Archive of ‘instructional technology’ category

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

Inclusive Design of Artificial Intelligence

EASI Free Webinar: Inclusive Design of Artificial Intelligence Thursday

October 25
Artificial Intelligence (AI) and accessibility: will it enhance or
impede accessibility for users with disabilities?
Artificial intelligence used to be all about the distance future, but it
has now become mainstream. It is already impacting us in ways we may not
recognize. It is impacting us today already. It is involved in search
engines. It is involved in the collecting of big data and analyzing it.
It is involved in all the arguments about the way social media is being
used to effect, or try to effect, our thinking and our politics. How
else might it play a role in the future of accessibility?
The webinar presenter: Jutta Treviranus at University of Toronto will
explore these questions in the webinar on Thursday, October 25 at 11
Pacific, noon Mountain, 1 central or 2 Eastern You can register now but
registration closes Wed. Oct. 24 at midnight Eastern.
You can register now on the web at https://na01.safelinks.protection.outlook.com/?url=http%3A%2F%2Feasi.cc&data=01%7C01%7Cpmiltenoff%40STCLOUDSTATE.EDU%7C4afdbee13881489312d308d6383f541b%7C5e40e2ed600b4eeaa9851d0c9dcca629%7C0&sdata=O7nOVG8dbkDX7lf%2FR6nWJi4f6qyHklGKfc%2FaB8p4r5o%3D&reserved=0and look for the link
for webinars.
Those who register should get directions for joining sent late wednesday
or Early on Thursday.

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more on AI in this IMS blog
https://blog.stcloudstate.edu/ims?s=artificial+intelligence

Design social media images

How to Easily Design Social Media Images: 4 Free Tools

October 3, 2018 https://www.socialmediaexaminer.com/social-media-images-free-tools

Preview Text Styles With One Touch via Adobe Spark

  • Adobe Spark is part of Adobe’s suite of creative products, bringing social media image and video creation to the web.

remove the Adobe Spark watermark with a paid Adobe Spark plan or Creative Cloud subscription, both starting at $9.99 a month.

  • Design Basic Social Media Images Quickly With Pablo

    Pablo by Buffer is a no-frills online image editor that lets you make basic social media images in seconds. So while it doesn’t have some of the features of other image editors on this list, it works in a pinch. This tool is free to use without registration, making it perfect for when you or your team needs to create a quick image. My note: not on mobiles yet, only desktop

  • Design Automatically Resizable Social Media Images With Snappa

    Snappa is a user-friendly online image maker that has templates for every social media network. In addition to social post templates, it offers banner, story, and infographic templates. This makes Snappa your one-stop shop for creating all sorts of social media content.

  • Add Simple Data Visualization Charts to Social Media Images in CanvaCanva is a free online image editor with a huge library of free templates and royalty-free images. The app has built-in templates for all of the major social networks, and you can even post directly to your social media accounts from the app.

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more on social media images in this IMS blog
https://blog.stcloudstate.edu/ims?s=social+media+images

schools in Estonia

Q&A: School success in Estonia

Rebecca Vukovic Oct 11, 2018

https://w

Use of students’ mobile phones during the lesson, when instructed properly, can be an effective tool when learning foreign languages and many other subjects.

Santiago, P., et al. (2016), OECD Reviews of School Resources: Estonia 2016, OECD Reviews of School Resources, OECD Publishing, Paris, http://dx.doi.org/10.1787/9789264251731-en.

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more on Finland Phenomenon in this IMS blog
https://blog.stcloudstate.edu/ims?s=finland+phenomenon

Rap hip-hop and physics

A Hip-Hop Experiment

JOHN LELAND NOV. 16, 2012 https://www.nytimes.com/2012/11/18/nyregion/columbia-professor-and-gza-aim-to-help-teach-science-through-hip-hop.html

Only 4 percent of African-American seniors nationally were proficient in sciences, compared with 27 percent of whites, according to the 2009 National Assessment of Educational Progress.

GZA by bringing science into hip-hop; Dr. Emdin by bringing hip-hop into the science classroom.

the popular hip-hop lyrics Web siteRap Genius, will announce a pilot project to use hip-hop to teach science in 10 New York City public schools. The pilot is small, but its architects’ goals are not modest. Dr. Emdin, who has written a book called “Urban Science Education for the Hip-Hop Generation,”

hip-hop “cypher,” participants stand in a circle and take turns rapping, often supporting or playing off one another’s rhymes.

“All of those things that are happening in the hip-hop cypher are what should happen in an ideal classroom.”

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Students analyze rap lyrics with code in digital humanities class

Some teachers are finding a place for coding in English, music, science, math and social studies, too

by TARA GARCÍA MATHEWSON October 18, 2018

Fifteen states now require all high schools to offer computer science courses. Twenty-three states have created K-12 computer science standards. And 40 states plus the District of Columbia allow students to count computer science courses toward high school math or science graduation requirements. That’s up from 12 states in 2013, when Code.org launched, aiming to expand access to computer science in U.S. schools and increase participation among girls and underrepresented minorities in particular.

Nevada is the only state so far to embed math, science, English language arts and social studies into its computer science standards.

AI and VR for teaching learning

Egan, K., Foley, J., Nicholson, K., & Sloane, K. (2018, May 22). The Promise and Pitfalls of AI and VR for Teaching and Learning [Virtual]. eXtended Reality (XR): How AR, VR, and MR Are Extending Learning Opportunities. Educause. Retrieved from https://events.educause.edu/eli/focus-sessions/2018/extended-reality-xr-how-ar-vr-and-mr-are-extending-learning-opportunities/agenda/the-promise-and-pitfalls-of-ai-and-vr-for-teaching-and-learning
https://drive.google.com/file/d/1YL5bpAQeDcVUJnEuykl4KHnJMZXIWcis/view
https://events.educause.edu/~/media/files/events/eli/focus-sessions/2018/fs1801/ol03/transcript.doc
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more on AI in this IMS blog
https://blog.stcloudstate.edu/ims?s=artificial+intelligence
more on VR in this IMS blog
https://blog.stcloudstate.edu/ims?s=virtual+reality

ELI 2018 Key Issues Teaching Learning

Key Issues in Teaching and Learning

https://www.educause.edu/eli/initiatives/key-issues-in-teaching-and-learning

A roster of results since 2011 is here.

ELI 2018 key issues

1. Academic Transformation

2. Accessibility and UDL

3. Faculty Development

4. Privacy and Security

5. Digital and Information Literacies

https://cdn.nmc.org/media/2017-nmc-strategic-brief-digital-literacy-in-higher-education-II.pdf
Three Models of Digital Literacy: Universal, Creative, Literacy Across Disciplines

United States digital literacy frameworks tend to focus on educational policy details and personal empowerment, the latter encouraging learners to become more effective students, better creators, smarter information consumers, and more influential members of their community.

National policies are vitally important in European digital literacy work, unsurprising for a continent well populated with nation-states and struggling to redefine itself, while still trying to grow economies in the wake of the 2008 financial crisis and subsequent financial pressures

African digital literacy is more business-oriented.

Middle Eastern nations offer yet another variation, with a strong focus on media literacy. As with other regions, this can be a response to countries with strong state influence or control over local media. It can also represent a drive to produce more locally-sourced content, as opposed to consuming material from abroad, which may elicit criticism of neocolonialism or religious challenges.

p. 14 Digital literacy for Humanities: What does it mean to be digitally literate in history, literature, or philosophy? Creativity in these disciplines often involves textuality, given the large role writing plays in them, as, for example, in the Folger Shakespeare Library’s instructor’s guide. In the digital realm, this can include web-based writing through social media, along with the creation of multimedia projects through posters, presentations, and video. Information literacy remains a key part of digital literacy in the humanities. The digital humanities movement has not seen much connection with digital literacy, unfortunately, but their alignment seems likely, given the turn toward using digital technologies to explore humanities questions. That development could then foster a spread of other technologies and approaches to the rest of the humanities, including mapping, data visualization, text mining, web-based digital archives, and “distant reading” (working with very large bodies of texts). The digital humanities’ emphasis on making projects may also increase

Digital Literacy for Business: Digital literacy in this world is focused on manipulation of data, from spreadsheets to more advanced modeling software, leading up to degrees in management information systems. Management classes unsurprisingly focus on how to organize people working on and with digital tools.

Digital Literacy for Computer Science: Naturally, coding appears as a central competency within this discipline. Other aspects of the digital world feature prominently, including hardware and network architecture. Some courses housed within the computer science discipline offer a deeper examination of the impact of computing on society and politics, along with how to use digital tools. Media production plays a minor role here, beyond publications (posters, videos), as many institutions assign multimedia to other departments. Looking forward to a future when automation has become both more widespread and powerful, developing artificial intelligence projects will potentially play a role in computer science literacy.

6. Integrated Planning and Advising Systems for Student Success (iPASS)

7. Instructional Design

8. Online and Blended Learning

In traditional instruction, students’ first contact with new ideas happens in class, usually through direct instruction from the professor; after exposure to the basics, students are turned out of the classroom to tackle the most difficult tasks in learning — those that involve application, analysis, synthesis, and creativity — in their individual spaces. Flipped learning reverses this, by moving first contact with new concepts to the individual space and using the newly-expanded time in class for students to pursue difficult, higher-level tasks together, with the instructor as a guide.

Let’s take a look at some of the myths about flipped learning and try to find the facts.

Myth: Flipped learning is predicated on recording videos for students to watch before class.

Fact: Flipped learning does not require video. Although many real-life implementations of flipped learning use video, there’s nothing that says video must be used. In fact, one of the earliest instances of flipped learning — Eric Mazur’s peer instruction concept, used in Harvard physics classes — uses no video but rather an online text outfitted with social annotation software. And one of the most successful public instances of flipped learning, an edX course on numerical methods designed by Lorena Barba of George Washington University, uses precisely one video. Video is simply not necessary for flipped learning, and many alternatives to video can lead to effective flipped learning environments [http://rtalbert.org/flipped-learning-without-video/].

Myth: Flipped learning replaces face-to-face teaching.

Fact: Flipped learning optimizes face-to-face teaching. Flipped learning may (but does not always) replace lectures in class, but this is not to say that it replaces teaching. Teaching and “telling” are not the same thing.

Myth: Flipped learning has no evidence to back up its effectiveness.

Fact: Flipped learning research is growing at an exponential pace and has been since at least 2014. That research — 131 peer-reviewed articles in the first half of 2017 alone — includes results from primary, secondary, and postsecondary education in nearly every discipline, most showing significant improvements in student learning, motivation, and critical thinking skills.

Myth: Flipped learning is a fad.

Fact: Flipped learning has been with us in the form defined here for nearly 20 years.

Myth: People have been doing flipped learning for centuries.

Fact: Flipped learning is not just a rebranding of old techniques. The basic concept of students doing individually active work to encounter new ideas that are then built upon in class is almost as old as the university itself. So flipped learning is, in a real sense, a modern means of returning higher education to its roots. Even so, flipped learning is different from these time-honored techniques.

Myth: Students and professors prefer lecture over flipped learning.

Fact: Students and professors embrace flipped learning once they understand the benefits. It’s true that professors often enjoy their lectures, and students often enjoy being lectured to. But the question is not who “enjoys” what, but rather what helps students learn the best.They know what the research says about the effectiveness of active learning

Assertion: Flipped learning provides a platform for implementing active learning in a way that works powerfully for students.

9. Evaluating Technology-based Instructional Innovations

Transitioning to an ROI lens requires three fundamental shifts
What is the total cost of my innovation, including both new spending and the use of existing resources?

What’s the unit I should measure that connects cost with a change in performance?

How might the expected change in student performance also support a more sustainable financial model?

The Exposure Approach: we don’t provide a way for participants to determine if they learned anything new or now have the confidence or competence to apply what they learned.

The Exemplar Approach: from ‘show and tell’ for adults to show, tell, do and learn.

The Tutorial Approach: Getting a group that can meet at the same time and place can be challenging. That is why many faculty report a preference for self-paced professional development.build in simple self-assessment checks. We can add prompts that invite people to engage in some sort of follow up activity with a colleague. We can also add an elective option for faculty in a tutorial to actually create or do something with what they learned and then submit it for direct or narrative feedback.

The Course Approach: a non-credit format, these have the benefits of a more structured and lengthy learning experience, even if they are just three to five-week short courses that meet online or in-person once every week or two.involve badges, portfolios, peer assessment, self-assessment, or one-on-one feedback from a facilitator

The Academy Approach: like the course approach, is one that tends to be a deeper and more extended experience. People might gather in a cohort over a year or longer.Assessment through coaching and mentoring, the use of portfolios, peer feedback and much more can be easily incorporated to add a rich assessment element to such longer-term professional development programs.

The Mentoring Approach: The mentors often don’t set specific learning goals with the mentee. Instead, it is often a set of structured meetings, but also someone to whom mentees can turn with questions and tips along the way.

The Coaching Approach: A mentor tends to be a broader type of relationship with a person.A coaching relationship tends to be more focused upon specific goals, tasks or outcomes.

The Peer Approach:This can be done on a 1:1 basis or in small groups, where those who are teaching the same courses are able to compare notes on curricula and teaching models. They might give each other feedback on how to teach certain concepts, how to write syllabi, how to handle certain teaching and learning challenges, and much more. Faculty might sit in on each other’s courses, observe, and give feedback afterward.

The Self-Directed Approach:a self-assessment strategy such as setting goals and creating simple checklists and rubrics to monitor our progress. Or, we invite feedback from colleagues, often in a narrative and/or informal format. We might also create a portfolio of our work, or engage in some sort of learning journal that documents our thoughts, experiments, experiences, and learning along the way.

The Buffet Approach:

10. Open Education

Figure 1. A Model for Networked Education (Credit: Image by Catherine Cronin, building on
Interpretations of
Balancing Privacy and Openness (Credit: Image by Catherine Cronin. CC BY-SA)

11. Learning Analytics

12. Adaptive Teaching and Learning

13. Working with Emerging Technology

In 2014, administrators at Central Piedmont Community College (CPCC) in Charlotte, North Carolina, began talks with members of the North Carolina State Board of Community Colleges and North Carolina Community College System (NCCCS) leadership about starting a CBE program.

Building on an existing project at CPCC for identifying the elements of a digital learning environment (DLE), which was itself influenced by the EDUCAUSE publication The Next Generation Digital Learning Environment: A Report on Research,1 the committee reached consensus on a DLE concept and a shared lexicon: the “Digital Learning Environment Operational Definitions,

Figure 1. NC-CBE Digital Learning Environment

student centered social media policies

How to Craft Useful, Student-Centered Social Media Policies

By Tanner Higgin  08/09/18

https://thejournal.com/articles/2018/08/09/how-to-craft-useful-student-centered-social-media-policies.aspx

Whether your school or district has officially adopted social media or not, conversations are happening in and around your school on everything from Facebook to Snapchat. Schools must reckon with this reality and commit to supporting thoughtful and critical social media use among students, teachers and administrators. If not, schools and classrooms risk everything from digital distraction to privacy violations.

Key Elements to Include in a Social Media Policy

  • Create parent opt-out forms that specifically address social media use.Avoid blanket opt-outs that generalize all technology or obfuscate how specific social media platforms will be used. (See this example by the World Privacy Forum as a starting point.)
    • Use these opt-out forms as a way to have more substantive conversations with parents about what you’re doing and why.
    • Describe what platforms are being used, where, when and how.
    • Avoid making the consequences of opt-out selections punitive (e.g., student participation in sports, theater, yearbook, etc.).
  • Establish baseline guidelines for protecting and respecting student privacy.
    • Prohibit the sharing of student faces.
    • Restrict location sharing: Train teachers and students on how to turn off geolocation features/location services on devices as well as in specific apps.
    • Minimize information shared in teacher’s social media profiles: Advise teachers to list only grade level and subject in their public profiles and not to include specific school or district information.
  • Make social media use transparent to students: Have teachers explain their social media plan, and find out how students feel about it.
  • Most important: As with any technology, attach social media use to clearly articulated goals for student learning. Emphasize in your guidelines that teachers should audit any potential use of social media in terms of student-centered pedagogy: (1) Does it forward student learning in a way impossible through other means? and (2) Is using social media in my best interests or in my students’?

Moving from Policy to Practice.

Social media policies, like policies in general, are meant to mitigate the risk and liability of institutions rather than guide and support sound pedagogy and student learning. They serve a valuable purpose, but not one that impacts classrooms. So how do we make these policies more relevant to classrooms?

First, it forces policy to get distilled into what impacts classroom instruction and administration. Second, social media changes monthly, and it’s much easier to update a faculty handbook than a policy document. Third, it allows you to align social media issues with other aspects of teaching (assessment, parent communication, etc.) versus separating it out in its own section.

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

more on social media policies in this IMS blog
https://blog.stcloudstate.edu/ims?s=social+media+policies

Тechnology Procurement for Accessibility

7 Things You Should Know About Technology Procurement for Accessibility

Wednesday, October 10, 2018
Lori Kressin Kyle Shachmut Christian Vinten-Johansen Sue Cullen

https://library.educause.edu/resources/2018/10/7-things-you-should-know-about-technology-procurement-for-accessibility

ELI Educause : Technology Procurement for Accessibility PDF document

Despite general agreement among institutional leaders that they are obligated to provide accessible technology, efforts at many colleges and universities to fulfil that promise are often ad hoc, incomplete, or not fully implemented. Including accessibility requirements or guidance in institutional policies and practices for how technology is procured is one way for colleges and universities to demonstrate a commitment to ensuring equal access to information, programs, and activities and to comply with applicable legal requirements.

Due to decentralized purchasing and contracting practices, as well as the growing ecosystem of easy-to-deploy learning apps, applications and services are often deployed with little or no oversight from an accessibility perspective.

George Mason University, the university counsel, purchasing office, libraries, and IT services are collaborating to establish purchasing guidelines that ensure all IT purchases are reviewed for accessibility and conform to explicit standards and guidelines. The California State University system has developed system-wide vendor accessibility requirements, as well as an Equally Effective Alternate Access Plan (EEAAP) to address accessibility barriers while the product development team addresses remediation of those barriers (which are outlined in a product Accessibility Roadmap). Penn State University updated its policy for accessibility of electronic and information technology to reflect evolving standards and new best practices. The University of Washington uses a step-by-step checklist, including suggested language for contracts, to help users across campus ensure accessibility compliance in technology acquisitions. The University of Wisconsin–Madison tells stakeholders that they “must consider accessibility early and throughout the process as one of the criteria for [technology] acquisition.” As part of a process of “growing a culture of access,” Wichita State University has developed an in-depth Foundations of Accessibility course for staff and a technology audit rubric, among other tools

Consistent adherence to accessibility policies for technology purchases can be challenging because some technologies might need to be deployed even though they are not fully accessible.

Campus policies allowing decentralized technology purchases can create gray areas where buyers may be uncertain about—or may not even be aware of—their responsibilities to ensure that such purchases comply with institutional accessibility policies.

Changes in pedagogic practice to ensure broader adoption of accessible technology are tangible demonstrations of that enhanced awareness. Broader adoption of the principles of Universal Design for Learning may stimulate more institutions to be intentional about policies that ensure accessible technology purchases.

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