Archive of ‘instructional technology’ category

microcredentials and faculty

Why faculty need to talk about microcredentials

There is reason to believe that shorter, competency-based programs will play an important role in the university landscape in the coming years.

 Australian commentator Stephen Matchett expands: “MCs are the wild west of post-compulsory education and training, with neither law on what they actually are or order as to how they interact with formal providers. … Until (or if) this is sorted by regulators there needs to be a sheriff providing workable rules that stop the cowboys running riot.”

The lack of standards is also an issue in Canada. While  degree standards have been agreed upon – the Canadian Degree Qualification framework, contained in the Council of Ministers of Education, Canada (CMEC)’s 2007 Ministerial Statement on Quality Assurance of Degree Education in Canada, outlines expectations for bachelor’s, master’s, and doctoral degrees – the CMEC has yet to issue a pan-Canadian framework for microcredentials.

In the absence of a pan-Canadian model or definition, for the purposes of this column I will use the Higher Education Quality Council of Ontario (HEQCO)’s definition, put forward in its May 2021 report, Making Sense of Microcredentials:

“A microcredential is a representation of learning, awarded for completion of a short program that is focused on a discrete set of competencies (i.e., skills, knowledge, attributes), and is sometimes related to other credentials.

Developing and running effective microcredential programs is not simply a matter of bundling a group of existing classes into a new sub-degree level program (although there will certainly be some who try that approach). Effective microcredential programming needs to be an institution-wide effort, with appropriate resourcing and guidelines, along with effective recruiting and student support.

department chairs and other unit leaders to lead collegial discussions about the following questions:

  • Gaps: who is not being served by our current degree offerings? Is there potential demand for our disciplinary knowledge and skills from people who don’t want a full degree program? Are there ways people could upgrade their skills by taking certain types of our courses? Can we identify potential short programs to meet new, distinct learning outcomes?
  • Student diversity: are there opportunities to develop short programs that could introduce a new demographic of students to our discipline? How might microcredentials be developed that meet the needs and interests of Indigenous students, first-generation students, or international students?
  • Connection: how might we create partnerships with external organizations to inform our understanding of skill-training needs? Can these partnerships be leveraged to create new career pathways for students, and/or new research opportunities for faculty, postdocs, and graduate students?
  • Impact: in what ways do our discipline’s insights relate to Canada’s current and future public needs? How might our disciplinary knowledge be combined with knowledge from other disciplines to train students to help address particular challenges? In what ways could our discipline contribute to student competency development that we consider meaningful and impactful?

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more on microcredentials in this IMS blog
https://blog.stcloudstate.edu/ims?s=microcredential

U.S. Ed Tech Spending $27.6 Billion in 2021

U.S. Ed Tech Spending to Reach $27.6 Billion in 2021

https://campustechnology.com/articles/2021/10/07/report-u.s-ed-tech-spending-to-reach-27.6-billion-in-2021.aspx

The report forecast China’s growth in ed tech spending to be 15.6 percent over the same period, reaching $34.2 billion by 2026. Japan, Canada and Germany are all expected to see double-digit growht in ed tech spending over the report period as well: Japan at 14.5 percent, Canada at 14 percent and Germany at 11.9 percent CAGR.

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More on educational technology in this blog
https://blog.stcloudstate.edu/ims?s=Educational+technology

SAMR in the COVID-Era

https://www.iste.org/explore/personalized-learning/samr-covid-era-climbing-ladder-purpose

Better questions to ask might be:

  • What is this project’s purpose, and is the technology that’s being used helping to achieve and enhance that purpose?
  • Why is technology being used the way it is? Is it still effective?
  • Is there a better way to accomplish this that we weren’t previously aware of or that we didn’t previously have access to?

iPads have come a long way since our initial investment in interactive whiteboards. 

  • Is there a better way to accomplish this that we weren’t previously aware of or that we didn’t previously have access to? iPads have come a long way since our initial investment in interactive whiteboards. Perhaps they can offer us a purposeful and innovative solution that wasn’t previously available.

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more on SAMR in this blog
https://blog.stcloudstate.edu/ims?s=samr

Gamification in Higher Education

Mark-Herbert, C., & Langendahl, P.-A. (2016). Gamification in Higher Education -Toward a pedagogy to engage and motivate students. Swedish University of Agricultural Sciences, Department of Economics. https://www.academia.edu/25810340/Gamification_in_Higher_Education_Toward_a_pedagogy_to_engage_and_motivate_students

https://hyp.is/go?url=https%3A%2F%2Fwww.academia.edu%2F25810340%2FGamification_in_Higher_Education_Toward_a_pedagogy_to_engage_and_motivate_students&group=__world__

automated proctoring

https://www.edsurge.com/news/2021-11-19-automated-proctoring-swept-in-during-pandemic-it-s-likely-to-stick-around-despite-concerns

law student sued an automated proctoring company, students have complained about their use in student newspaper editorials and professors have compared them to Big Brother.

ProctorU, which has decided not to sell software that uses algorithms to detect cheating

recent Educause study found that 63 percent of colleges and universities in the U.S. and Canada mention the use of remote proctoring on their websites.

One reason colleges are holding onto proctoring tools, Urdan adds, is that many colleges plan to expand their online course offerings even after campus activities return to normal. And the pandemic also saw rapid growth of another tech trend: students using websites to cheat on exams.

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More on proctoring in this blog
https://blog.stcloudstate.edu/ims?s=proctoring

Gamification as Design Thinking

Hung, A. C. Y. (2018). Gamification as Design Thinking. International Journal of Teaching and Learning in Higher Education, 30(3), 1812–9129.
https://hyp.is/go?url=https%3A%2F%2Fdocs.google.com%2Fdocument%2Fd%2F1k79afSI7WEvAnJGgy5ANs8Xw_wfJ8XWEuk9ri6exIVQ%2Fedit&group=9ypxjpYK
By reflecting-in-action,  the practitioner is able to gain metacognitive awareness  and perceive his/her intuitions and biases, test  hypotheses, and take on new perspectives. The  approach of having students learn by designing their  own games combines design thinking and game-based  learning (Kafai, 1995, 2006; Li, Lemieuz,  Vandermeiden, & Nathoo, 2013). Design thinking also  supports new forms of literacies brought on by new  media technologies as well as game-based learning.

It is likely that the effects of gamification cannot  easily be measured satisfactorily through surveys of  motivation, engagement, attendance, or grades because  there are too many variables that could affect how students  respond. Critics of gamification argue that it over

simplifies complex problems (Bogost, 2015; Robertson,  2010). However, both gamification and design thinking  are approaches to problem-solving. With design thinking,  gamification may be used in more meaningful ways  because design thinking offers a different lens through  which to conceptualize the problem.

CMI5

CMI5: A Call to Action

Robert “Bob” Bilyk Robert “Bob” Bilyk

https://lodestarlearn-wordpress-com.cdn.ampproject.org/c/s/lodestarlearn.wordpress.com/2021/10/29/cmi5-a-call-to-action/amp/

SCORM still remains the standard for how we describe, package, and report on eLearning.

CMI5 can generate a statement on virtually any kind of learner experience as well as the traditional data elements such as score, time on task, quiz questions and student answers. In this sense, CMI5 supports both openness and structure.

With CMI5, you can place a learning activity in a repository, in GitHub, on a web server, in a Site44 drop box site, in SharePoint, in a distributed network, wherever….without restricting its ability to connect with a learning management system. CMI5 content does not need to be imported. A CMI5 package can contain as little as one XML file, which among other things, tells the LMS where to find the content.

 

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