and Musical Training: A Multiple Case Study. Retrieved from http://eric.ed.gov/?id=ED542664
Neves, V., Tarbet, V. (2007). Instrumental Music as Content Literacy Education: An Instructional Framework Based on the Continuous Improvement Process. Retrieved from http://eric.ed.gov/?id=ED499123
Conzelmann, K., & Süß, H. (2015). Auditory intelligence: Theoretical considerations and empirical findings. Learning And Individual Differences, 4027-40. doi:10.1016/j.lindif.2015.03.029
Juchniewicz, J. (2010). The Influence of Social Intelligence on Effective Music Teaching. Journal Of Research In Music Education, 58(3), 276-293.
Silvia, P. J., Thomas, K. S., Nusbaum, E. C., Beaty, R. E., & Hodges, D. A. (2016). How Does Music Training Predict Cognitive Abilities? A Bifactor Approach to Musical Expertise and Intelligence. Psychology Of Aesthetics, Creativity, And The Arts, doi:10.1037/aca0000058
Rickard, N. S., Bambrick, C. J., & Gill, A. (2012). Absence of Widespread Psychosocial and Cognitive Effects of School-Based Music Instruction in 10-13-Year-Old Students. International Journal Of Music Education, 30(1), 57-78.
Munsey, C. (2006). Music lessons may boost IQ and grades. American Psychological Association, 37(6), 13.
Schellenberg, E. G. (2011). Music lessons, emotional intelligence, and IQ. Music Perception, 29(2), 185-194. doi:10.1525/mp.2011.29.2.185
Kaviani, H., Mirbaha, H., Pournaseh, M., & Sagan, O. (2014). Can music lessons increase the performance of preschool children in IQ tests?. Cognitive Processing, 15(1), 77-84. doi:10.1007/s10339-013-0574-0
Degé, F., Kubicek, C., & Schwarzer, G. (2011). Music lessons and intelligence: A relation mediated by executive functions. Music Perception, 29(2), 195-201. doi:10.1525/mp.2011.29.2.195
Sharpe, N. N. (2014). The relationship between music instruction and academic achievement in mathematics. Dissertation Abstracts International Section A, 75.
keywords: music, education, multimedia.
Crappell, C., Jacklin, B., & Pratt, C. (2015). Using Multimedia To Enhance Lessons And Recitals. American Music Teacher, 64(6), 10-13.
le Roux, I., & Potgieter, H. M. (1998). A Multimedia Approach to Music Education in South Africa.
Ho, W.-C. (2007). Music Students’ Perception of the Use of Multi-Media Technology at the Graduate Level in Hong Kong Higher Education. Asia Pacific Education Review, 8(1), 12–26.
Ho, W. (. (2009). The role of multimedia technology in a Hong Kong higher education music program. Visions Of Research In Music Education, 1337.
Bolden, B. (2013). Learner-Created Podcasts: Students’ Stories with Music. Music Educators Journal, 100(1), 75-80.
Pao-Ta, Y., Yen-Shou, L., Hung-Hsu, T., & Yuan-Hou, C. (2010). Using a Multimodal Learning System to Support Music Instruction. Journal Of Educational Technology & Society, 13(3), 151-162.
Excellent discussion on the blend-online listserv on :
Can anyone recommend a good social network platform, preferably Cloud-based, that could be used to facilitate substantive organic communication and collaboration among past, present and future students on a handful of online and blended learning programs?
From: The EDUCAUSE Blended and Online Learning Constituent Group Listserv [mailto:BLEND-ONLINE@LISTSERV.EDUCAUSE.EDU] On Behalf Of Robert Tousignant Sent: Wednesday, January 21, 2015 11:50 AM To:BLEND-ONLINE@LISTSERV.EDUCAUSE.EDU Subject: Re: [BLEND-ONLINE] Social network platforms for HigherEd
Also, as mentioned in my previous post, Schoology (http://www.schoology.com) offers an LMS with a modern social media interface and integrations with Facebook, Microsoft OneDrive, etc… you might want to add it to the list as well.
I added both thanks for the update and clarification.
Facebook Group
“Groups for Schools” feature today which will allow American colleges to create Group pages accessible only within the school community.
LinkedIn
LinkedIn is a business-oriented social networking service. Founded in December 2002 and launched on May 5, 2003, it is mainly used for professional networking.
K-12 Edmodo
Edmodo is a social networking site for teachers and students where over 46 million teachers, students, and parents are connecting to collaborate on assignments, discover new resources. Edmodo is a web 2.0 social networking tool for educators to use to communicate with students and parents.
Microsoft OneDrive
A file hosting service that allows users to upload and sync files to a cloud storage and then access them from a Web browser or their local device.
12manage.com
A free management education and business education platform for management and organization of business or education.
Yammer
Yammer a private social network collaboration software and business applications that allows the user to connect to the right people, share information across teams and organize around projects.
Celly
Celly is a platform for ad-hoc social networks that is accessible via iPhone, Android, Web, SMS text and even email. Networks connect individuals and communities for instant and easy communication.
Jive
Jive is a communication and collaboration platform solution for business. Jive enables employees, partners and customers to work together.
Twitter
Twitter is a powerhouse for marketing, communication, business, and even education, letting people from around the world work together, share ideas, and gain exposure to concepts.
Google+ Communities
Google+ is a place to connect with friends and family, and explore interests. Google+ allows the user to share photos, send messages, and stay in touch with the people globally.
Hive Social
Hive Social is a specialist Social Media consultancy, that helps businesses and brands find, connect, build and engage with their online audience through Social Media and Digital Marketing.
Enterprise Hive
HiveSocial for higher education is an enterprise social software, communication and collaboration platform with embedded game mechanics
Socialtext
Socialtext applies Web 2.0 technologies such as enterprise microblogging, enterprise social networking and wikis to the critical challenges facing businesses. Socialtext’s platform allows employees to share expertise, speed workflows, and get their jobs done faster.
Elgg
Elgg an open source social networking software that provides individuals and organizations with the components needed to create an online social environment. It offers blogging, microblogging, file sharing, networking, and groups
“Learning is finding out what you already know, Doing is demonstrating that you know it, Teaching is reminding others that they know it as well as you do. We are all learners, doers, and teachers.”
A Facebook group is probably the quickest, easiest, and will give you the best engagement. Data shows that in the under 25 age group, Facebook groups is still popular.
If you were trying to reach mainly current and future, I would shift to LinkedIn.
All of those other social networks and white label networks require people to remember another log in, site, and place to check and update. You might get good engagement up front, but it will deteriorate.
David Kampmann, M.S. in Ed, CFD | Southeast Technical Institute
Can anyone recommend a good social network platform, preferably Cloud-based, that could be used to facilitate substantive organic communication and collaboration among past, present and future students on a handful of online and blended learning programs?
I am familiar with Google+ Communities, Yammer, Jive and Socialtext, but I am wondering if there are other solutions worth investigating. Facebook at Work might be a possibility, but it is too early to tell. Elgg is also a viable option, especially, a hosted Elgg instance, but identifying a fully functional, customizable and super easy to use and administrate Cloud-first solution is most desirable.
This session will present results from an evaluation of the integration of RealizeIT adaptive learning technology into three fully online courses: General Psychology, Pathophysiology for Nursing Practice, and College Algebra. Presenters will discuss the impact on students, faculty, and the university.
Adaptive learning systems provide each student with a personalized learning experience, adapting the presentation of the content, and possibly the assessment to the individual ability of the student
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Co-developed by Learning Technologies and the Faculty Colloquium on Excellence in Teaching and Learning at Indiana University, a digital badge pilot (badges.iu.edu) was launched to support faculty professional development and growth. This session will cover the competency levels, topics of study, and the badging platform to document levels of achievement. Outcomes: Understand the basics of a three-tiered framework for digital badges * Review the online badging platform * Explore topics for faculty development
Mozilla Open Badges 101: Digging into Badges (a webinar)
personalized learning or competency-based does not resolve it. GPA does not respond to employers search
regimenting credentials. digital representation of of skill or achievement. represent achievements on the web. social status (foursquare). granular, evidence-based and transferable. badge ecosystem (across multiple areas), this is why open badges; open system. Open Badge Standard: issuer information; earner information; criteria URL; evidence URL; Standards Alignment; Taxonomy Tags
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Data Visualization: The What, the Who, and the How
Data visualization tools are becoming much stronger and are now targeted at a much wider audience. This panel will explore what we should be trying to do with data visualization, who will be doing it, and how we might support and steer it. OUTCOMES: Identify multiple opportunities for use of data visualization * Learn about multiple user communities, including those not centrally managed * Explore ways to support users and steer them toward good practiceshttp://www.educause.edu/sites/default/files/library/presentations/E15/SESS029/Data%2BViz%2BEducause%2B151028%2BFINAL1.pptxslides 7: What works well for technically savvy developers may not work for faculty or staff without those same credentials.
Data Wrapper
Raw
Infogram
Tableau
Oracle suite of OBIEE (Oracle Business Intelligence Enterprise Edition) has been very successful for CSU
Cognos (IBM) is another tool that is very popular for developers and has been used by USG central office
D3 (For Data Driven Documents)
Fusion Charts
Chart js
Google Charts
slide 11: Two primary design goals supported through Data Visualization:
Discovery and Exploration
–What story is the data telling you
–Identify patterns and exceptions
Decision-making
–Compare, contrast, choose
–Explain, make a point, decide
slide 15:
qTo communicate
qPresent more clearly or more forcefully than would be accomplished with text or tables
qReports, dashboards, infographics, etc.
qTo discover
qAllow us to see what would be difficult or impossible to see if not presented in a useful visualization
qRealm of research but moving into the mainstream
qCan same visualization serve both purposes?
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iPad, You Pad, We All Pad: Transforming Teaching and Learning
California State University Northridge, Lynn University, and Jackson State University have all deployed one-to-one iPad tablet initiatives, with the objectives to increase student engagement and learning, improve the quality of teaching materials, and decrease student costs. This session will discuss the transformational educational opportunities afforded by the iPad and highlight technology and pedagogical lessons learned. Outcomes: Learn about the transformational impact of one-to-one iPad initiatives in the classroom * Understand the need for extensive faculty development and faculty adoption strategies * Appreciate deployment and support challenges====================
The Avalon Video and Audio Repository for Libraries and Beyond
The Avalon Media System provides an open-source streaming media solution, based on Hydra/Fedora repository technologies, focused on delivery of library media collections, but it is finding other uses, including support for publication, teaching and learning content, and digital scholarship. As a result, new features enhance support for additional research and instructional use cases. Outcomes: Understand the problems Avalon solves * Understand the extended use cases addressed with Avalon, both present and intended future * Learn how best to engage with the Avalon project.========================
The Karuta Open Source Portfolio, currently under incubation by the Apereo Foundation, offers dramatic flexibility for designing portfolio workflows with rubrics to assess learning outcomes. Karuta is LTI enabled for integration with the LMS for easy access and transfer of evidence of learning. Subsequent releases will add functionality for showcasing as well as reporting. Outcome: Learn how Karuta can flexibly support your programs and institution through leveraging its functionality
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Supporting the Discovery and Adoption of Open E-Textbooks
The California Open Education Resources Council comprises faculty from the three CA higher education systems working together to identify open textbooks for high impact courses. The selected open textbooks are in the process of being peer reviewed and curated in the CA Open Online Library. Outcomes: Identify quality open textbooks for general education, high-impact courses * Learn how to interpret textbook peer reviews with a faculty-created rubric * Understand how to reference these resources for the discovery of quality no- or low-cost materialshttp://www.educause.edu/sites/default/files/library/presentations/E15/PS58/COOL%2BEducause%2BPoster%2B2015.pdf
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Seminar 12P – Six Secrets for Evaluating Online Teaching (separate registration is required)
What makes online teaching different from face-to-face teaching? How can we tell when it’s done well? Faculty members, administrators, and IT leaders will learn six evaluation “secrets” from the authors of the new book Evaluating Online Teaching. You will leave this seminar with use-them-now strategies, tools, and templates to take back to your campus. OUTCOMES: Distinguish online content and practices that “count” as teaching behaviors * Design self-, peer-, and administrative-evaluation analytic tools * Develop a 6-stage, campus-wide program for evaluating online teachinghttp://www.educause.edu/annual-conference/2015/seminar-12p-six-secrets-evaluating-online-teaching-separate-registration-required
Learn how the University of Pittsburgh is creating a scalable classroom model for active learning on a traditional campus. Administrators, faculty, and instructional technologists and designers recently collaborated to reimagine legacy large-enrollment lecture halls. The focus of this session is on the learning space design process across the disciplines. Outcomes: Identify and apply the principles of active learning associated with learning space deign * Understand the design process * Assemble an effective learning space design teamhttp://www.educause.edu/annual-conference/2015/reimagining-learning-space-design-across-disciplines
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Thinking Digitally: Advancing Digital Literacy with Personalized Learning Tools
The session will outline a scalable framework for integrating digital literacy in higher education curriculum, supported by tools that allow for active and personalized learning. Research and examples from Georgia State University’s experience implementing a pilot program will be used as a catalyst for interactive discussion and idea generation. Outcomes: Understand the value of incorporating digital literacy into curriculum * Select from emerging personalized learning technologies to support digital literacy across diverse academic scenarios * Adapt a methodology for developing partnerships to advance digital literacy across the organizationhttp://www.educause.edu/annual-conference/2015/thinking-digitally-advancing-digital-literacy-personalized-learning-tools===============
A discussion of unmanned aerial vehicles (drones) and drone activities that either take place on campus or impact a campus from the outside. The state of federal aviation regulations and guidelines for drones will be covered. Attendees can share their experiences with official and rogue drone activities at their institutions. Outcomes: Learn about the drone devices in use, from miniature to massive * Understand the impact of drones on academic institutions, for better or worse * Learn what drone activities are legally allowable, banned, or discouragedhttp://www.educause.edu/annual-conference/2015/whats-droning-overhead
Resources – Higher Ed Drone Policies
The Ohio State University
Iowa State University
Indiana University
University of Kansas
Penn State University
University of New Mexico
The Association of College and University Policy
Administrators (ACUPA, acupa.org)
Join this lively discussion and discovery of innovative and functional uses and support for mobile computing. We will explore creative ideas for projects using mobile devices in teaching, learning, and administration. Topics may include hardware, applications, tools, special uses, wireless and mobile connectivity, web services, support issues, and security.
