Searching for "instructional design"

accessible presentations

Creating Accessible Presentations

https://zoom.us/recording/play/bKfNFjMFeIUbTqEBnm48c-WK9zHMq07ba1bK3ZFlNcZvHxOmt2Ni6s-fHzziJkyD?continueMode=true

https://docs.google.com/presentation/d/1ffmjKvRp_f3V4n2tyW31CqzyUpK6i5qPDvWWSSy_e9Y/edit

This webinar for all 2018 LITA Forum presenters was a conversation about creating accessible presentations! Our speaker, Carli Spina, presented and offered guidance on accessibility and design. She explained how to design presentation materials that are accessible, including providing demonstrations of the accessibility features of popular presentation softwares, and how to ensure that your presentation is accessible for all of your audience members.
Carli Spina is an Associate Professor and the Head of Research & Instructional Services at the Fashion Institute of Technology. She holds a J.D. from the University of Chicago Law School, an MLIS from Simmons GSLIS, and an M.Ed. from the Harvard Graduate School of Education. She has extensive experience working, writing, and presenting on topics related to accessibility and Universal Design and has served as a coordinator for services to patrons with disabilities. She was the inaugural chair of LITA’s Diversity and Inclusion Committee and has also served as the leader of the ASCLA Library Services to People with Visual or Physical Disabilities that Prevent Them from Reading Standard Print Interest Group. She regularly teaches courses, workshops, and webinars on topics related to accessibility, Universal Design and technology. You can contact her on Twitter where she is @CarliSpina.
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ID2ID
Kelly Hermann, VP, Accessibility Strategy, U of Phoenix

Accessibility: Fact or Fiction

https://zoom.us/recording/play/b9UwVmiVPiADj3X1pTQGn7P5_tZ7_-VFPCiea351YpQUbk4sJKXWdotVDC4-nHwd?startTime=1540393266000

PowerPoint available in the Canvas course:

  • The vendor told me the product was ADA compliant so I don’t need to worry about this one.

There is not such think as ADA compliant when it comes up to educational technology or online environment

  • Every piece of content I want to share with students has to be accessible or I can’t use it.
  • I should develop my content first and then worry about accessibility.
  • My institution just bought (insert whatever accessibility tool’s name
    here). We’re all set and I don’t have to worry about accessibility anymore.
  • Access is an institutional responsibility and everyone has a role to play in removing  barriers.
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Chat messages from the presentation:
Amara
Office 2016 and O365 have accessibility checkers for Word, PPT, Excel
Vendors for automatic video transcription: Panopo

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Accessing Higher Ground, Accessible Media, Web and Technology Conference

November 12-16, 2018, Westin Westminster, Colorado and Virtual Conference 2018

Virtual Conference 2018

Virtual Reality in the Classroom

Virtual Reality in the Classroom

https://edex.adobe.com/en/pd/course/2virtualreality18

About this course

Explore the principles of designing virtual reality (VR) content and how to use Adobe creative tools to create impactful VR experiences. Then learn how to apply your new digital skills to integrate VR projects into your curriculum.

Designing VR content encourages students to express their ideas through an engaging and innovative digital format. VR projects can be used effectively in all subject areas, allowing students to improve their communication skills and digital literacy while learning key content objectives.

What will I learn?

  • How using virtual reality projects in your curriculum can produce positive outcomes for you and your students
  • Best practices and principles for creating amazing virtual reality experiences
  • The technical skills to create your own virtual reality with Adobe tools (with support from expert digital media educators)
  • How to apply your new skills to integrate virtual reality projects into your curriculum
  • Collaborate with educators from around the world

Who is this course for?

This course is aimed at all educators working in primary, secondary or higher education. No prior experience with Adobe tools or digital media technologies is required.

How long is the course?

The course runs for two weeks, starting on 1st October 2018, and should take about 10 hours to complete. All coursework must be submitted by 26th October 2018.

What will it cost?

Enrollment and course completion certificate are FREE!

What software/technology will I need?

What will I receive when the course ends?

After successfully completing this course, you will receive a digital badge and course certificate that states that you have completed 10 hours of professional development.

About Adobe Education Exchange Courses

Each week of an Education Exchange collaborative course includes:

  • Design and instructional theory content, innovative and tailored for educators
  • Interactive live class session taught by expert educators and featuring guest industry experts
  • Hands-on creative assignment with personalized feedback from instructors and other educators
  • Reflective learning journal best practice
  • Community collaboration and discussion

Live Class Information

This course will include two live classes, which take place on the following days:

  • Class 1 on Wednesday October 3rd, 2018
  • Class 2 on Wednesday October 10th, 2018

Each class will take place three times; once in each of the following time zones:

  • AEST/AEDT (Sydney) from 7pm – 8pm
  • BST (London) from 7pm – 8pm
  • CDT (Chicago) from 7pm – 8pm

If you can’t make the live classes for whatever reason, don’t worry – all three iterations of each live class will be recorded and available to view here.

multi-user reference support experiences

https://www.emeraldinsight.com/eprint/AU2Q4SJGYQG5YTQ5A9RU/full

Hahn, J. (2018). Virtual reality learning environments | Development of multi-user reference support experiences | Information and Learning Science | Ahead of Print. EmeraldInsight. Retrieved from https://www.emeraldinsight.com/eprint/AU2Q4SJGYQG5YTQ5A9RU/full
case study: an undergraduate senior projects computer science course collaboration whose aim was to develop textual browsing experiences, among other library reference functionality, within the HTC Vive virtual reality (VR) headset. In this case study, readers are introduced to applied uses of VR in service to library-based learning through the research and development of a VR reading room app with multi-user support. Within the VR reading room prototype, users are able to collaboratively explore the digital collections of HathiTrust, highlight text for further searching and discovery and receive consultative research support from a reference specialist through VR.
Library staff met with the project team weekly over the 16 weeks of both semesters to first scope out the functionality of the system and vet requirements.
The library research team further hypothesized that incorporating reference-like support in the VR environment can support library learning. There is ample evidence in the library literature which underscores the importance of reference interactions as learning and instructional experiences for university students
Educational benefits to immersive worlds include offering a deeper presence in engagement with rare or non-accessible artifacts. Sequeira and Morgado (2013, p. 2) describe their Virtual Archeology project as using “a blend of techniques and methods employed by historians and archaeologists using computer models for visualizing cultural artefacts and heritage sites”.
The higher-end graphics cards include devices such as the NVIDIA GeForceTM GTX 1060 or AMD RadeonTM RX 480, equivalent or better. The desktop system that was built for this project used the GeForce GTX 1070, which was slightly above the required minimum specifications.

Collaboration: Library as client.

Specific to this course collaboration, computer science students in their final year of study are given the option of several client projects on which to work. The Undergraduate Library has been a collaborator with senior computer science course projects for several years, beginning in 2012-2013 with mobile application design and chat reference software re-engineering (Hahn, 2015). (My note: Mark Gill, this is where and how Mehdi Mekni, you and I can collaborate)

The hurdles the students had the most trouble with was code integration – e.g. combining various individual software parts towards the end of the semester. The students also were challenged by the public HathiTrust APIs, as the system was developed to call the HathiTrust APIs from within the Unity programming environment and developing API calls in C#. This was a novel use of the HathiTrust search APIs for the students and a new area for the research team as well.

There are alternatives to Unity C# programming, notably WebVR, an open source specification for VR programming on the open web.

A-Frame has seen maturation as a platform agnostic and device agnostic software programming environment. The WebVR webpage notes that the specification supports HTC Vive, Oculus Rift, Samsung Gear VR, Google Daydream and Google Cardboard (WebVR Rocks, 2018). Open web platforms are consistent with library values and educational goals of sharing work that can be foundational in implementing VR learning experience both in VR environments and shareable on the web, too.

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more on VR in libraries in this IMS blog
https://blog.stcloudstate.edu/ims?s=virtual+reality+library

gamification and learning

Student Perceptions of Learning and Instructional Effectiveness in College Courses

https://www.ets.org/Media/Products/perceptions.pdf

Students’ Perception of Gamification in Learning and Education.

https://link.springer.com/chapter/10.1007%2F978-3-319-47283-6_6

College students’ perceptions of pleasure in learning – Designing gameful gamification in education

investigate behavioral and psychological metrics that could affect learner perceptions of technology

today’s learners spend extensive time and effort posting and commenting in social media and playing video games

Creating pleasurable learning experiences for learners can improve learner engagement.

uses game-design elements in non-gaming environments with the purpose of motivating users to behave in a certain direction (Deterding et al., 2011)

How can we facilitate the gamefulness of gamification?

Most gamified activities include three basic parts: “goal-focused activity, reward mechanisms, and progress tracking” (Glover, 2013, p. 2000).

gamification works similarly to the instructional methods in education – clear learning and teaching objectives, meaningful learning activities, and assessment methods that are aligned with the objectives

the design of seven game elements:

  • Storytelling: It provides the rules of the gamified activities. A good gamified activity should have a clear and simple storyboard to direct learners to achieve the goals. This game-design element works like the guidelines and directions of an instructional activity in class.
  • Levels: A gamified activity usually consists of different levels for learners to advance through. At each level, learners will face different challenges. These levels and challenges can be viewed as the specific learning objectives/competencies for learners to accomplish.
  • Points: Points pertain to the progress-tracking element because learners can gain points when they complete the quests.
  • Leaderboard: This element provides a reward mechanism that shows which learners are leading in the gamified activities. This element is very controversial when gamification is used in educational contexts because some empirical evidence shows that a leaderboard is effective only for users who are aggressive and hardcore players (Hamari, Koivisto, & Sarsa, 2014).
  • Badges: These serve as milestones to resemble the rewards that learners have achieved when they complete certain quests. This element works as the extrinsic motivation for learners (Kapp, 2012).
  • Feedback: A well-designed gamification interface should provide learners with timely feedback in order to help them to stay on the right track.
  • Progress: A progress-tracking bar should appear in the learner profile to remind learners of how many quests remain and how many quests they have completed.

Dominguez et al. (2013) suggested that gamification fosters high-order thinking, such as problem-solving skills, rather than factual knowledge. Critical thinking, which is commonly assessed in social science majors, is also a form of higher-order thinking.

Davis (1989) developed technology acceptance model (TAM) to help people understand how users perceive technologies. Pleasure, arousal, and dominance (PAD) emotional-state model that developed by Mehrabian (1995) is one of the fundamental design frameworks for scale development in understanding user perceptions of user-system interactions.

Technology Acceptance Model from Damian T. Gordon

Introduction of the basic emotional impact of environments from Sekine masato

Van der Heijdedn (2004) asserted that pleasurable experiences encouraged users to use the system for a longer period of time
Self-determination theory (Deci & Ryan, 1985) has been integrated into the design of gamification and addressed the balance between learners’ extrinsic and intrinsic motivation.

Self determination theory from Jeannie Maraya
Ryan and Deci (2000) concluded that extrinsic rewards might suppress learners’ intrinsic motivation. Exploiting the playfulness and gamefulness in gamification, therefore, becomes extremely important, as it would employ the most effective approaches to engage learners.
Sweetser and Wyeth (2005) developed GameFlow as an evaluation model to measure player enjoyment in games
Fu, Su, and Yu (2009) adapted this scale to EGameFlow in order to measure college students’ enjoyment of e-learning games. EGameFlow is a multidimensional scale that consists of self-evaluated emotions.

Gamification and Flow from Martin Sillaots
Eppmann, Bekk, and Klein (2018) developed gameful experience scale (GAMEX) to measure gameful experiences for gamification contexts. one of the limitations of GAMEX to be used in education is that its effects on learning outcome has not been studied
the Big Five Model, which has been proposed as trait theory by McCrae & Costa (1989) and is widely accepted in the field, to measure the linkages between the game mechanics in gamification and the influences of different personality traits.

The Big Five Personality Model from Devina Srivastava

Storytelling in the subscale of Preferences for Instruction emphasizes the rules of the gamified learning environments, such as the syllabus of the course, the rubrics for the assignments, and the directions for tasks. Storytelling in the subscale of Preferences for Instructors’ Teaching Style focuses on the ways in which instructors present the content. For example, instructors could use multimedia resources to present their instructional materials. Storytelling in the subscale of Preferences for Learning Effectiveness emphasizes scaffolding materials for the learners, such as providing background information for newly introduced topics.

The effective use of badges would include three main elements: signifier, completion logic, and rewards (Hamari & Eranti, 2011). A useful badge needs clear goal-setting and prompt feedback. Therefore, badges correlate closely with the design of storytelling (rules) and feedback, which are the key game design elements in the subscale of Preferences for Instruction.

Students can use Google to search on their laptops or tablets in class when instructors introduce new concepts. By reading the reviews and viewing the numbers of “thumbs-up” (agreements by other users), students are able to select the best answers. Today’s learners also “tweet” on social media to share educational videos and news with their classmates and instructors. Well-designed gamified learning environments could increase pleasure in learning by allowing students to use familiar computing experiences in learning environments.

 

video length for online courses

From: The EDUCAUSE Blended and Online Learning Constituent Group Listserv <BLEND-ONLINE@LISTSERV.EDUCAUSE.EDU> on behalf of Robert, Jenay <jrr296@PSU.EDU>
Sent: Wednesday, September 5, 2018 9:58:49 AM

Dear colleagues,

I am collaborating on a project comparing the efficacy of two types of instructional videos. We are looking for literature that describes similar research. For example, a study might compare students who have watched voice-over ppt slides and students who have watched Khan-style videos, examining students’ content knowledge and/or some affective constructs. Alternatively, a study might compare the lengths or speeds of only one type of video.

Given the dearth of literature addressing these variables, I am hoping this community can help us uncover some additional research for our literature review. I am happy to compile and share everything that is shared with me over the coming days.

Jenay Robert, Ph.D. Research Project Manager Teaching and Learning with Technology  The Pennsylvania State University

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Clossen, A. S. (2018). Trope or Trap? Roleplaying Narratives and Length in Instructional Video. Information Technology & Libraries37(1), 27-38.

It is impossible to please everyone all the time—at least that is what survey results suggest. There are several takeaways to this study: Video length matters, especially as a consideration before the video is viewed. Timestamps should be included in video creation, or it is highly likely that the video will not be viewed. The video player is key here, as some video players include video length, while others do not. Videos that exceed four minutes are unlikely to be viewed unless they are required. Voice quality in narration matters. Although preference in type of voice inevitably varies, the actor’s voice is noticed over production value. It is important that the narrator speaks evenly and clearly. For brief how-to videos, there is a small preference for screencast instructional videos over a narrative roleplay scenario. The results of the survey indicate that roleplay videos should be wellproduced, brief, and high quality. However, what constitutes high quality is not very well established.15 Finally, screencast videos should include an example scenario, however brief, to ground the viewer in the task.

Lin, S., Aiken, J. M., Seaton, D. T., Douglas, S. S., Greco, E. F., Thoms, B. D., & Schatz, M. F. (2017). Exploring Physics Students’ Engagement with Online Instructional Videos in an Introductory Mechanics Course. Physical Review Physics Education Research13(2), 020138-1.

Kruse, N. B., & Veblen, K. K. (2012). Music teaching and learning online: Considering YouTube instructional videos. Journal Of Music, Technology & Education5(1), 77-87. doi:10.1386/jmte.5.1.77_1

Buzzetto-More, N. A. (2014). An Examination of Undergraduate Student’s Perceptions and Predilections of the Use of YouTube in the Teaching and Learning Process. Interdisciplinary Journal Of E-Learning & Learning Objects1017-32.

Chekuri, C., & Tiecheng, L. (2007). Extracting content from instructional videos by statistical modelling and classification. Pattern Analysis & Applications10(2), 69-81.

My note; too old as data but interesting as methodology

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more on chunk theory in this IMS blog
https://blog.stcloudstate.edu/ims?s=chunk+theory

specifically Adobe’s “findings” : https://blog.stcloudstate.edu/ims/2018/01/17/microlearning-instructional-design/

Open Learning Open University

Open Learning, Educational Media: An Interview with Theo Bastiaens, Newly Appointed Rector Magnificus of Open University and Chair of AACE Edmedia Conference

Open Learning, Educational Media: An Interview with Theo Bastiaens, Newly Appointed Rector Magnificus of Open University and Chair of AACE Edmedia Conference

Since the Open University was founded in 1984, more than 250,000 students have enrolled in courses. The Open University offers courses of study at the bachelor’s and master’s degree levels in cultural studies, education science, law, management, psychology, science and technology. Five of its master’s degree programs were top-ranked in 2017

4CID ID Model  https://edutechwiki.unige.ch/en/4C-ID

http://www.nwlink.com/~donclark/hrd/learning/id/4c_id.html

  1. Learning Tasks — concrete, authentic, whole task experiences that are provided to learners in order to promote schema construction for non-recurrent aspects and, to a certain degree, rule automation by compilation for recurrent aspects. Instructional methods primarily aim at induction, that is, constructing schemata through mindful abstraction from the concrete experiences that are provided by the learning tasks. Design steps:
    • Design learning tasks
    • Sequence task practice
    • Set performance objectives
  2. Supportive Information — information that is supportive to the learning and performance of non-recurrent aspects of learning tasks. It provides the bridge between learners’ prior knowledge and the learning tasks. Instructional methods primarily aim at elaboration, that is, embellishing schemata by establishing nonarbitrary relationships between new elements and what learners already know. Design steps:
    • Design supportive information
    • Analyze cognitive strategies
    • Analyze mental models
  3. JIT Information — information that is prerequisite to the learning and performance of recurrent aspects of learning tasks. Instructional methods primarily aim at compilation through restricted encoding, that is, embedding procedural information in rules. JIT information is not only relevant to learning tasks but also to Part-time practice. Design steps:
    • Design procedural information
    • Analyze cognitive rules
    • Analyze prerequisite knowledge
  4. Part-task Practice — practice items that are provided to learners in order to promote rule automation for selected recurrent aspects of the whole complex skill. Instructional methods primarily aim at rule automation, including compilation and subsequent strengthening to reach a very high level of automatically. Design step:
    • Design part-task practice

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more on open education in this IMS blog
https://blog.stcloudstate.edu/ims?s=open+education

Overselling of Education Technology

The Overselling of Education Technology

By Alfie Kohn     Mar 16, 2016

https://www.edsurge.com/news/2016-03-16-the-overselling-of-education-technology

Basically, my response to ed tech is “It depends.” And one key consideration on which it depends is the reason given for supporting it.

ads in education periodicals, booths at conferences, and advocacy organizations are selling not only specific kinds of software but the whole idea that ed tech is de rigueur for any school that doesn’t want to risk being tagged as “twentieth century.”

Other people, particularly politicians, defend technology on the grounds that it will keep our students “competitive in the global economy.” This catch-all justification has been invoked to support other dubious policies, including highly prescriptive, one-size-fits-all national curriculum standards. It’s based on two premises: that decisions about children’s learning should be driven by economic considerations, and that people in other countries should be seen primarily as rivals to be defeated.

But the rationale that I find most disturbing—despite, or perhaps because of, the fact that it’s rarely made explicit—is the idea that technology will increase our efficiency…at teaching the same way that children have been taught for a very long time.

a deeper question: “What kinds of learning should be taking place in those schools?” If we favor an approach by which students actively construct meaning, an interactive process that involves a deep understanding of ideas and emerges from the interests and questions of the learners themselves, well, then we’d be open to the kinds of technology that truly support this kind of inquiry. Show me something that helps kids create, design, produce, construct—and I’m on board. Show me something that helps them make things collaboratively (rather than just on their own), and I’m even more interested—although it’s important to keep in mind that meaningful learning never requires technology, so even here we should object whenever we’re told that software (or a device with a screen) is essential.

more worrisome are the variants of ed tech that deal with grades and tests, making them even more destructive than they already are: putting grades online (thereby increasing their salience and their damaging effects), using computers to administer tests and score essays, and setting up “embedded” assessment that’s marketed as “competency-based.”

we shouldn’t confuse personalized learning with personal learning. The first involves adjusting the difficulty level of prefabricated skills-based exercises based on students’ test scores, and it requires the purchase of software. The second involves working with each student to create projects of intellectual discovery that reflect his or her unique needs and interests, and it requires the presence of a caring teacher who knows each child well.

a recent review found that studies of tech-based personalized instruction “show mixed results ranging from modest impacts to no impact” – despite the fact that it’s remarkably expensive. In fact, ed tech of various kinds has made headlines lately for reasons that can’t be welcome to its proponents. According to an article in Education Week, “a host of national and regional surveys suggest that teachers are far more likely to use tech to make their own jobs easier and to supplement traditional instructional strategies than to put students in control of their own learning.” Last fall, meanwhile, OECD reportednegative outcomes when students spent a lot of time using computers, while Stanford University’s Center for Research on Education Outcomes

Ed tech is increasingly making its way even into classrooms for young children. And the federal government is pushing this stuff unreservedly: Check out the U.S. Office of Education Technology’s 2016 plan recommending greater use of “embedded” assessment, which “includes ongoing gathering and sharing of data,” plus, in a development that seems inevitable in retrospect, a tech-based program to foster a “growth mindset” in children. There’s much more in that plan, too—virtually all of it, as blogger Emily Talmage points out, uncannily aligned with the wish list of the Digital Learning Council, a group consisting largely of conservative advocacy groups and foundations, and corporations with a financial interest in promoting ed tech.

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more on technology literacy in this IMS blog
https://blog.stcloudstate.edu/ims?s=technology+literacy

engage with Dungeons and Dragons

Use Dungeons & Dragons to engage all students!

By Christopher Bugaj 3/14/2018 Assistive and adaptive technologies Gaming
https://www.iste.org/explore/articleDetail?articleid=2156
Beyond scripted shows, Twitch streams like Critical Role and Girls, Guts, Glory along with podcasts like Godsfall help make learning the game more accessible to newbies. Creators, artists, and celebrities, such as Vin Diesel, Joe Manganiello, Deborah Ann Woll, Patton Oswalt, Wil Wheaton, Chris Hardwick, Matthew Lillard, Anderson Cooper and Stephen Colbert, publicly attest to how playing Dungeons & Dragons fosters creativity.
The ISTE Standards for Students provide a guide for the end game. The objective is to help individuals learn how to take ownership of their learning, make positive contributions to society, and analyze and use resources effectively while working together to build innovative new solutions to problems. What was once thought of as the R’s (reading, writing, and ‘rithmetic) have grown to include the C’s of creativity, communication, collaboration, cooperation, contribution, critical thinking, computation, compromise, and community. These new C’s aren’t meant to be accidental, ancillary byproducts of educational practices but, instead, are the focus and intention of the design of instructional experiences. According to the Every Student Succeeds Act and the National Educational Technology Plan, the charge and expectation is that these skills are meant for the masses. Dungeons & Dragons provides a platform for students of varying abilities to practice all of these skills in a safe, enjoyable environment.

publish metrics ranking and citation info

EdTech Research – Where to Publish, How to Share (Part 2): Journal Metrics, Rankings and Citation Information

EdTech Research – Where to Publish, How to Share (Part 1): Journal Overview

electronic journals

International Review of Research in Open and Distributed Learning (IRRODL)

Publisher / Organization: Athabasca University Press

Year founded: 2000

Description: The International Review of Research in Open and Distributed Learning disseminates original research, theory, and best practice in open and distributed learning worldwide.

First Monday

Publisher / Organization: The University of Illinois at Chicago- University Library

Year founded: 1996

Description: First Monday is among the very first open access journals in the EdTech field. The journal’s subject matter encompasses the full range of Internet issues, including educational technologies, social media and web search. Contributors are urged via author guidelines to use simple explanations and less complex sentences and to be mindful that a large proportion of their readers are not part of academia and do not have English as a first language.

URL: http://firstmonday.org/

International Journal of Educational Technology in Higher Education(ETHE)

Publisher / Organization: Springer (from 2013)

Academic Management: University of Catalonia (UOC)

Year founded: 2004

Description: This journal aims to: provide a vehicle for scholarly presentation and exchange of information between professionals, researchers and practitioners in the technology-enhanced education field; contribute to the advancement of scientific knowledge regarding the use of technology and computers in higher education; and inform readers about the latest developments in the application of information technologies (ITs) in higher education learning, training, research and management.

URL: https://educationaltechnologyjournal.springeropen.com/

Online Learning (formerly JOLT / JALN)

Publisher / Organization: Online Learning Consortium

Year founded: 1997

Description: Online Learning promotes the development and dissemination of new knowledge at the intersection of pedagogy, emerging technology, policy, and practice in online environments. The journal has been published for over 20 years as the Journal of Asynchronous Learning Networks (JALN) and recently merged with the Journal of Online Learning and Teaching (JOLT).

URL: https://olj.onlinelearningconsortium.org/

Journal of Educational Technology & Society

Publisher / Organization: International Forum of Educational Technology & Society

Year founded:1998

Description: Educational Technology & Society seeks academic articles on the issues affecting the developers of educational systems and educators who implement and manage these systems. Articles should discuss the perspectives of both communities – the programmers and the instructors. The journal is currently still accepting submissions for ongoing special issues, but will cease publication in the future as the editors feel that the field of EdTech is saturated with high quality publications.

URL: http://www.ds.unipi.gr/et&s/index.php

Australasian Journal of Educational Technology

Publisher / Organization: Ascilite (Organization) & PKP Publishing Services Network

Year founded: 1985

Description: The Australasian Journal of Educational Technology aims to promote research and scholarship on the integration of technology in tertiary education, promote effective practice, and inform policy. The goal is to advance understanding of educational technology in post-school education settings, including higher and further education, lifelong learning, and training.

URL: https://ajet.org.au/index.php/AJET

Print Journals

The Internet and Higher Education

Publisher / Organization: Elsevier Ltd.

YEAR FOUNDED: 1998

DESCRIPTION: The Internet and Higher Education is devoted to addressing contemporary issues and future developments related to online learning, teaching, and administration on the Internet in post-secondary settings. Articles should significantly address innovative deployments of Internet technology in instruction and report on research to demonstrate the effects of information technology on instruction in various contexts in higher education.

URL: https://www.journals.elsevier.com/the-internet-and-higher-education

British Journal of Educational Technology

Publisher / Organization: British Educational Research Association (BERA)

YEAR FOUNDED: 1970

DESCRIPTION: The journal publishes theoretical perspectives, methodological developments and empirical research that demonstrate whether and how applications of instructional/educational technology systems, networks, tools and resources lead to improvements in formal and non-formal education at all levels, from early years through to higher, technical and vocational education, professional development and corporate training.

LINK: http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)1467-8535

Computers & Education

Publisher / Organization: Elsevier Ltd.

Year founded: 1976

Description: Computers & Education aims to increase knowledge and understanding of ways in which digital technology can enhance education, through the publication of high quality research, which extends theory and practice.

URL: https://www.journals.elsevier.com/computers-and-education/

Tech Trends

Publisher / Organization: Springer US

Year founded: 1985

Description: TechTrends targets professionals in the educational communication and technology field. It provides a vehicle that fosters the exchange of important and current information among professional practitioners. Among the topics addressed are the management of media and programs, the application of educational technology principles and techniques to instructional programs, and corporate and military training.

URL: https://link.springer.com/journal/11528

International Journal on E-Learning (IJEL)

Year founded: 2002

Description: Advances in technology and the growth of e-learning to provide educators and trainers with unique opportunities to enhance learning and teaching in corporate, government, healthcare, and higher education. IJEL serves as a forum to facilitate the international exchange of information on the current research, development, and practice of e-learning in these sectors.

Led by an Editorial Review Board of leaders in the field of e-Learning, the Journal is designed for the following audiences: researchers, developers, and practitioners in corporate, government, healthcare, and higher education. IJEL is a peer-reviewed journal.

URL: http://www.aace.org/pubs/ijel/

Journal of Computers in Mathematics and Science Teaching (JCMST)

Year founded: 1981

Description: JCMST is a highly respected scholarly journal which offers an in-depth forum for the interchange of information in the fields of science, mathematics, and computer science. JCMST is the only periodical devoted specifically to using information technology in the teaching of mathematics and science.

URL: https://www.aace.org/pubs/jcmst/

Just as researchers build reputation over time that can be depicted (in part) through quantitative measures such as h-index and i10-index, journals are also compared based on the number of citations they receive..

Journal of Interactive Learning Research (JILR)

Year founded: 1997

Description: The Journal of Interactive Learning Research (JILR) publishes papers related to the underlying theory, design, implementation, effectiveness, and impact on education and training of the following interactive learning environments: authoring systems, cognitive tools for learning computer-assisted language learning computer-based assessment systems, computer-based training computer-mediated communications, computer-supported collaborative learning distributed learning environments, electronic performance support systems interactive learning environments, interactive multimedia systems interactive simulations and games, intelligent agents on the Internet intelligent tutoring systems, microworlds, virtual reality based learning systems.

URL: http://learntechlib.org/j/JILR/

Journal of Educational Multimedia and Hypermedia (JEMH)

Year founded: 1996

Description: JEMH is designed to provide a multi-disciplinary forum to present and discuss research, development and applications of multimedia and hypermedia in education. It contributes to the advancement of the theory and practice of learning and teaching in environments that integrate images, sound, text, and data.

URL: https://www.aace.org/pubs/jemh/

Journal of Technology and Teacher Education (JTATE)

Publisher / Organization: Society for Information Technology and Teacher Education (SITE)

Year founded: 1997

Description: JTATE serves as a forum for the exchange of knowledge about the use of information technology in teacher education. Journal content covers preservice and inservice teacher education, graduate programs in areas such as curriculum and instruction, educational administration, staff development instructional technology, and educational computing.

URL: https://www.aace.org/pubs/jtate/

Journal on Online Learning Research (JOLR)

Publisher / Organization: Association for the Advancement of Computing in Education (AACE)

YEAR FOUNDED: 2015

DESCRIPTION: The Journal of Online Learning Research (JOLR) is a peer-reviewed, international journal devoted to the theoretical, empirical, and pragmatic understanding of technologies and their impact on primary and secondary pedagogy and policy in primary and secondary (K-12) online and blended environments. JOLR is focused on publishing manuscripts that address online learning, catering particularly to the educators who research, practice, design, and/or administer in primary and secondary schooling in online settings. However, the journal also serves those educators who have chosen to blend online learning tools and strategies in their face-to-face classroom.

URL: https://www.aace.org/pubs/jolr/

 

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part 2

The most commonly used index to measure the relative importance of journals is the annual Journal Citation Reports (JCR). This report is published by Clarivate Analytics (previously Thomson Reuters).

SCImago

SCImago Journal Rank (SJR indicator) measures the influence of journals based on the number of citations the articles in the journal receive and the importance or prestige of the journals where such citations come from. The SJR indicator is a free journal metric which uses an algorithm similar to PageRank and provides an open access alternative to the journal impact factor in the Web of Science Journal Citation Report. The portal draws from the information contained in the Scopus database (Elsevier B.V.).

Google Scholar Journal Rank

Introduced by Google in 2004, Scholar is a freely accessible search engine that indexes the full text or metadata of scholarly publications across an array of publishing formats and disciplines.

Scopus Journal Metrics

Introduced by Elsevier in 2004, Scopus is an abstract and citation database that covers nearly 18,000 titles from more than 5,000 publishers. It offers journal metrics that go beyond just journals to include most serial titles, including supplements, special issues and conference proceedings. Scopus offers useful information such as the total number of citations, the total number of articles published, and the percent of articles cited.

Anne-Wil Harzing:

Citations are not just a reflection of the impact that a particular piece of academic work has generated. Citations can be used to tell stories about academics, journals and fields of research, but they can also be used to distort stories”.

Harzing, A.-W. (2013). The publish or perish book: Your guide to effective and responsible citation analysis. http://harzing.com/popbook/index.htm

ResearchGate

ResearchGate is a social networking site for scientists and researchers to share papers, ask and answer questions, and find collaborators. The community was founded in May 2008. Today it has over 14 million members.

Google Scholar

Google Scholar allows users to search for digital or physical copies of articles, whether online or in libraries. It indexes “full-text journal articles, technical reports, preprints, theses, books, and other documents, including selected Web pages that are deemed to be ‘scholarly. It comprises an estimated 160 million documents.

Academia.edu

Academia.edu is a social-networking platform for academics to share research papers. You can upload your own work, and follow the updates of your peers. Founded in 2008, the network currently has 59 million users, and adding 20 million documents.

ORCID

The ORCHID (Open Researcher and Contributor ID) is a nonproprietary alphanumeric code to uniquely identify scientific and other academic authors and contributors. It provides a persistent identity for humans, similar to content-related entities on digital networks that utilize digital object identifiers (DOIs). The organization offers an open and independent registry intended to be the de facto standard for contributor identification in research and academic publishing.

SCOPUS

The Scopus Author Identifier assigns a unique number to groups of documents written by the same author via an algorithm that matches authorship based on a certain criteria. If a document cannot be confidently matched with an author identifier, it is grouped separately. In this case, you may see more than one entry for the same author.

 

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more on metrics in this iMS blog

https://blog.stcloudstate.edu/ims?s=metrics

definitions online learning

Online learning here is used as a blanket term for all related terms:

  • HyFlex courses – hybrid + flexible
    “hybrid synchronous” or “blended synchronous” courses

    • Definition:
      The HyFlex model gives students the choice to attend class in person or via synchronous remote stream and to make that choice on a daily basis. In other words, unlike online and hybrid models which typically have a fixed course structure for the entire semester, the HyFlex model does not require students to make a choice at the beginning of term and then stick with it whether their choice works for them or not; rather students are able to make different choices each day depending on what works best for them on that day (hence the format is “flexible”) (Miller and Baham, 2018, to be published in the Proceedings of the 10th International Conference on Teaching Statistics).
    • Definition from Horizon Report, HIgher Ed edition, 2014. p. 10 integration of Online Hybrid and Collaborative Learning
    • Definition from U of Arizona (https://journals.uair.arizona.edu/index.php/itet/article/view/16464/16485)
      Beatty (2010) defines HyFlex courses to be those that “enable a flexible participation policy for students whereby students may choose to attend face-to-face synchronous class sessions or complete course learning activities online without physically attending class”
  • Online courses
    • Definition
      Goette, W. F., Delello, J. A., Schmitt, A. L., Sullivan, J. R., & Rangel, A. (2017). Comparing Delivery Approaches to Teaching Abnormal Psychology: Investigating Student Perceptions and Learning Outcomes. Psychology Learning and Teaching, 16(3), 336–352. https://doi.org/10.1177/1475725717716624
      p.2.Online classes are a form of distance learning available completely over the Internet with no F2F interaction between an instructor and students (Helms, 2014).
    • https://www.oswego.edu/human-resources/section-6-instructional-policies-and-procedures
      An online class is a class that is offered 100% through the Internet. Asynchronous courses require no time in a classroom. All assignments, exams, and communication are delivered using a learning management system (LMS). At Oswego, the campus is transitioning from ANGEL  to Blackboard, which will be completed by the Fall 2015 semester.  Fully online courses may also be synchronous. Synchronous online courses require student participation at a specified time using audio/visual software such as Blackboard Collaborate along with the LMS.
    • Web-enhanced courses

Web enhanced learning occurs in a traditional face-to-face (f2f) course when the instructor incorporates web resources into the design and delivery of the course to support student learning. The key difference between Web Enhanced Learning versus other forms of e-learning (online or hybrid courses) is that the internet is used to supplement and support the instruction occurring in the classroom rather than replace it.  Web Enhanced Learning may include activities such as: accessing course materials, submitting assignments, participating in discussions, taking quizzes and exams, and/or accessing grades and feedback.”

  • Blended/Hybrid Learning
    • Definition

Goette, W. F., Delello, J. A., Schmitt, A. L., Sullivan, J. R., & Rangel, A. (2017). Comparing Delivery Approaches to Teaching Abnormal Psychology: Investigating Student Perceptions and Learning Outcomes. Psychology Learning and Teaching, 16(3), 336–352. https://doi.org/10.1177/1475725717716624
p.3.

Helms (2014) described blended education as incorporating both online and F2F character- istics into a single course. This definition captures an important confound to comparing course administration formats because otherwise traditional F2F courses may also incorp- orate aspects of online curriculum. Blended learning may thus encompass F2F classes in which any course content is available online (e.g., recorded lectures or PowerPoints) as well as more traditionally blended courses. Helms recommended the use of ‘‘blended’’ over ‘‘hybrid’’ because these courses combine different but complementary approaches rather than layer opposing methods and formats.

Blended learning can merge the relative strengths of F2F and online education within a flexible course delivery format. As such, this delivery form has a similar potential of online courses to reduce the cost of administration (Bowen et al., 2014) while addressing concerns of quality and achievement gaps that may come from online education. Advantages of blended courses include: convenience and efficiency for the student; promotion of active learning; more effective use of classroom space; and increased class time to spend on higher- level learning activities such as cooperative learning, working with case studies, and discuss- ing big picture concepts and ideas (Ahmed, 2010; Al-Qahtani & Higgins, 2013; Lewis & Harrison, 2012).

Although many definitions of hybrid and blended learning exist, there is a convergence upon three key points: (1) Web-based learning activities are introduced to complement face-to-face work; (2) “seat time” is reduced, though not eliminated altogether; (3) the Web-based and face-to-face components of the course are designed to interact pedagogically to take advantage of the best features of each.
The amount of in class time varies in hybrids from school to school. Some require more than 50% must be in class, others say more than 50% must be online. Others indicate that 20% – 80% must be in class (or online). There is consensus that generally the time is split 50-50, but it depends on the best pedagogy for what the instructor wants to achieve.

Backchannel and CRS (or Audience Response Systems):
https://journals.uair.arizona.

More information:

Blended Synchronous Learning project (http://blendsync.org/)

https://journals.uair.arizona.edu/index.php/itet/article/view/16464/16485

https://www.binghamton.edu/academics/provost/faculty-staff-handbook/handbook-vii.html

VII.A.3. Distance Learning Courses
Distance learning courses are indicated in the schedule of classes on BU Brain with an Instructional Method of Online Asynchronous (OA), Online Synchronous (OS), Online Combined (OC), or Online Hybrid (OH). Online Asynchronous courses are those in which the instruction is recorded/stored and then accessed by the students at another time. Online Synchronous courses are those in which students are at locations remote from the instructor and viewing the instruction as it occurs. Online Combined courses are those in which there is a combination of asynchronous and synchronous instruction that occurs over the length of the course. Online Hybrid courses are those in which there is both in-person and online (asynchronous and/or synchronous) instruction that occurs over the length of the course.

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