The EDUCAUSE Learning Initiative has just launched its 2018 Key Issues in Teaching and Learning Survey, so vote today: http://www.tinyurl.com/ki2018.
Each year, the ELI surveys the teaching and learning community in order to discover the key issues and themes in teaching and learning. These top issues provide the thematic foundation or basis for all of our conversations, courses, and publications for the coming year. Longitudinally they also provide the way to track the evolving discourse in the teaching and learning space. More information about this annual survey can be found at https://www.educause.edu/eli/initiatives/key-issues-in-teaching-and-learning.
ACADEMIC TRANSFORMATION (Holistic models supporting student success, leadership competencies for academic transformation, partnerships and collaborations across campus, IT transformation, academic transformation that is broad, strategic, and institutional in scope)
ACCESSIBILITY AND UNIVERSAL DESIGN FOR LEARNING (Supporting and educating the academic community in effective practice; intersections with instructional delivery modes; compliance issues)
ADAPTIVE TEACHING AND LEARNING (Digital courseware; adaptive technology; implications for course design and the instructor’s role; adaptive approaches that are not technology-based; integration with LMS; use of data to improve learner outcomes)
COMPETENCY-BASED EDUCATION AND NEW METHODS FOR THE ASSESSMENT OF STUDENT LEARNING (Developing collaborative cultures of assessment that bring together faculty, instructional designers, accreditation coordinators, and technical support personnel, real world experience credit)
DIGITAL AND INFORMATION LITERACIES (Student and faculty literacies; research skills; data discovery, management, and analysis skills; information visualization skills; partnerships for literacy programs; evaluation of student digital competencies; information evaluation)
EVALUATING TECHNOLOGY-BASED INSTRUCTIONAL INNOVATIONS (Tools and methods to gather data;data analysis techniques; qualitative vs. quantitative data; evaluation project design; using findings to change curricular practice; scholarship of teaching and learning; articulating results to stakeholders; just-in-time evaluation of innovations). here is my bibliographical overview on Big Data (scroll down to “Research literature”: https://blog.stcloudstate.edu/ims/2017/11/07/irdl-proposal/ )
EVOLUTION OF THE TEACHING AND LEARNING SUPPORT PROFESSION (Professional skills for T&L support; increasing emphasis on instructional design; delineating the skills, knowledge, business acumen, and political savvy for success; role of inter-institutional communities of practices and consortia; career-oriented professional development planning)
FACULTY DEVELOPMENT (Incentivizing faculty innovation; new roles for faculty and those who support them; evidence of impact on student learning/engagement of faculty development programs; faculty development intersections with learning analytics; engagement with student success)
GAMIFICATION OF LEARNING (Gamification designs for course activities; adaptive approaches to gamification; alternate reality games; simulations; technological implementation options for faculty)
INSTRUCTIONAL DESIGN (Skills and competencies for designers; integration of technology into the profession; role of data in design; evolution of the design profession (here previous blog postings on this issue: https://blog.stcloudstate.edu/ims/2017/10/04/instructional-design-3/); effective leadership and collaboration with faculty)
INTEGRATED PLANNING AND ADVISING FOR STUDENT SUCCESS (Change management and campus leadership; collaboration across units; integration of technology systems and data; dashboard design; data visualization (here previous blog postings on this issue: https://blog.stcloudstate.edu/ims?s=data+visualization); counseling and coaching advising transformation; student success analytics)
LEARNING ANALYTICS (Leveraging open data standards; privacy and ethics; both faculty and student facing reports; implementing; learning analytics to transform other services; course design implications)
LEARNING SPACE DESIGNS (Makerspaces; funding; faculty development; learning designs across disciplines; supporting integrated campus planning; ROI; accessibility/UDL; rating of classroom designs)
MICRO-CREDENTIALING AND DIGITAL BADGING (Design of badging hierarchies; stackable credentials; certificates; role of open standards; ways to publish digital badges; approaches to meta-data; implications for the transcript; Personalized learning transcripts and blockchain technology (here previous blog postings on this issue: https://blog.stcloudstate.edu/ims?s=blockchain)
MOBILE LEARNING (Curricular use of mobile devices (here previous blog postings on this issue:
MULTI-DIMENSIONAL TECHNOLOGIES (Virtual, augmented, mixed, and immersive reality; video walls; integration with learning spaces; scalability, affordability, and accessibility; use of mobile devices; multi-dimensional printing and artifact creation)
NEXT-GENERATION DIGITAL LEARNING ENVIRONMENTS AND LMS SERVICES (Open standards; learning environments architectures (here previous blog postings on this issue: https://blog.stcloudstate.edu/ims/2017/03/28/digital-learning/; social learning environments; customization and personalization; OER integration; intersections with learning modalities such as adaptive, online, etc.; LMS evaluation, integration and support)
ONLINE AND BLENDED TEACHING AND LEARNING (Flipped course models; leveraging MOOCs in online learning; course development models; intersections with analytics; humanization of online courses; student engagement)
OPEN EDUCATION (Resources, textbooks, content; quality and editorial issues; faculty development; intersections with student success/access; analytics; licensing; affordability; business models; accessibility and sustainability)
PRIVACY AND SECURITY (Formulation of policies on privacy and data protection; increased sharing of data via open standards for internal and external purposes; increased use of cloud-based and third party options; education of faculty, students, and administrators)
WORKING WITH EMERGING LEARNING TECHNOLOGY (Scalability and diffusion; effective piloting practices; investments; faculty development; funding; evaluation methods and rubrics; interoperability; data-driven decision-making)
Minecraft for Higher Ed? Try it. Pros, Cons, Recommendations?
Description: Why Minecraft, the online video game? How can Minecraft improve learning for higher education? We’ll begin with a live demo in which all can participate (see “Minecraft for Free”). We’ll review “Examples, Not Rumors” of successful adaptations and USES of Minecraft for teaching/learning in higher education. Especially those submitted in advance And we’ll try to extract from these activities a few recommendations/questions/requests re Minecraft in higher education.
Callaghan, N. (2016). Investigating the role of Minecraft in educational learning environments. Educational Media International, 53(4), 244-260. doi:10.1080/09523987.2016.1254877
Noelene Callaghan dissects the evolution in Australian education from a global perspective. She rightfully draws attention (p. 245) to inevitable changes in the educational world, which still remain ignored: e.g., the demise of “traditional” LMS (Educase is calling for their replacement with digital learning environments https://blog.stcloudstate.edu/ims/2017/07/06/next-gen-digital-learning-environment/ and so does the corporate world of learning: https://blog.stcloudstate.edu/ims/2017/03/28/digital-learning/ ), the inevitability of BYOD (mainly by the “budget restrictions and sustainability challenges” (p. 245); by the assertion of cloud computing, and, last but not least, by the gamification of education.
p. 245 literature review. In my paper, I am offering more comprehensive literature review. While Callaghan focuses on the positive, my attempt is to list both pros and cons: http://scsu.mn/1F008Re
246 General use of massive multiplayer online role playing games (MMORPGs)
levels of interaction have grown dramatically and have led to the creation of general use of massive multiplayer online role playing games (MMORPGs)
247 In teaching and learning environments, affordances associated with edugames within a project-based learning (PBL) environment permit:
These affordances develop both social and cognitive abilities of students
Nebel, S., Schneider, S., Beege, M., Kolda, F., Mackiewicz, V., & Rey, G. (2017). You cannot do this alone! Increasing task interdependence in cooperative educational videogames to encourage collaboration. Educational Technology Research & Development, 65(4), 993-1014. doi:10.1007/s11423-017-9511-8
Abrams, S. S., & Rowsell, J. (2017). Emotionally Crafted Experiences: Layering Literacies in Minecraft. Reading Teacher, 70(4), 501-506.
Nebel, S., Schneider, S., & Daniel Rey, G. (2016). Mining Learning and Crafting Scientific Experiments: A Literature Review on the Use of Minecraft in Education and Research. Source: Journal of Educational Technology & Society, 19(192), 355–366. Retrieved from http://www.jstor.org/stable/jeductechsoci.19.2.355
Cipollone, M., Schifter, C. C., & Moffat, R. A. (2014). Minecraft as a Creative Tool: A Case Study. International Journal Of Game-Based Learning, 4(2), 1-14.
Niemeyer, D. J., & Gerber, H. R. (2015). Maker culture and Minecraft : implications for the future of learning. Educational Media International, 52(3), 216-226. doi:10.1080/09523987.2015.1075103
Nebel, S., Schneider, S., & Daniel Rey, G. (2016). Mining Learning and Crafting Scientific Experiments: A Literature Review on the Use of Minecraft in Education and Research. Journal of Educational Technology & Society, 19(192), 355–366. Retrieved from http://www.jstor.org/stable/jeductechsoci.19.2.355
Wilkinson, B., Williams, N., & Armstrong, P. (2013). Improving Student Understanding, Application and Synthesis of Computer Programming Concepts with Minecraft. In The European Conference on Technology in the Classroom 2013. Retrieved from http://iafor.info/archives/offprints/ectc2013-offprints/ECTC2013_0477.pdf
Uusi-Mäkelä, M., & Uusi-Mäkelä, M. (2014). Immersive Language Learning with Games: Finding Flow in MinecraftEdu. EdMedia: World Conference on Educational Media and Technology (Vol. 2014). Association for the Advancement of Computing in Education (AACE). Retrieved from https://www.learntechlib.org/noaccess/148409/
Birt, J., & Hovorka, D. (2014). Effect of mixed media visualization on learner perceptions and outcomes. In 25th Australasian Conference on Information Systems (pp. 1–10). Retrieved from http://epublications.bond.edu.au/fsd_papers/74
Al Washmi, R., Bana, J., Knight, I., Benson, E., Afolabi, O., Kerr, A., Hopkins, G. (2014). Design of a Math Learning Game Using a Minecraft Mod. https://doi.org/10.13140/2.1.4660.4809
SCSU Library search, Google, Professional organization, (e.g. NASET), Stacks of magazines, SCSU library info, but need to know what all of the options mean on that page
Setting cell phone expectations early is key to accessing the learning potential of these devices and minimizing the distraction factor.Liz Kolb September 11, 2017
Ten is now the average age when children receive their first cell phones
develop a positive mobile mental health in the first weeks of school by discussing their ideas on cell phone use, setting up a stoplight management system, and establishing a class contract
What do you like to do on your cell phone and why? (If they don’t have one, what would they like to do?)
What are the most popular apps and websites you use?
What do you think are inappropriate ways that cell phones have been used?
What is poor cell phone etiquette? Why?
How can cell phones help you learn?
How can cell phones distract from your learning?
How do you feel about your cell phone and the activities you do on your phone?
What should teachers know about your cell phone use that you worry we do not understand?
Do you know how to use your cell phone to gather information, to collaborate on academic projects, to evaluate websites?
How can we work together to create a positive mobile mental health?
Using a Stoplight Management Approach
Post a red button on the classroom door:the cell phone parking lot. Post a yellow button on the classroom door
Post a green button on the classroom door
Establishing a Class Contract: Ask them to brainstorm consequences and write them into a class contract.
Please join me September 20 for a free webinar where Dr. Sheryl Abshire, CTO of Calcasieu Parish SD and a recognized leader in K-12 technology, shares her insights on the top strategies, best practices and most valuable ideas that can reduce IT departmental costs and increase efficiencies.
What: New Ways to Measure & Leverage the Value of IT When: 09/20 @ 2:00 PM ET | 11:00 AM PT
Listen in and learn how to:
· Use data you already collect to justify needs and resources
· Create a new value proposition for IT
· Measure the strategic use of IT in the district
· Determine if your current technology is making the difference you expected
https://www.schooldude.com/ Tech support costs in K12 increased by 50% in the last four years from 14% to 21% of the technology budget. One half of the school technology leaders said that their school board understands that technology relates to district oveall goals , it is not as supportive financially. Worse, 8% felt that the school board does not believe technology is important to their district overall goals
Harvard Business Report Driving Digital Transformation. 2015 surveyed digital leaders. Driving innovation most important role breaking down internal silos
virtualization; data deluge; energy and green IT; complex resource tracking; consumerization and social software; unified communications; mobile and wireless; system density; mashups and portals; cloud computing
what is a quick recovery?
Action plan: 1. Focus on virtualization and green IT for immediate cost and flexibility benefits. 2. Look at storage virtualization, deduplication and thin provisioning. 3. Evaluate web social software to transform interactions 4. exploit mashups and cloud-based services to address immediate user needs. 5. link UC to collaboration and enterprise applications to support growth initiatives. 6. begin to track weak signals and subtle patterns – from everywhere.
managing upkeep and replacement of growing number of devices
time
perception gap (what we are doing)
tool: Insight
agentless network discovery mechanism. scanning of devices on the network. optimize hard software usage, improve planning and budgeting process with status reporting.
MDM (mobile device management). supports both BYOD and school devices. control app distribution across the network, supervise device usage, remotely manage device policy
Helpdesk: complete ticket to close helpdesk solution
++++++++++++++++++
Q&A time
technology facilitators: spend time at assigned schools; talk to teacher and try to figure out what teachers know about technology and then work the principal to customize workshops (PLCs) to build the skills based on their skills set. versus technology facilitator at every school. Help them grow their own.
It’s the first time mobile learning ranked as the highest priority in the survey. The No. 2 priority is broadband and network capacity, which ranked first last year, and the No. 3 priority is cybersecurity and privacy, with 62 percent of respondents rating them more important than last year.
Understaffing remains a key issue for technology departments in school systems.
Single sign-on (SSO) is the most implemented interoperability initiative
More than one-third of IT leaders expressed no interest in bring your own device (BYOD) initiatives, up from 20 percent in 2014.
Interest in open educational resources (OER) is high
Education technology experience is common among IT leaders
Strong academic backgrounds are also prevalent among IT leaders.
Lack of diversity continues to be an issue for school district technology leaders.
CoSN is a nonprofit association for school system technology leaders. To read or download the full IT leadership survey, visit this CoSN site.
continued practice, clear goals and immediate feedback
project-based learning, Minecraft and SimCity EDU
Gamification of learning versus learning with games
organizations to promote gaming and gamification in education (p. 6 http://scsu.mn/1F008Re)
the “chocolate-covered broccoli” problem
Discussion: why gaming and gamification is not accepted in a higher rate? what are the hurdles to enable greater faster acceptance? What do you think, you can do to accelerate this process?
Gaming in an academic library
why the academic library? sandbox for experimentation
the connection between digital literacy and gaming and gamificiation
Gilchrist and Zald’s model for instruction design through assessment
Discussion: based on the example (http://web.stcloudstate.edu/pmiltenoff/bi/), how do you see transforming academic library services to meet the demands of 21st century education?
Gaming, gamification and assessment (badges)
inability of current assessments to evaluate games as part of the learning process
“microcredentialing” through digital badges
Mozilla Open Badges and Badgestack
leaderboards
Discussion: How do you see a transition from the traditional assessment to a new and more flexible academic assessment?
The global interactive whiteboard (IWB) market is expected to make a comeback and grow at a compound annual growth rate of almost 7 percent from 2016 through 2020, according to a recent report issued by London-based tech market research firm Technavio.
And according to THE Journal’s “Teaching with Technology” survey published in September, 68 percent of teachers who responded use interactive whiteboards in the classroom, while 8 percent have IWBs on their wish list, and 4 percent will be using them within one year. At the same time, however, 20 percent of respondents said that IWBs would be dead and gone within the next decade, ranking second only to desktop computers
In addition to blended learning, which includes gamification, social learning and bring-your-own-device (BYOD) policies, Technavio analysts highlighted the following factors that are contributing to the growth of the IWB market: