Metaliterate Learning for the Post-Truth World to be Published this Fall!
definition:
Metaliteracy is a pedagogical model for ensuring that learners successfully participate in collaborative information environments, including social media and online communities.
Metaliteracy supports reflective learning through metacognitive thinking, the ethical production of new knowledge, the critical consumption of information, and the responsible sharing of verifiable content across media platforms. Through metaliteracy, learners are envisioned as teachers in collaborative social spaces. This book examines the newest version of the Metaliteracy Goals and Learning Objectives, including the four domains of metaliterate learning.
the trending but undefined concepts of digital storytelling and immersive learning
definition
Storytelling is a logical form of thought. It is an analytical process including perception, labeling, organizing, categorizing real and imaginary objects and their real and imaginary relations in speech.
Q: What do you think immersive documentation technologies such as 360 images and videos can bring to this process?
V: 360 degree media and virtual reality are cultural-historically developed tools that mediate our relationship to the world in a new way. They expand the possible fields of perception transcending space and time. Perception precedes other psychological functions.
Definition
Immersive storytelling can be understood as an activity through which students use language to visualize relations and meaning in 360 degree digital environments. Naming or describing relations between objects in our field of perception using verbal or visual language awakens intellectual processes fundamental to learning.
Q: Would you say immersive storytelling is a form of creative play?
V: That is a possible interpretation. Play is a psychological process through which we create an imaginary situation or place, reflecting or separating objects and their actual meaning, or creating new meanings. The ability to digitally create and modify situations and environments can be understood as a form of play, opening a realm of spontaneity and freedom, connected with pleasure.
Q: Can robots help us learn? Is AI already the More Knowledgeable Other?
V: The More Knowledgeable Other (MKO) refers to anyone or anything who has a better understanding or a higher ability level than the learner, with respect to a particular task, process, or concept. If a robot with artificial intelligence can function as an MKO and support our problem solving, it can expand our Zone of Proximal Development.
Beyond The Buzz Phrase: Social Learning And LMS Gamification In Real Life
When: Thursday 26 July 2018, 11:00 PM – 12:00 PM
Adobe’s Senior Learning Evangelist, Katrina Marie Baker in our webinar, and find out how you can easily transform your learning by taking a deep dive into the 2 smartest learning breakthroughs of the decade: Social Learning & Gamification 🚀
During this session, you will:
• Learn how to blend social learning into existing courses using an LMS
• Discover how gamification can be aligned with your business objectives
• Come upon the latest learning tech tips to help you drive engagement
• See examples of how gamification and social learning can be both employed in Captivate Prime LMS
Are social learning and gamification the new fashion that will dominate the future of eLearning? Let’s find out together!
Digital tools can transform, not just replicate, the teaching and learning experience
Commentary: The Substitution Augmentation Modification Redefinition Model (SAMR) and the Technological Pedagogical Content Knowledge (TPACK) models of technology implementation can help schools as they transition to using more digital tools.
An, Donggun, and Martha Carr. “Learning styles theory fails to explain learning and achievement: Recommendations for alternative approaches.” Personality and Individual Differences 116 (2017): 410-416.
To assist time-strapped instructional faculty and staff, we offer a consolidated summary of key cognitive science principles, in the form of an easy-to-remember acronym: ANSWER.
Attention: Learning requires memory, and memory requires focused attention. Multitasking is a myth, and even the more scientifically-accurate term “task-switching” yields errors compared to focused attention. The brain is quite adept at filtering out dozens of simultaneous stimuli, as it does every second of wakefulness. Attention is a required ingredient for learning. This has ramifications for syllabus policies on the use of electronic devices for note-taking, which have been shown to be irresistible and therefore lead to distraction and lower scores (Ravizza, Uitvlugt, and Fenn). Even when students are not distracted, laptops are used primarily for dictation, which does little for long-term memory; writing by hand does more to stimulate attention and build neural networks than typing (Mueller and Oppenheimer).
Novelty: variety into lesson plans, activities, and opportunities for practice, instructors amplify potential learning for their students. Further, the use of metaphors in teaching enhances transfer, hemispheric integration, and retention, so using picture prompts and images can further solidify student learning (Sousa).
Spacing: Sometimes called “distributed practice,”the spacing effect refers to the jump in performance when students study a subject and then practice with gaps of time, ideally over one or more nights (sleep helps with memory consolidation), as compared to studying all at once, as if cramming the night before a test. Cramming, or massed practice, is successful for temporary test performance, since information is loaded into working memory. But the practices that work well for short-term memory do not work well for long-term memory. The spacing effect is particularly effective when combined with interleaving, the intentional practice of mixing in older learning tasks/skills with the new ones (Roedeiger, et al.). An ideal example of this would be regular quizzes in the semester that are cumulative (think “tiny final exams”).
Why: Memory is associative; when new memories are formed, neurons wire together (and later fire together), so the context can lead to the information, and vice versa. A teaching strategy of comprised of questions to guide lesson plans (perhaps even beginning with mystery) can pique student interest and learning potential. If you use PowerPoint, Haiku Deck, or Prezi, do your slides consist primarily of answers or questions?
Emotions: Short-term memories are stored in the hippocampus, a portion of the brain associated with emotions; the same area where we consolidate short-term into long-term memories overnight.
As instructors, we create the conditions in which students will motivate themselves (Ryan & Deci, 2000) by infusing our interactions with the positive emptions of curiosity, discovery, and fun. Simple gamification (quizzes with immediate feedback, for instance) can help.
Repetition: The creation of a new memory really means the formation of synapses across neurons and new neural pathways. These pathways and bridges degrade over time unless the synapse fires again. Consider the days before smartphones, when the way to remember a phone number was to repeat it several times mentally. Repetition, in all its forms, enables more effective recall later. This is why quizzing, practice testing, flashcards, and instructor-driven questioning and challenges are so effective.
Session Title: Measuring Learning Outcomes of New Library Initiatives Coordinator: Professor Plamen Miltenoff, Ph.D., MLIS, St. Cloud State University, USA Contact: pmiltenoff@stcloudstate.edu Scope & rationale: The advent of new technologies, such as virtual/augmented/mixed reality, and new pedagogical concepts, such as gaming and gamification, steers academic libraries in uncharted territories. There is not yet sufficiently compiled research and, respectively, proof to justify financial and workforce investment in such endeavors. On the other hand, dwindling resources for education presses administration to demand justification for new endeavors. As it has been established already, technology does not teach; teachers do; a growing body of literature questions the impact of educational technology on educational outcomes. This session seeks to bring together presentations and discussion, both qualitative and quantitative research, related to new pedagogical and technological endeavors in academic libraries as part of education on campus. By experimenting with new technologies such as Video 360 degrees and new pedagogical approaches such as gaming and gamification, does the library improve learning? By experimenting with new technologies and pedagogical approaches, does the library help campus faculty to adopt these methods and improve their teaching? How can results be measured, demonstrated?
We invite you to an upcoming session in the 2017-18 CIDER Sessions series on Wednesday, May 2, 2018. This free, online session will feature David Mykota from the University of Saskatchewan.
Title: Social Presence in Online Learning: A Scoping Study
This presentation reports the findings of a scoping review of the construct social presence. The methodology follows the design for scoping reviews as advocated by Arksey and O’Malley (2005).
A scoping study is desirable because by synthesizing the research literature the opportunity to identify practical guidelines for the development of social presence is facilitated. A two-stage screening process resulted in 105 studies identified for inclusion with data extracted using a standardized form. A descriptive numerical analysis and qualitative content analysis for those studies included was undertaken. Results from the manuscripts, screened for inclusion and synthesized from the data extracted in the scoping review, provide strategies for the structuring of social presence; the potential benefits of effective affective communication in an online environ; and an overview of the evolution of the construct social presence. Future research that links both the theoretical and empirical frameworks that validate social presence across a variety of online and e-learning environs is recommended so that best practices for excellence in higher education can continue to be made possible.
When: Wednesday, May 2, 2018 – 11am to 12noon Mountain Time (Canada)
Registration is not required; all are welcome. CIDER Sessions are recorded and archived for later viewing through the CIDER website. For more information on CIDER and our Sessions, please visit us at: http://cider.athabascau.ca
Pre-configuration:
Please note that it is important to set up your system prior to the event. Make sure your Mac or PC is equipped with a microphone and speakers, so that you can use the audio functionality built into the conferencing software. The Adobe Connect platform may require an update to your Flash Player; allow time for this update by joining the session 10 minutes prior to the scheduled presentation.
*********************
CIDER sessions are brought to you by the International Review of Research in Open and Distributed Learning (IRRODL) and the Centre for Distance Education, Athabasca University: Canada’s Open University and leader in professional online education. The Sessions and their recordings are open and available to all, licensed under a Creative Commons Attribution 4.0 International License.