purpose: draft a document for the provost to plan for charting the future goal 3.12 “develop a comprehensive strategy to increase awareness and development of e-textbooks and open educational resources (OERs)”
\\STCLOUDSTATE\HuskyNet\DeptFiles\LRS\ETextbooks
SCSU goal: to reduce the cost of textbooks as an affordable learning initiative. Amount of reduction is undetermined
According to Bossaler et al (2014), it might be worth considering that SCSU (MnSCU?) must go first through implementing of e-text[books] in courses first by using publisher materials and then by using “in-house” produce. At this point, SCSU does NOT have an aligned policy of integrating e-texts in courses across campus. Lack of such experience might make a strategy for adoption of e-textbooks much more complex and difficult to implement
stats are colored in green for convenience. Stats regarding the increase in textbook costs are re-printed from author to author: e.g. Acker (2011, p. 42). Murey and Perez (2011, p. 49 (bottom) – 50 (up)) reports stats from 2009 and projections for 2013 regarding etexbook adotion. Same authors, p. 50 second paragraph reports good stats regarding texbooks’ price increase : US$1122 per year for textbooks in 2010.
Wimmer at al (2014) presents a lucid graphic of the structure of the publishing process (see bottom of this blog entry for citation and perm link).
Wimmer at al (2014) discusses copyright and permissions, which is of interest for this research (p. 85)
regarding in-house creation of e-textbooks, see (Distance education, e-learning, education and training, 2015). It very much follow the example of SUNY, which Keith was laying out: a team of faculty charged with creation the e-textbook for mass consumption.
Besides the SUNY model Keith is envisioning for MnSCU (comparable), there is the option of clustering OER sources: e.g. NASTA as per Horejsi (2013), CourseSmart. FlatWorld Knowledge (Murrey and Perez, 2011) etc.
Hamedi & Ezaleila (2015) present an entire etextbook program. Article has been ordered through ILL. Same with Joseph (2015).
Open Educational Resources in Acker (2015, p. 44-47). Also in Murey and Perez (2011, p. 51).
Also in ICWL (Conference) (13th : 2014 : Tallinn, E., & Cao, Y. (2014): OpenDSA
Different models of pricing also in Acker (2015, p. 48). Keith touched on that
students learn equally well from etextbooks as from paper ones: Taylor (2011)
my note: there is no good definition about e-textbook in terms of the complexity, which e-textbook on campus might involve.
Considering Wimmer et al (2014) account on their campus experience in publishing e-textbook, a textbook may involve an LMS (Canvas) and blog (WordPress). Per my proposal during the F2F meeting, and following Rachel’s suggestion about discrimination of the different types of e-textbooks, here is an outline of e-textbook definition:
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working definition for e-textbook for the purposes of SCSU:
e-textbook is a compilation of textual, multimedia and interactive material, which can be viewed on various electronic devices. E-textbook can: 1. be purchased from a publisher; 2. compiled in HTML format on faculty or group web space; 3. compiled on the content module of LMS (BB, D2L, Canvas, Moodle, etc.) 4. compiled on LMS (BB, D2L, Canvas, Moodle, etc.) and including all interactive materials: e.g. hyperlinks to MediaSpace multimedia, quizzes, etc.; 5. compiled on special apps, such as iBook Author, eCub, Sigil.
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e-book
(Electronic-BOOK) The electronic counterpart of a printed book, which can be viewed on a desktop computer, laptop, smartphone, tablet or e-book reader (e-reader). When traveling, a huge number of e-books can be stored in portable units, dramatically eliminating weight and volume compared to paper. Electronic bookmarks make referencing easier, and e-book readers may allow the user to annotate pages.
Although fiction and non-fiction books come in e-book formats, technical material is especially suited for e-book delivery because it can be searched. In addition, programming code examples can be copied, which is why CD-ROMs that contained examples or the entire text were often packaged inside technical paper books.
E-Book Formats
Wimmer, Morrow, & Weber: Collaboration in eTextbook Publishing
There are several e-book formats on the market, including EPUB, Mobipocket (PRC, MOBI), eReader (PDB), Kindle (AZW, KF8) and Apple iBook (EPUB variation). Many e-readers also accept generic formats, including Adobe PDF and plain text (TXT).
According to a United States Government report, textbook prices have increased at over twice the rate of inflation in the last couple of decades. According to another report, the average student spends between $700 and $1,000 per year on textbooks while the cost of e-textbooks can be as much as 50% lower than paper textbooks.
Oxford dictionary, an electronic book or e-book is “an electronic version of a printed book that can be read on a computer or handheld device designed specifically for this purpose.” An e-textbook is defined as an e-book used for instructional or educational purposes and often includes features such as bookmarking, searching, highlighting, and note-taking as well as built-in dictionaries and pronunciation guides, embedded video-clips, embedded hyperlinks, and animated graphics.
E-textbooks have moved from occasional usage to a mainstream technology on college campuses. According to the Association of American Publishers, sales of e-books hit over $90 million; this is up over 200% when compared to the same month the previous year. When the cost of textbooks and the availability of formats are considered, the use of an e-textbook in the classroom may be the reasonable choice.
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A digital textbook is a digital book or e-book intended to serve as the text for a class. Digital textbooks may also be known as e-textbooks or e-texts. Digital textbooks are a major component of technology-based education reform. They may serve as the texts for a traditional face-to-face class, an online course or degree.
The concepts of open access and open source support the idea of open textbooks, digital textbooks that are free (gratis) and easy to distribute, modify and update https://en.wikipedia.org/wiki/Digital_textbook
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Exploring Students’ E-Textbook Practices in Higher Education
Authors: by Aimee Denoyelles, John Raible and Ryan Seilhamer Published: Monday, July 6, 2015. Instructional Designers, University of Central Florida
According to the United States Government Accountability Office, prices have increased 82 percent from 2002 to 2012.3This cost sometimes drives students to delay or avoid purchasing textbooks. Digital materials such as e-textbooks may offer a more cost-effective alternative.4 Also, the expectation for digital materials is gaining strength in the K–12 sector.5 For example, Florida school districts set a goal to spend at least half of classroom material funding on digital materials by the 2015–2016 school year. Given that 81 percent of first-time-in-college (FTIC) undergraduate students hailed from a Florida public high school during the fall 2014 semester at the University of Central Florida (UCF), it is important to anticipate student expectations of digital materials. Finally, the availability of digital materials has risen exponentially with the incredible popularity of mobile devices.
Key Issues
Despite the advantages that e-textbooks pose, such as interactive features and accessibility on mobile devices, several barriers exist regarding implementation in higher education, namely non-standardization of the platform, limited use by students, and the unclear role of the instructor in adoption.
a survey questionnaire in 2012 that explored basic usage and attitudes regarding e-textbooks.
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Bossaller, J., & Kammer, J. (2014). Faculty Views on eTextbooks: A Narrative Study. College Teaching, 62(2), 68-75. doi:10.1080/87567555.2014.885877
This qualitative study gives insight into the experiences instructors have when working with publishers to integrate electronic content and technology into their courses.
Baek, E., & Monaghan, J. (2013). Journey to Textbook Affordability: An Investigation of Students’ Use of eTextbooks at Multiple Campuses. International Review Of Research In Open And Distance Learning, 14(3), 1-26.
the Advisory Committee on Student Financial Assistance (2007) reported that textbook prices represent a significant barrier to students’ accessibility to textbooks. The report concluded that textbooks cost between $700-$1000 per year; textbook prices have risen much faster than other commodities; and that college aid fails to cover textbook expenses. Textbook costs are equivalent to 26% of tuition costs for an average four-year public university student and 72% of tuition costs for an average community college student. In fact, the California State Auditor (2008) reported that textbook costs grew more rapidly than student fees in academic year 2007–08.
the creation of an interactive e-book called “Practical Clinical Chemistry: core concepts” was accomplished using the
Apple Macintosh platform and the iBooks Author software. Digital content, including videos, was developed for the
project and embedded within the final package. In order to limit the size of the final files, some content was uploaded
onto Youtube so that the user could access these via the internet.
The e-book, 200MB in size, was uploaded onto the Apple ITunes site and made available in 51 countries via the
iBooks store. This prototype is the first interactive digital textbook available in clinical chemistry and contains “4-
dimensional” content including digital images, videos, interactive presentations, real-time data generation as well as
review questions with instant feedback and assessment.
Hamedi, M., & Ezaleila, S. (2015). Digital Textbook Program in Malaysia: Lessons from South Korea. Publishing Research Quarterly, 31(4), 244-257. doi:10.1007/s12109-015-9425-4
Joseph, R. (2015). Higher Education Book Publishing-from Print to Digital: A Review of the Literature. Publishing Research Quarterly, 31(4), 264-274. doi:10.1007/s12109-015-9429-0
Taylor, A. K. (2011). Students Learn Equally Well From Digital as From Paperbound Texts. Teaching Of Psychology, 38(4), 278-281. doi:10.1177/0098628311421330
Much of the research related to digital texts has focused ontechnical aspects of readability (see Dillon, 1992, for a review) and limitations of digital media for note-taking, underlining, or highlighting text (Brown, 2001). However, the important—and unanswered—question from a teaching perspective is, ‘‘Can students learn as well from digital texts as from paperbound textbooks?’’ Few published studies have addressed this ques-tion directly, and even fewer studies have examined this ques-tion among college students.
Murray, M. C., & Pérez, J. (2011). E-Textbooks Are Coming: Are We Ready?. Issues In Informing Science & Information Technology, 849-60.
Pilot projects that can help build institutional expertise
Address how and where insights gained from pilot projects will be collected and
made available
People resources (e.g., instructional designers) that will be needed to assist
instructors to use this technology
ICWL (Conference) (13th : 2014 : Tallinn, E., & Cao, Y. (2014). New horizons in web based learning: ICWL 2014 international workshops, SPeL, PRASAE, IWMPL, OBIE, and KMEL, FET, Tallinn, Estonia, August 14-17, 2014, revised selected papers. Cham: Springer.
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MnSCU will by as Content Authoring Tool – SoftChalk. Here is a promo from Softchalk (my bold):
NEW SoftChalk Create 10 and SoftChalk Cloud eBook publishing features will arrive on April 25th! Come check out the latest enhancements at our upcoming webinars!
Sleek Designer Headers and Callout Boxes – Add some new pizazz to your SoftChalk lessons!
Three New Quiz Types – Test your students’ understanding with Sentence Completion, Multiple Blanks and Feedback Questions.
Polished New QuizPopper and Activity displays – With an enhanced interface for instructors and students.
Accessibility enhancements – Make your lessons available to everyone with even more accessibility enhancements.
NEW SoftChalk Cloud eBook creation and publishing – Includes a totally re-vamped, easier eBook creation and management. New SoftChalk eReader apps available for free download in the iOS, Android, Chromebook and Windows app stores. (Cloud Only)
are any faculty really going digital? Which content distributors will thrive? What are the implementation concerns? And when will going digital really happen?
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
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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
In November 2015, the Open University released the latest edition of its ‘Innovating Pedagogy’ report, the fourth rendition of an annual educational technology and teaching techniques forecast. While the timelines and publishing interval may remind you of the Horizon Report, the methodology for gathering the trends is different.
The NMC Horizon Team uses a modified Delphi survey approach with a panel of experts.
10 Innovative Pedagogy Trends from the 2015 Edition:
Crossover Learning: recognition of diverse, informal achievements with badges.
Learning through Argumentation: To fully understand scientific ideas and effectively participate in public debates students should practice the kinds of inquiry and communication processes that scientists use, and pursue questions without known answers, rather than reproducing facts.
Incidental Learning: A subset of informal learning, incidental learning occurs through unstructured exploration, play and discovery. Mobile technologies can support incidental learning. An example is the app and website Ispot Nature.
Context-based Learning:Mobile applications and augmented reality can enrich the learners’ context. An example is the open source mobile game platform ARIS.
Computational Thinking: The skills that programmers apply to analyze and solve problems are seen as an emerging trend . An example is the programming environment SCRATCH.
Learning by Doing Science with Remote Labs: A collection of accessible labs is ilab
Embodied learning:involving the body is essential for some forms of learning, how physical activities can influence cognitive processes.
Adaptive Teaching:intelligent tutoring systems – computer applications that analyse data from learning activities to provide learners with relevant content and sequence learning activities based on prior knowledge.
Analytics of Emotions: As techniques for tracking eye movements, emotions and engagement have matured over the past decade, the trend prognoses opportunities for emotionally adaptive learning environments.
Stealth Assessment: In computer games the player’s progress gradually changes the game world, setting increasingly difficult problems through unobtrusive, continuous assessment.
6 Themes of Pedagogical Innovation
Based upon a review of previous editions, the report tries to categorize pedagogical innovation into six overarching themes:
“What started as a small set of basic teaching methods (instruction, discovery, inquiry) has been extended to become a profusion of pedagogies and their interactions. So, to try to restore some order, we have examined the previous reports and identified six overarching themes: scale, connectivity, reflection, extension, embodiment, and personalisation.”
Delivering education at massive scale.
Connecting learners from different nations, cultures and perspectives.
Fostering reflection and contemplation.
Extending traditional teaching methods and settings.
Recognizing embodied learning (explore, create, craft, and construct).
Creating a personalized path through educational content.
Further Reading
Follow these links to blog posts and EdITLib resources to further explore selected trends:
Interested in the Innovating Pedagogy report? Read our review of the 2014 edition, and reflect which trends are closer to becoming common practice.
Males participate more frequently in courses taught by female instructors
Other studies show the opposite
Non traditional students participate more frequently
Instructors’ gender also returns mixed results
Class size as variable is important, smaller classes, more participation
Class participation – grading
Make the students grade themselves at the end of each class period. By making them grade themselves, they reflect and makes them more aware of their contribution.
0 – absent
1 – present but did not verbally participate
2 – verbally participated one time
3 – verbally participated more than once
4 – made an equitable contribution to discussion in terms of both quantity and quality
The well-known and established belief that smaller classes spur more participation.
Jay Howard maintain his sociological research in 20th centuries constants: physical classroom, no technology surrounding.
In the 21st century, clickers changed the opportunity for immediate feedback. They changed also the discourse of the traditional student participation and classroom discussion: https://blog.stcloudstate.edu/ims/?s=clickers&submit=Search
Traditional forms and techniques for discussion and participation
Weih, T. G. (2015). Discussion Strategies for the Inclusion of ALL Students. Online Submission, http://eric.ed.gov/?id=ED561060
Don’ts:
call on student
instructor’s personality issues:
Does the instructor really care of what students have to say
lecturing does not predispose to discussion
The 10 second rule: students discuss in pairs the concept/question
Think-Pair-Share: discussion strategy before or after lesson, similar to 10 second but longer
Quick writes: write their thoughts and then share. Loose paper, names on top,
Recorder-reporter. Post-lecture. The person reps the group, who is working on a specific question. Each group different question.
K-W-L. what we know, what we want to learn, what we learned. Teacher instructs students that K = what they know, W = what they want to learn and L = what they learned. . work in small groups, but each student works on h/er chart, thus if student disagrees with rest of the group, has record. L is left blank for after the discussion.
Simich-Dudgeon, C., & National Clearinghouse for Bilingual Education, W. D. (1998). Classroom Strategies for Encouraging Collaborative Discussion. Directions in Language and Education. http://eric.ed.gov/?id=ED435188
Using storytelling
Chen, W., & Looi, C. (2007). Incorporating Online Discussion in Face to Face Classroom Learning: A New Blended Learning Approach. Australasian Journal Of Educational Technology, 23(3), 307-326. Discussions and participation in hybrid environment
For each OTD topic, the instructor randomly assigns two to four student discussion leaders who are in charge of organizing OTD for the assigned week. Each of the discussion leaders is asked to generate one or two discussion questions related to the topic based on reading assignments. The use of student discussion leaders is a strategy to encourage active participation and help develop ownership of learning. Once student discussion leaders post their questions, other students are encouraged to contribute to the discussion by answering each question, commenting on the ideas of others, or asking questions of peers or the instructor for the next two days. When the week’s discussion is complete, the student leaders and instructor work together to summarize the discussion and evaluate each student’s participation and contribution to the discussion using a scoring rubric. (p.242)
Implementation (p. 243):
preparation : On the first day of the course, the instructor introduces topics, how-tos, expectations, grading procedures, and required reading assignments for OTD, and organizes discussion leaders for each online discussion (2–4 leaders for each)
Opening and Responding: Posted discussion questions become open at the time of the class and students who are not the leaders are required to post at least one response per question within 48 hrs. During this time, the leaders facilitate discussion by responding to comments, raising questions, or redirecting discussion to encourage active participation and ensure the discussion is on track
Summary and Assessment: The job of the leader is to moderate, summarize discussion threads, and assess them at the end of the discussion. When the week’s discussion is complete, the leaders meet with the instructor to debrief and evaluate each student’s participation and contribution to the discussion using a scoring rubric given by the instructor. After the meeting, each leader posts his or her summary of the discussion to BBCMS and reports at the next in-person class.
D2L
Beyond CMS (D2L)
Discussions and participation in online environment
Darabi, A., Liang, X., Suryavanshi, R., & Yurekli, H. (2013). Effectiveness of Online Discussion Strategies: A Meta-Analysis. American Journal Of Distance Education, 27(4), 228-241. doi:10.1080/08923647.2013.837651
Beyond CMS (D2L)
Lin, P., Hou, H., Wang, S., & Chang, K. (2013). Analyzing knowledge dimensions and cognitive process of a project-based online discussion instructional activity using Facebook in an adult and continuing education course. Computers & Education, 60(1), 110-121. doi:10.1016/j.compedu.2012.07.017 http://www.sciencedirect.com/science/article/pii/S0360131512001819
111 results suggest that using Facebook is not necessarily harmful to a student’s learning performance. Adequate learning activity design and pedagogical goal setting could, in fact, exploit the social and information-sharing function of Facebook, thereby supporting academic learning (Gray et al., 2010). this study seeks to advance the understanding of adult learners’ behaviors in online project discussions using Facebook.
In the process of project-based learning, learners must utilize different kinds of knowledge (e.g., discrete declarative knowledge and dynamic procedural knowledge) (Lou, 2004). Meanwhile, students can develop higher level of cognitive skills for a specific domain as well as the ability to apply adequate knowledge to a specific domain or context during PBL (Barron et al., 1998; Blumenfeld et al., 1991).
118 Select driving questions or controversial issues as project topics: Blumenfeld et al. (1991) noted that driving questions could facilitate students to explore the project topic. In the exploration process, students must first collect information and propose diverse viewpoints on the project topics. They could subsequently filter out and reach consensus during online discussions. This process involves diverse and converging phases that can move students toward higher-order thinking (Jorczak & Bart, 2009).
Allow ample time for online discussion: Results of this study indicated that student online discussions lacked diversity in both knowledge and cognitive process dimensions. One possible reason could be that the allotted time for online discussions was not sufficient. Considering the multiple roles that adult learners play in family and/or work, they may not be able to respond to the discussions in a timely manner. Therefore, allowing more time for students to discuss may provide opportunities for students to demonstrate more diverse and deeper thinking (Scherling, 2011).
Provide a structured rubric for online discussions: Well-designed discussion guidelines and evaluation criteria, i.e., posting protocols or rubric for grading, could serve as scaffolds for student online discussions, which may, subsequently, lead to more meaningful learning (Gilbert & Dabbagh, 2005). Following that, more diverse type of knowledge and levels of cognitive process could be expected to be shown.
Pay attention to the effects that individual differences may exert on the learner’s interactions: Our results showed that, in the context of online discussions, females and older learners are more likely to have off-topic discussions than their male and/or younger counterparts. These findings are in accord with previous research that suggested effects of individual differences on learning as well as on the use of SNSs (Glynn et al., 2012; Muscanell & Guadagno, 2012; Price, 2006; Yukselturk & Bulut, 2009). Therefore, considering the potential effects that gender and age may exert on online discussions, instructors are advised to consider individual differences when grouping students for online discussions, as a balanced group composition of evenly distributed age and gender could be a better approach than a skewed distribution of individuals.
social interaction, which was considered as irrelevant discussion, may also leading to meaningful thinking and echoes the viewpoints from previous studies, which suggest social interaction can be a critical element in the CSCL environment (Abedin et al., 2011a, 2011b).
Incorporating online discussion in face to face classroom learning: A new blended learning approach
Wenli Chen, Chee-Kit Looi
Abstract
This paper discusses an innovative blended learning strategy which incorporates online discussion in both in-class face to face, and off-classroom settings. Online discussion in a face to face class is compared with its two counterparts, off-class online discussion as well as in-class, face to face oral discussion, to examine the advantages and disadvantages of the proposed strategy. By integrating online discussion into the flow of the classroom, learners are given dedicated time to foster a habit of critical thinking, reflection and articulating these online, which can subsequently seed further in-class oral discussions, and off-class online discussions. It is found that in-class, online discussion can provide a wider spectrum of discussion perspectives, equalise participation in discussion, and promote cognitive thinking skills and in depth information processing. However, the lack of face to face interactions and the need for sufficient time to do online postings pose challenges in implementing online discussion for face to face classroom learning.
Eales-Reynolds, L., Gillham, D., Grech, C., Clarke, C., & Cornell, J. (2012). A study of the development of critical thinking skills using an innovative web 2.0 tool. Nurse Education Today, 32(7), 752-756. doi:10.1016/j.nedt.2012.05.017
finding ways to capture meaningful informal learning experiences by explicitly linking these to formal structures, and providing frameworks within which informal learning can then be validated and accredited (Cedefop Report 2007).
Education is clearly a social process but it is probably much closer to an ongoing discussion or debate than an extended celebration with an ever-expanding network of friends (p. 179, Ravenscroft et al.)
the community of inquiry (COI) model developed by Garrison and Anderson (2003) and social network analysis (SNA). European Commission-funded integrated
project called MATURE (Continuous Social Learning in Knowledge Networks), which is investigating how technology-mediated informal learning leads to improved knowledge practices in the digital workplace
Key to using socialmedia is the ability to stand back and evaluate the credibility of a source of information, apart from the actual content. While developing this critical attitude toward traditional media is important, the attitude is even more crucial in the context of using socialmedia because information didn’t go through the vetting process of formal publication. Can the student corroborate the information from multiple sources? How recent is this information? Are the author’s credentials appropriate? In other words, the ability to step back, to become aware of the metatext or metacontext is more important than ever.
Coad, D. T. (2013). Developing Critical Literacy and Critical Thinking through Facebook. Kairos: A Journal Of Rhetoric, Technology, And Pedagogy, 18(1).
Many instructors believe that writing on social networking sites undermines the rhetorical skills students learn in class because of the slang and abbreviations often used on these sites; such instructors may believe that social networks are the end of students’ critical awareness when they communicate. Johndan Johnson-Eilola and Stuart A. Selber (2009) contended that electronic writing forms actually require “sophisticated skills of understanding concrete rhetorical situations, analyzing audiences (and their goals and inclinations), and constructing concise, information-laden texts, as a part of a dynamic, unfolding, social process” (p. 18). It is this dynamic process that makes social networking a perfect match for the composition classroom and for teaching rhetorical skills: It helps students see how communication works in real, live rhetorical situations. Many students do not believe that communication in these media requires any kind of valuable literacy skills because they buy into the myth of how the news media portray social networks as valueless forms of communication that are decaying young people’s minds. This is why I introduced students to the passage from Invisible Man: to get them thinking about what kinds of skills they learn on Facebook. I found the text useful for helping them acknowledge the skills they are building in these writing spaces.
Stuart A. Selber (2004) in Multiliteracies for a Digital Age criticized so-called computer literacy classes for having “focused primarily on data representations, numbering systems, operating systems, file formats, and hardware and software components” rather than on the task of teaching students to be “informed questioners of technology” (p. 74). In a time when, as Sheelah M. Sweeny (2010) noted, “the ability to stay connected with others is constant,” it is increasingly important to engage composition students in critical thinking about the spaces they write in (p. 121). It is becoming clearer, as technology giants such as Google® and Apple® introduce new technologies, that critical literacy and critical thinking about technology are necessary for our students’ futures.
Valentini, C. (2015). Is using social media “good” for the public relations profession? A critical reflection. Public Relations Review, 41(2), 170-177. doi:10.1016/j.pubrev.2014.11.009
p. 172 there is no doubt that digital technologies and social media have contributed to a major alteration in people’s interpersonal communications and relational practices. Inter- personal communications have substantially altered, at least in Western and developed countries, as a result of the culture of increased connectivity that has emerged from social media’s engineering sociality ( van Dijck, 2013 ), which allows anyone to be online and to connect to others. Physical presence is no longer a precondition for interpersonal communication.
(Jiping) The Pew Research Center ( Smith & Duggan, 2013 , October 21) indicates that one in every ten American adults has used an online dating site or mobile dating app to seek a partner, and that in the last eight years the proportion of Americans who say that they met their current partner online has doubled. Another study conducted by the same organization ( Lenhart & Duggan, 2014 , February 11) shows that 25% of married or partnered adults who text, have texted their partner while they were both home together, that 21% of cell-phone owners or internet users in a committed relationship have felt closer to their spouse or partner because of exchanges they had online or via text message. Another 9% of adults have resolved online or by text message an argument with their partner that they were having difficulty resolving person to person ( Lenhart & Duggan, 2014 , February 11). These results indicate that digital technologies are not simply tools that facilitate communications: they have a substantial impact on the way humans interact and relate to one another. In other words, they affect the dynamics of interpersonal relations
Experience explore expand. Adventure based how to collaborate in ways we have not collaborated before pedagogical guidelines internet driven
Instructor – content – design
Today: first think is design, content, instructor. So how do we design learning environments is the most important one
Guide learners as designers. Constructivism. Design for meaning. Through the power of the story.
Geotetic design a learning environment learn geography using GIS
Situated movies (student-centered learning)
Grant Earthducation go to the most remote parts of the world to align their education with their culture, instead of what the government is downing as culture
Use of phone: whoever answers instructor’s question first, gets to pose the next question to the rest of the audience.
Design based research
Self-narrative, referencing the experience real world issues in real time
the U Media Lab.
The Changing Earth. App GoX (instagram on steroids. tell their story through the app). How is this different from Google Earth
Raptor Lab (rehabilitate a raptor).
podcast pontification (audio version of blog self reflections)
Greg Steinke The U
A Digital Story Assignment using WeVideo
WeVideo is the Google response to iMovie cloud
The U is on Google email and thus google drive and all other google tools
The Center for Digital Storytelling. short videos, 3-5 min incorporate photographs with the author narration, reflection
Assignment (verbal directions). process (write a 2 page script, every page is about a minute of video), gather images that support the story; edit the script (rewrite); record audio to the script (use an app on the phone instead of WeVideo), WeVideo can edit the audio recording; edit the story, edit the photos to match the story; YourTube and/or Google+
working with faculty: is the digital story a good fit for your course? two questions: does the course have many writing assignments? does everyone have to do the same type of assignment? do you want to offer choices? do you want your students to share their work outside of the class? to you want to explore opportunities for students to develop 21 century skills?
google communities for sharing
wewideo has a tutorial at Center for Digital Storytelling
students can use the digital story for their eportfolio
the entire exercise is entirely based on mobile devices
time frame: scaffolding options
3d printing products were the tangible result of the project and the digital storytelling just the format to present
Google Drive master folder for the phone images and video; iOS apps: MoviePro, FiLMc Pro, VoiceRecord Pro (including mp3); Android: WeVideo
Storyboard template
Faculty Development Programs: Digital Storytelling Community of Practice
chemistry professor. 3D printing with different materials.
what else can be made (e.g. reaction vessel)
printing of atoms
crystalography dbase
Karen: pre-service teachers professor: how to use 3d printers and be comfortable with them. Steve Hoover. Thinkercad and Autodesk123D>
3D academy http://www.team3dacademy.com/index2.html. Pinterest board for3d Printing with resources
Lisa: graphic design. not intuitive. Rhinoceros (not free anymore). 123D strong learning curve. 3d printing will be incorporated in the curriculum. sculpture students and others don’t like fudging on the computer, but Adobe people love it. Some items takes up to 4 hours to print out. when working on the computer is difficult for some students to visualize the dimensionality.
collaborative learning opportunities.
no makerspace or fab lab. additional interest from the theater and business dept. 3d printing is connected to future work skills. new media ecology or media literacy set of skills.
the main presenter: build excitement and interest and gradually step back. how much material goes through and should we charge back. clean and maintenance involved; not too bad. better then a copier. plastic inexpensive. sizes with plastic – $25 and $50. how many project of a spool: depending on the size of the projects but considerable amount. two printers one art dept and one in the faculty dev area.
non profit visually impaired students. how 3d can make difference in special ed.
3d printing lab with access for everybody. ownership brings policy. where housed: neutral place.
only one printer is barely sufficient for faculty to figure out how to use it. purchasing two more if students and curricula to be involved.
The Balancing Act: Team-Creating an eBook as an Alternative Method for Content Delivery Tom Nechodomu, University of Minnesota
Susan Andre uses a slide titled “trust” to elucidate how the entire project was enabled. “trust” and “transparency” are sparse currency in the environment I work in. if she is right an ebook ain’t happening anytime soon at my place.
inclining habitat.
students involvement. use stipends. student artists. food for the video interviews. create a community, student centered.
people able to change the book.
copyright process; did you find it cumbersome. copyright permission center.
time span and amount of hours spent: 3-4 months per chapter.
Main speaker
David Wiley. Making Teaching and Learning Awesome with Open
MN Learning Commons
open educational resources
LUMEN
education – sharing feedback, encouragement with students passion about the discipline, yourself
open is not the same as free. free + permissions + copyright permission: 5 r = retain (make and own copies), reuse (use in a wide range of ways), revise (adapt, modify, and improve), remix (combine two or more), redistribute (share with others)
open:
free and unfettered access
perpetual, irrevocable copyright permissions
(look but don’t touch is not open)
tech enables OER permits
traditionally copyright materials on the Internet – not so good ; jet on the road
openly copyright materials on the internet _ yes: jet in the air
permission-less innovation. relatively inexpensive and broad permissions.
intellectual infrastructure of education: learning outcomes/objectives; assessments; textbooks. they are relatively expensive and narrow permissions.
so what?
open education infrastructure: open outcomes, objectives, activities, educational resources
the culture of glued legos must be eradicated. open pedagogy. open credentialing model
7th Qualitative and Quantitative Methods in Libraries International Conference (QQML2015) 26-29 May 2015, IUT-Descartes University, Paris, France
Dear Colleagues and Friends,
It is our pleasure to invite you in Paris (IUT-Descartes University) for the 7th Qualitative and Quantitative Methods in Libraries International Conference (QQML2015, http://www.isast.org) which is organized under the umbrella of ISAST (International Society for the Advancement of Science and Technology).
This is the seventh year of the conference which brings together different disciplines on library and information science; it is a multi–disciplinary conference that covers the Library and Information Science topics in conjunction to other disciplines (e.g. innovation and economics, management and marketing, statistics and data analysis, information technology, human resources, museums, archives, special librarianship, etc).
The conference invites special and contributed sessions, oral communications, workshops and posters.
Target Group
The target group and the audience are library and archives professionals in a more general sense: professors, researchers, students, administrators, stakeholders, librarians, technologists, museum scientists, archivists, decision makers and managers.
Main topics
The emphasis is given to the models and the initiatives that run under the budget restrictions, such as the Information Management and the innovation, the crisis management, the long-term access, the synergies and partnership, the open access movement and technological development.
The conference will consider, but not be limited to, the following indicative themes:
1.Information and Knowledge Management
2.Synergies, Organizational Models and Information Systems
3.Open Data, Open Access, Analysis and Applications
You may send proposals for Special Sessions (4-6 papers) or Workshops (more than 2 sessions) including the title and a brief description at:secretar@isast.org or from the electronic submission at the web page: http://www.isast.org/abstractsubmission.html
You may also send Abstracts/Papers to be included in the proposed sessions, to new sessions or as contributed papers at the web page: http://www.isast.org/abstractsubmission.html
Contributions may be realized through one of the following ways
a. structured abstracts (not exceeding 500 words) and presentation;
b. full papers (not exceeding 7,000 words);
c. posters (not exceeding 2,500 words);
In all the above cases at least one of the authors ought to be registered in the conference.
Abstracts and full papers should be submitted electronically within the timetable provided in the web page: http://www.isast.org/.
The abstracts and full papers should be in compliance to the author guidelines: http://www.isast.org/
All abstracts will be published in the Conference Book of Abstracts and in the website of the Conference. The papers of the conference will be published in the website of the conference, after the permission of the author(s).
Student submissions
Professors and Supervisors are encouraged to organize conference sessions of Postgraduate theses and dissertations.
Please direct any questions regarding the QQML 2015 Conference and Student Research Presentations to: the secretariat of the conference at: secretar@isast.org
Important dates:
First call of proposals: 29th of September 2014
Deadline of abstracts submitted: 20 December 2014
Reviewer’s response: in 3 weeks after submission
Early registration: 30th of March 2015
Paper and Presentation Slides: 1st of May 2015
Conference dates: 26-29 May 2015
Paper contributors have the opportunity to be published in the QQML e- Journal, which continues to retain the right of first choice, however in addition they have the chance to be published in other scientific journals.
QQML e- Journalis included in EBSCOhost and DOAJ (Directory of Open Access Journals).
Submissions of abstracts to special or contributed sessions could be sent directly to the conference secretariat at secretar@isast.org. Please refer to the Session Number, as they are referred at the conference website to help the secretariat to classify the submissions.
For more information and Abstract/Paper submission and Special Session Proposals please visit the conference website at: http://www.isast.orgor contact the secretary of the conference at : secretar@isast.org
Looking forward to welcoming you in Paris,
With our best regards,
On behalf of the Conference Committee
Dr. Anthi Katsirikou, Conference Co-Chair
University of Piraeus Library Director
Head, European Documentation Center
Board Member of the Greek Association of Librarians and Information Professionals
Baron, S., Richardson, B., Earles, D., & Khogeer, Y. (2011). Harketing academics and practitioners: Towards togetherness. Journal Of Customer Behaviour, 10(3), 291-304. http://login.libproxy.stcloudstate.edu/login?qurl=http%3a%2f%2fsearch.ebscohost.com%2flogin.aspx%3fdirect%3dtrue%26db%3dbuh%26AN%3d70255915%26site%3deds-live%26scope%3dsite
The discussion points to the need for new ways of making academic research accessible if it is to have a greater impact on practice. Accessibility should not be at the expense of normal, academic rigour. It could take various forms such as new submission categories for journal. articles, the development of new blogging communities, and other means of fostering the practitioner/academic dialogue. The paper concludes by requesting the engagement of the entire marketing community to participate in a new discussion group onLinkedIn that has been specifically set up to foster dialogue and encourage progress
Paul, J., Baker, H. M., & Cochran, J. (2012). Effect of online social networking on student academic performance.Computers In Human Behavior, 28(6), 2117-2127. doi:10.1016/j.chb.2012.06.016 http://login.libproxy.stcloudstate.edu/login?qurl=http%3a%2f%2fsearch.ebscohost.com%2flogin.aspx%3fdirect%3dtrue%26db%3dkeh%26AN%3d79561025%26site%3deds-live%26scope%3dsite
#SocialMedia and students place a higher value on the technologies their instructors use effectively in the classroom. a negative impact of social media usage on academic performance. rather CONSERVATIVE conclusions.
Students should be made aware of the detrimental impact of online social networking on their potential academic performance. In addition to recommending changes in social networking related behavior based on our study results, findings with regard to relationships between academic performance and factors such as academic competence, time management skills, attention span, etc., suggest the need for academic institutions and faculty to put adequate emphasis on improving the student’s ability to manage time efficiently and to develop better study strategies. This could be achieved via workshops and seminars that familiarize and train students to use new and intuitive tools such as online calendars, reminders, etc. For example, online calendars are accessible in many devices and can be setup to send a text message or email reminder of events or due dates. There are also online applications that can help students organize assignments and task on a day-to-day basis. Further, such workshops could be a requirement of admission to academic programs. In the light of our results on relationship between attention span and academic performance, instructors could use mandatory policies disallowing use of phones and computers unless required for course purposes. My note: I completely disagree with the this decision: it can be argued that instructors must make their content delivery more engaging and thus, electronic devices will not be used for distraction.
Beech, M. (2014). Key Issue – How to share and discuss your research successfully online. Insights: The UKSG Journal, 27(1), 92-95. doi:10.1629/2048-7754.142 http://login.libproxy.stcloudstate.edu/login?qurl=http%3a%2f%2fsearch.ebscohost.com%2flogin.aspx%3fdirect%3dtrue%26db%3dlxh%26AN%3d94772771%26site%3deds-live%26scope%3dsite
the dissemination of academic research over the internet and presents five tenets to engage the audience online. It comments on targeting an audience for the research and suggests the online social networks Twitter,LinkedIn, and ResearchGate as venues. It talks about the need to relate work with the target audience and examines the use of storytelling and blogs. It mentions engaging in online discussions and talks about open access research
Peer reviewed (please consider LRS online dbase to retrieve):
Westera, W., De Bakker, G., & Wagemans, L. (2009). Self-arrangement of fleeting student pairs: a Web 2.0 approach for peer tutoring. Interactive Learning Environments, 17(4), 341-349. doi:10.1080/10494820903195249
Interesting conference proceedings:
Gaofeng, R., & Yeyu, L. (2007). An Online Peer Assisted Learning Community Model and its Application in ZJNU.Online Submission,
A model to consider, if you have a higher ed instution in the vicinity and replace freshman students with K12 ones. I like how the authors further classified the tutors into 3 categories:
De Smet, M., Van Keer, H., & Valcke, M. (2008). Blending asynchronous discussion groups and peer tutoring in higher education: An exploratory study of online peer tutoring behaviour. Computers & Education, 50207-223. doi:10.1016/j.compedu.2006.05.001
This is the foundation, which the startup companies from Sillicon Valley are using to make money:
Hsiao, Y. P., Brouns, F., Kester, L., & Sloep, P. (2013). Cognitive load and knowledge sharing in Learning Networks. Interactive Learning Environments, 21(1), 89-100. doi:10.1080/10494820.2010.548068
this is old, but you can take the concepts and apply them right toward your research of using CAI
Dewey, D. P., & Cannon, A. E. (2006). Supporting technology instruction through peer tutoring, discussion boards and electronic journals. IALLT Journal Of Language Learning Technologies, 38(2), 17.
this one goes towad
Mengping, T. (2014). Mathematics Synchronous Peer Tutoring System for Students with Learning Disabilities.Journal Of Educational Technology & Society, 17(1), 115-127.
Tsuei, M. (2012). Using Synchronous Peer Tutoring System to Promote Elementary Students’ Learning in Mathematics. Computers & Education, 58(4), 1171-1182.
I am currently preparing for next semester. A learner response system allows the instructor (or presenting students) to easily interact with a large audience by posing questions or problem statements, and then collecting all responses which can be shown in real-time on the projection screen. In particular, a BYOD (Bring Your Own Device) system is one that only needs software (such as Learning Catalytics) and runs on any smartphone or tablet with internet access, which the students already have.
So far, I have not found a free learner response system (or “clicker”). I like the features of Learning Catalytics, but it’s difficult to convince students or the department to spend that much money (12$ per student). Also, the professor (and I also) categorically dislike any non-free solutions (many of us in Computer-Science are big fans of open-source, especially when it comes to the essentials, such as education).
Please note: This might not seem much to American education, but it is in most other countries, especially when that’s the price of a text book and even enrollment. After all, education should ideally be free (feel free to argue with me privately if you disagree).