Outline:
The Gamification of the educations process is not a new concept. The advent of educational technologies, however, makes the idea timely and pertinent. In short 60 min, we will introduce the concept of gamification of the educational process and discuss real-live examples.

Learning Outcomes:

at the end of the session, participants will have an idea about gaming and gamification in education and will be able to discriminate between those two powerful concepts in education
at the end of this session, participants will be able search and select VIdeo 360 movies for their class lessons
at the end of the session, participants will be able to understand the difference between VR, AR and MR.

if you are interested in setting up a makerspace and/or similar gaming space at your school, please contact me after this workshop for more information.

Gaming in education
Minecraft.edu
https://blog.stcloudstate.edu/ims/2017/10/26/pedagogically-sound-minecraft-examples/
Simcity.com

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Here some online games suitable for educators:
http://www.onlinecolleges.net/50-great-sites-for-serious-educational-games/

https://www.learn4good.com/games/for-high-school-students.htm

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Let’s learn more about gaming and education with Kahoot (please click on Kahoot):

https://play.kahoot.it/#/k/78e64d54-3607-48fa-a0d3-42ff557e29b1

Let’s take a quiz together:

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Gamification in education
1. How would you define gamification of the educational process?
2. Gaming and Gamification in academic and library settings (paper)
  Short URL: http://scsu.mn/1F008Re
  Gamification takes game elements (such as points, badges, leaderboards, competition, achievements) and applies them to a non-game setting. It has the potential to turn routine, mundane tasks into refreshing, motivating experiences (What is GBL (Game-Based Learning)?, n.d.).
  Gamification is defined as the process of applying game mechanics and game thinking to the real world to solve problems and engage users (Phetteplace & Felker, 2014, p. 19; Becker, 2013, p. 199; Kapp, 2012). Gamification requires three sets of principles: 1. Empowered Learners, 2. Problem Solving, 3. Understanding (Gee, 2005).
3. Apply gamification tactics to existing learning task
  split in groups and develop a plan to gamify existing learning task
4. gamification with and without technology
  https://www.thespruce.com/board-games-for-college-kids-3570593

+++ hands-on ++++++++++++++++ hands-on ++++++++++++++++ hands-on ++++++

Video 360 in the classroom (proposed book chapter)
1. the importance of Video 360
  p. 46 Virtual Reality
  https://blog.stcloudstate.edu/ims/2017/08/30/nmc-horizon-report-2017-k12/
  p. 47 Google is bringing VR to UK kids
  http://www.wired.co.uk/article/google-digital-skills-vr-pledge
  Video 360 movies for education:
  http://virtualrealityforeducation.com/google-cardboard-vr-videos/science-vr-apps/
  Watch this movie on the big screen:
  
  from the web page above, choose a movie or click on this link:
  https://youtu.be/nOHM8gnin8Y (to watch a black hole in video 360)
  Open the link on your phone and insert the phone in Google Cardboard. Watch the video using Google Cardboard.
2. Discuss the difference between in your experience watching the movie on the big screen and using Google Cardboard. What are the advantages of using goggles, such as Google Cardboard?
  Enter your findings here:
  https://docs.google.com/document/d/1Nz42T6CaYsx8qVl9ee_IC25EyqS0A8aZcQdX2F6RMjg/edit?usp=sharing

Let’s learn more about gaming and education with Kahoot (please click on Kahoot):

https://play.kahoot.it/#/k/6c9e7368-f830-4a9c-8f5a-df1899e96665

VR, AR, MR and Video 360.
1. discuss your ideas to apply VR/AR/MR and Video 360 in real life and your profession
  https://docs.google.com/document/d/1Cq6zDXJ9xkN7h81RpiLkdflbAuX8y_my2VrbO3mZ5mM/edit?usp=sharing
Creating your own games:
https://blog.stcloudstate.edu/ims/2018/02/19/unity/

++++++ RESOURCES ++++++++++ RESOURCES ++++++++++ RESOURCES +++++++

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

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

https://blog.stcloudstate.edu/ims?s=virtual+reality

https://blog.stcloudstate.edu/ims?s=video+360

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For further information about Information Media:

IM Facebook Group	https://www.facebook.com/groups/326983293392/
IM Facebook Page	http://www.facebook.com/Informationmedia
IM Blog	blog.stcloudstate.edu/im
IM LinkedIn	https://www.linkedin.com/in/information-media-department-31360b28/
Twitter	https://twitter.com/IM_SCSU
Youtube	https://www.youtube.com/channel/UCIluhVNJLJYEJ7983VmhF8w

06
Jan
2018

immersive learning

categories: Digital literacy, educational technology, instructional technology, mobile learning, technology literacy

VR and AR: Learners as Creators and World Builders of Our Immersive Future

by Emory Craig and Maya Georgieva Friday, December 15, 2017https://er.educause.edu/blogs/2017/12/vr-and-ar-learners-as-creators-and-world-builders-of-our-immersive-future

By creating engaging 360° tours, students are not only learning these new tools for themselves but are also helping local organizations see the possibility of VR for marketing and public relations.

some key takeaways from the projects that we have seen:

Let the students lead: In all of these projects, students are taking the initiative. The institutions are providing the technology, the space, organizational vision, and in some cases, academic credit. At NYU Tandon, students organized the entire conference, doing publicity, registration, catering, and scheduling (see figure 4). They brought in a diverse group of speakers from academic, tech, and startup backgrounds. The event included TED-style spotlights, talks, workshops, and demos.
Don’t compromise on space: Brown University’s Granoff Center for the Creative Arts is designed to encourage cross-discipline collaboration. The Tandon event used the main auditorium and the flagship NYU MakerSpace. Space influences behavior and is crucial in driving collaboration and active participation. In addition, to produce VR and AR/MR experiences students need access to high-end technology and, in some cases, motion-capture studios and 360° cameras.
Create opportunities for social impact: Many of these programs are open to the local community or have been designed to have an impact outside higher education. At Emporia State, students are using VR and 360° video to help local businesses. The Gaspee Affair VR experience at Brown University will become a resource for teaching middle and high school students.
Showcase student work: So often in education, the work students do in a course is only seen by others in the same class. Like the example at Texas A&M, all of these experiences have a connection with their campus or larger community. VR and AR engender a level of excitement that gets students engaged with each other and encourage peer learning. It’s worth it to seek out opportunities to bring this work to community events.

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more on VR in education in this IMS blog

https://blog.stcloudstate.edu/ims?s=virtual+reality+education

14
Nov
2017

International Conference on Learning Athens Greece

categories: academic library, andragogy, announcement, Digital literacy, e-learning, information literacy, Library and information science, student-centered learning

Twenty-fifth International Conference on Learning

2018 Special Focus: Education in a Time of Austerity and Social Turbulence 21–23 June 2018 University of Athens, Athens, Greece http://thelearner.com/2018-conference

Technology and human values: learning through and about technology
Crossing the digital divide: access to learning in, and about, the digital world
New tools for learning: online digitally mediated learning
Virtual worlds, virtual classrooms: interactive, self-paced and autonomous learning
Ubiquitous learning: using the affordances of the new mediaDistance learning: reducing the distance

Defining new literacies
Languages of power: literacy’s role in social access
Instructional responses to individual differences in literacy learning
The visual and the verbal: Multiliteracies and multimodal communications
Literacy in learning: language in learning across the subject areas
The changing role of libraries in literacies learning
Languages education and second language learning
Multilingual learning for a multicultural world
The arts and design in multimodal learning
The computer, internet, and digital media: educational challenges and responses

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PROPOSAL: Paper presentation in a Themed Session

Title

Virtual Reality and Gamification in the Educational Process: The Experience from an Academic Library

short description

VR, AR and Mixed Reality, as well as gaming and gamification are proposed as sandbox opportunity to transition from a lecture-type instruction to constructivist-based methods.

long description

The NMC New Horizon Report 2017 predicts a rapid application of Video360 in K12. Millennials are leaving college, Gen Z students are our next patrons. Higher Education needs to meet its new students on “their playground.” A collaboration by a librarian and VR specialist is testing the opportunities to apply 360 degree movies and VR in academic library orientation. The team seeks to bank on the inheriting interest of young patrons toward these technologies and their inextricable part of a rapidly becoming traditional gaming environment. A “low-end,” inexpensive and more mobile Google Cardboard solution was preferred to HTC Vive, Microsoft HoloLens or comparable hi-end VR, AR and mixed reality products.

The team relies on the constructivist theory of assisting students in building their knowledge in their own pace and on their own terms, rather than being lectured and/or being guided by a librarian during a traditional library orientation tour. Using inexpensive Google Cardboard goggles, students can explore a realistic set up of the actual library and familiarize themselves with its services. Students were polled on the effectiveness of such approach as well as on their inclination to entertain more comprehensive version of library orientation. Based on the lessons from this experiment, the team intends to pursue also a standardized approach to introducing VR to other campus services, thus bringing down further the cost of VR projects on campus. The project is considered a sandbox for academic instruction across campus. The same concept can be applied for [e.g., Chemistry, Physics, Biology) lab tours; for classes, which anticipate preliminary orientation process.

Following the VR orientation, the traditional students’ library instruction, usually conducted in a room, is replaced by a dynamic gamified library instruction. Students are split in groups of three and conduct a “scavenger hunt”; students use a jQuery-generated Web site on their mobile devices to advance through “hoops” of standard information literacy test. E.g., they need to walk to the Reference Desk, collect specific information and log their findings in the Web site. The idea follows the strong interest in the educational world toward gaming and gamification of the educational process. This library orientation approach applies the three principles for gamification: empowers learners; teaches problem solving and increases understanding.
Similarly to the experience with VR for library orientation, this library instruction process is used as a sandbox and has been successfully replicated by other instructors in their classes.

Keywords

academic library

literacies learning

digitally mediated learning

07
Nov
2017

Key Issues in Teaching and Learning Survey

categories: Digital literacy, learning, mobile learning, teaching

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:

https://blog.stcloudstate.edu/ims/2015/09/25/mc218-remodel/; innovative curricular apps; approaches to use in the classroom; technology integration into learning spaces; BYOD issues and opportunities)

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)

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learning and teaching in this IMS blog
https://blog.stcloudstate.edu/ims?s=teaching+and+learning

01
Nov
2017

VR and students with special needs

categories: Digital literacy, educational technology, gamification, gaming, instructional technology, learning styles, Multiple intelligences, student-centered learning

Bibliography on virtual reality and students with physical and cognitive disabilities

Jeffs, T. L. (2009). Virtual Reality and Special Needs. Themes In Science And Technology Education, 2(1-2), 253-268.

http://login.libproxy.stcloudstate.edu/login?qurl=http%3a%2f%2fsearch.ebscohost.com%2flogin.aspx%3fdirect%3dtrue%26db%3deric%26AN%3dEJ1131319%26site%3dehost-live%26scope%3dsite

Lahav, O., Sharkey, P., & Merrick, J. (2014). Virtual and augmented reality environments for people with special needs. International Journal Of Child Health And Human Development, 7(4), 337-338.

http://login.libproxy.stcloudstate.edu/login?qurl=http%3a%2f%2fsearch.ebscohost.com%2flogin.aspx%3fdirect%3dtrue%26db%3dpsyh%26AN%3d2015-10704-001%26site%3dehost-live%26scope%3dsite

Cai, Y., Chiew, R., Nay, Z. T., Indhumathi, C., & Huang, L. (2017). Design and development of VR learning environments for children with ASD. Interactive Learning Environments, 25(8), 1098-1109. doi:10.1080/10494820.2017.1282877

http://login.libproxy.stcloudstate.edu/login?qurl=http%3a%2f%2fsearch.ebscohost.com%2flogin.aspx%3fdirect%3dtrue%26db%3dkeh%26AN%3d125723945%26site%3dehost-live%26scope%3dsite

Passig, D. (2011). The Impact of Immersive Virtual Reality on Educators’ Awareness of the Cognitive Experiences of Pupils with Dyslexia. Teachers College Record, 113(1), 181-204.

http://login.libproxy.stcloudstate.edu/login?qurl=http%3a%2f%2fsearch.ebscohost.com%2flogin.aspx%3fdirect%3dtrue%26db%3deric%26AN%3dEJ913420%26site%3dehost-live%26scope%3dsite

Ke, F., & Im, T. (2013). Virtual-Reality-Based Social Interaction Training for Children with High-Functioning Autism. Journal Of Educational Research, 106(6), 441-461. doi:10.1080/00220671.2013.832999

http://login.libproxy.stcloudstate.edu/login?qurl=http%3a%2f%2fsearch.ebscohost.com%2flogin.aspx%3fdirect%3dtrue%26db%3dkeh%26AN%3d90465242%26site%3dehost-live%26scope%3dsite

Collins, J., Hoermann, S., & Regenbrecht, H. (2016). Comparing a finger dexterity assessment in virtual, video-mediated, and unmediated reality. International Journal Of Child Health And Human Development, 9(3), 333-341.

http://login.libproxy.stcloudstate.edu/login?qurl=http%3a%2f%2fsearch.ebscohost.com%2flogin.aspx%3fdirect%3dtrue%26db%3dpsyh%26AN%3d2016-53422-009%26site%3dehost-live%26scope%3dsite

Epure, P., Gheorghe, C., Nissen, T., Toader, L. O., Macovei, A. N., Nielsen, S. M., & … Brooks, E. P. (2016). Effect of the Oculus Rift head mounted display on postural stability. International Journal Of Child Health And Human Development, 9(3), 343-350.

http://login.libproxy.stcloudstate.edu/login?qurl=http%3a%2f%2fsearch.ebscohost.com%2flogin.aspx%3fdirect%3dtrue%26db%3dpsyh%26AN%3d2016-53422-010%26site%3dehost-live%26scope%3dsite

Sánchez, J., & Espinoza, M. (2016). Usability and redesign of a university entrance test based on audio for learners who are blind. International Journal Of Child Health And Human Development, 9(3), 379-387.

http://login.libproxy.stcloudstate.edu/login?qurl=http%3a%2f%2fsearch.ebscohost.com%2flogin.aspx%3fdirect%3dtrue%26db%3dpsyh%26AN%3d2016-53422-014%26site%3dehost-live%26scope%3dsite

Rizzo, A. A., Bowerly, T., Shahabi, C., Buckwalter, J. G., Klimchuk, D., & Mitura, R. (2004). Diagnosing Attention Disorders in a Virtual Classroom. Computer (00189162), 37(6), 87-89.

http://login.libproxy.stcloudstate.edu/login?qurl=http%3a%2f%2fsearch.ebscohost.com%2flogin.aspx%3fdirect%3dtrue%26db%3dkeh%26AN%3d13425208%26site%3dehost-live%26scope%3dsite

Eden, S. (2008). The effect of 3D virtual reality on sequential time perception among deaf and hard-of-hearing children. European Journal Of Special Needs Education, 23(4), 349-363. doi:10.1080/08856250802387315

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Eden, S., & Bezer, M. (2011). Three-dimensions vs. two-dimensions intervention programs: the effect on the mediation level and behavioural aspects of children with intellectual disability. European Journal Of Special Needs Education, 26(3), 337-353. doi:10.1080/08856257.2011.593827

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Lorenzo, G., Lledó, A., Roig, R., Lorenzo, A., & Pomares, J. (2016). New Educational Challenges and Innovations: Students with Disability in Immersive Learning Environments. In Virtual Learning. InTech. https://doi.org/10.5772/65219

https://www.intechopen.com/books/virtual-learning/new-educational-challenges-and-innovations-students-with-disability-in-immersive-learning-environmen

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

11
Oct
2017

digital access to nonprint collections

categories: academic library

Digital Access to Non-Print Collections

University libraries have held collections of books and printed material throughout their existence and continue to be perceived as repositories for physical collections. Other non-print specialized collections of interest have been held in various departments on campus such as Anthropology, Art, and Biology due to the unique needs of the collections and their usage. With the advent of electronic media, it becomes possible to store these non-print collections in a central place, such as the Libray.

The skills needed to curate artifacts from an archeological excavation, biological specimens from various life forms, and sculpture work are very different, making it difficult for smaller university libraries to properly hold, curate, and make available such collections. In addition, faculty in the various departments tend to want those collections near their coursework and research, so it can be readily available to students and researchers. With the expansion of online learning, the need for such availability becomes increasingly pronounced.

With the advent of 3 dimensional (3D) scanners, it has become possible for a smaller library to hold digital representations of these collections in an archive that can be curated from the various departments by experts in the discipline. The Library can then make the digital representations available to other researchers, students, and the public through kiosks in the Library or via the Internet. Current methods to scan and store an artifact in 3Dstill require expertise not often found in a Library.

We propose to use existing technology to build an easy-to-use system to scan smaller artifacts in 3D. The project will include purchase and installation of a workstation in the Library where the artifact collection can be accessed using a large touch-screen monitor, and a portable, easy-to-use 3D scanning station. Curators of collections from various departments on the St. Cloud State University campus can check out the scanning station, connect to power and Internet where the collection is located, and scan their collection into the libraries digital archives, making the collection easily available to students, other researchers and the public.

The project would include assembly of two workstations previously mentioned and potentially develop the robotic scanner. Software would be produced to automate the workflow from the scanner to archiving the digital representation and then make the collection available on the Internet.

This project would be a collaboration between the St. Cloud State University Library (https://www.stcloudstate.edu/library/ and Visualization Laboratory (https://www.facebook.com/SCSUVizLab/). The project would use the expertise and services of the St. Cloud State Visualization Laboratory. Dr. Plamen Miltenoff, a faculty with the Library will coordinate the Library initiatives related to the use of the 3D scanner. Mark Gill, Visualization Engineer, and Dr. Mark Petzold, Associate Professor of Electrical and Computer Engineering will lead a group of students in developing the software to automate the scanning, storage, and retrieval of the 3D models. The Visualization Lab has already had success in 3D scanning objects for other departments and in creating interactive displays allowing retrieval of various digital content, including 3D scanned objects such animal skulls and video. A collaboration between the Library, VizLab and the Center for Teaching and Learning (, https://www.stcloudstate.edu/teaching/) will enable campus faculty to overcome technical and financial obstacles. It will promote the VizLab across campus, while sharing its technical resources with the Library and making those resources widely available across campus. Such work across silos will expose the necessity (if any) of standardization and will help faculty embrace stronger collaborative practices as well as spur the process of reproduction of best practices across disciplines.

Budget:

Hardware	Cost
42” Touch Screen Monitor	$2200
Monitor Mount	$400
2 Computer Workstations	$5000
Installation	$500
Cart for Mobile 3D Scanner	$1000
3D Scanner (either purchase or develop in-house)	$2000
Total	$11100

The budget covers two computer workstations. One will be installed in the library as a way to access the digital catalog, and will include a 42 inch touch screen monitor mounted to a wall or stand. This installation will provide students a way to interact with the models in a more natural way. The second workstation would be mounted on a mobile cart and connected to the 3D scanner. This would allow collection curators from different parts of campus to check out the scanner and scan their collections. The ability to bring the scanner to the collection would increase the likelihood the collections to be scanned into the library collection.

The 3D scanner would either be purchased off-the shelf or designed by a student team from the Engineering Department. A solution will be sought to use and minimize the amount of training the operator would need. If the scanner is developed in-house, a simple optical scanner such as an XBox Kinect device and a turntable or robotic arm will be used. Support for the XBox Kinect is built into Microsoft Visual Studio, thus creating the interface efficient and costeffective.

Timeline

Task	Start Time	End Time
Catalog Software	October 2017	December 2017
Scanner Interface	October 2017	March 2018
Web Interface	January 2018	May 2018
System Installation	March 2018	May 2018

Personnel

Plamen Miltenoff, Ph.D., MLIS

pmiltenoff@stcloudstate.edu

320-308-3072

Dr. Miltenoff is part of a workgroup within the academic library, which works with faculty, students and staff on the application of new technologies in education. Dr. Miltenoff’s most recent research with Mark Gill is on the impact of Video 360 on students during library orientation: http://web.stcloudstate.edu/pmiltenoff/bi/

Mark Petzold, Ph.D.
mcpetzold@stcloudstate.edu
320-308-4182
Dr. Petzold is an Associate Professor in Electrical and Computer Engineering. His current projects involve visualization of meteorological data in a virtual reality environment and research into student retention issues. He is co-PI on a $5 million NSF S-STEM grant which gives scholarships to low income students and investigates issues around student transitions to college.

Mark Gill

mcgill@stcloudstate.edu

320-308-5605

Mr. Gill is a Visualization Engineer for the College of Science and Engineering and runs the Visualization Laboratory. He has worked for several major universities as well as Stennis Space Center and Mechdyne, Inc. He holds a Masters of Science in Software Engineering.

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University of Nevada, Reno and Pennsylvania State University 41 campus libraries to include collaborative spaces where faculty and students gather to transform virtual ideas into reality.

Maker Commons in the Modern Library: Six Reasons 3D Printers Should be in Your School’s Library

Maker Commons in the Modern Library 6 REASONS 3D PRINTERS SHOULD BE IN YOUR LIBRARY

1. Librarians Know How to Share 2. Librarians Work Well with IT People 3. Librarians Serve Everybody 4. Librarians Can Fill Learning Gaps 5. Librarians like Student Workers 6. Librarians are Cross-Discipline

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

20
Sep
2017

code4lib 2018

categories: announcement, conferences and other events

Code4Lib 2018 is a loosely-structured conference that provides people working at the intersection of libraries/archives/museums/cultural heritage and technology with a chance to share ideas, be inspired, and forge collaborations. For more information about the Code4Lib community, please visit http://code4lib.org/about/.

The conference will be held at the Omni Shoreham Hotel in Washington, DC, from February 13, 2018 – February 16, 2018. More information about Code4lib 2018 is available on this year’s conference website http://2018.code4lib.org.

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Mark Gill and Plamen Miltenoff proposal:

Gamification of Library Orientation and Instruction

Abstract

The rapid advent in the technologies of augmented and virtual reality (VR) in the last several years and the surge down in price creates possibilities for its increasing and ubiquitous application in education. A collaboration by a librarian and VR specialist led to testing opportunities to apply 360 video in academic library orientation. The team seeks to bank on the inherited interest of Millennials toward these technologies and their inextricable part of a growing gaming environment in education. A virtual introduction via 360 video aims to familiarize patrons with the library and its services: http://bit.ly/VRlib. I short Surveymonkey survey following the virtual introduction assesses learning outcomes and allows further instruction when necessary. Patrons can use any electronic devices from desktop to any size mobile devices. Patrons can also watch in panorama mode, and are provided with goggles if they would like to experience the VR mode.

The next step is an introduction to basic bibliographic instruction, followed by a gamified “scavenger hunt”-kind of exercise, which aims to gamify students’ ability to perform basic research: http://bit.ly/learnlib. The game is web-based and it can be played on any electronic devices from desktops to mobile devices. The game is followed by a short Google Form survey, which assesses learning outcomes and allows further work shall any knowledge gaps occur.

The team relies on the constructivist theory of assisting patrons in building their knowledge in their own pace and on their own terms, rather than being lectured and guided by a librarian only.

This proposal envisions half a day activities for participants to study the opportunities presented by 360 video camera and acquire the necessary skills to collect quickly useful footage and process it for the library needs. The second half of the day is allocated for learning Adobe Dreamweaver to manipulate the preexisting “templates” (HTML and jQuery code) for the game and adapt the content and the format to the needs of the participants’ libraries.

Mark Gill mcgill@stcloudstate.edu 320-308-5605

Plamen Miltenoff, Ph.D., MLIS pmiltenoff@stcloudstate.edu 320-308-3072

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more about code4lib in this IMS blog
https://blog.stcloudstate.edu/ims/2016/11/11/code4lib/

15
Sep
2017

Grant America for Bulgaria

categories: conferences and other events, information technology, Library and information science

http://www.us4bg.org/areas/education/

Proposal |Project Title

The 21^st Century Skills of the Academic Librarian in Bulgaria

Applicant:
Plamen Miltenoff, PhD, MLIS, http://web.stcloudstate.edu/pmiltenoff/faculty/
My experience and connections with the library organizations and professionals from Moldova, Bulgaria and Austria, as well as my 17+ years working at the St. Cloud State University library provides me with an opportunity for comparison and, consequently, proposal for collaborative practices with Bulgarian academic librarians.

Project Duration: one year

Problem Identification: Through the years, my work with faculty and librarians from Shoumen University (http://shu-bg.net/ ), Plovdiv University (https://uni-plovdiv.bg/), New Bulgarian University (https://nbu.bg/), the American University (https://www.aubg.edu/) and Sofia University (https://www.uni-sofia.bg/) helped me identify differences and similarities in the work of the Bulgarian educational institutions and academia from abroad.

The role of the academic librarian in the educational process is different/limited in Bulgaria compared to the United States. During a collaboration on gamifying library instruction (http://web.stcloudstate.edu/pmiltenoff/bi/), the NBU librarians demonstrated their propensity to shift their campus role close to the campus role of American librarians, yet in general the Bulgarian library guild remains traditional in their view of their responsibilities toward the educational process on campus.

Project Objectives:

This proposal aims regular discussions among professionals from Bulgarian and American (possibly other nations) librarians to determine the framework regarding librarian’s responsibilities. Are academic librarians faculty members or staff? Do they have teaching or service (or both) responsibilities? What are 20^th century academic librarians’ responsibilities are to be preserved? Updated? What are the 21^st century responsibilities to be gained? What is the relationship between academic librarians and faculty? What is expected from an academic librarians to ensure learning happens? To benefit faculty’s teaching?
A comparison of academic library structures, job descriptions, models and discourses can lead to deep[er] analysis of existing structures and possible reorganizations to improve the role of the library in particular and the efficiency of the educational institution in general.
Comparisons of topics and syllabi: multiliteraices as successor of information literacy? Is the academic library the hub for technological innovations (e.g makerspaces, 3D printing, virtual reality/augmented reality) and if not, what is the academic library role in the process?
Other relevant topics / issues are expected to transpire during such discourse.

Project Description:

The project is organized in collaboration of synchronous and asynchronous character during the span of one academic year. Three synchronous sessions each semester (six sessions for the entire semester) will provide a forum through e-conferencing tools (e.g. Adobe Connect, WebEx, Skype, Google Hangout etc.) for live discussions and planning. Weekly asynchronous dialog through social media (e.g. blog, Facebook Group, Google Group etc.) will provide the platform/ hub/ forum daily/detailed preparation for the monthly synchronous meetings.

Most valuable feedback through the weekly asynchronous discussions will be voted by participants and three best weekly contributions will be awarded badges. At the end of the academic year, the three contributors with largest collection of badges will be awarded cost for registration fee, travel and lodging to an important European conference regarding libraries and education.

The experience and lessons from the process will be summed up, published and presented at local (Bulgarian), regional (Balkans) and international (European, U.S.) educational conferences and events. Similar cross-cultural experiences and studies will be research and comparison and future collaboration will be sought.

Impact:

The use of synchronous tools will provide technological and didactical practice for academic librarians; an experience they later can apply in their service to the campus community.
Same with the asynchronous tools / social media
The practice and experience of using social media for institutional purposes can help librarians figure out pertinent outreach to the recent and incoming students (Millennials and Gen Y)
The use of social media will provide transparency and participatory governing of the process.

Sustainability:

The lessons from such endeavor aim to bring closer collaboration and understanding between academic librarians and campus faculty. Such collaboration can be measured, as well as impact of improved teaching and improved learning. The measurements should convince university administration to further support the continues process of cross-cultural collaboration between academic librarians.

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Searching for "virtual reality education"

Recording of today’s session:

4 K-12 Ed Tech Trends to Watch in 2018

School of Education workshop on gaming and gamification

shortlink: http://bit.ly/soegaming