Embedded librarianship holds potential for immersive learning. Come learn how to promote your virtual world communities and the great work of educators in virtual worlds through networking. https://communityvirtuallibrary.wordpress.com/
Chris Luchs (SL: Abacus Capellini, WoW: Cheerwine)
What Can We Learn from the World of Warcraft?
Join us as we host a blended reality session featuring a live stream from the World of Warcraft (WoW) as we explore educational opportunities in a massive multiplayer online roleplaying game (MMORPG). We will have a YouTube live stream, a Discord channel for voice discussion, and an immersive event in WoW. Educators from the International Society for Technology in Education – Games and Simulations Network (ISTE G&SN) will host an immersive event & discuss learning in a multiuser virtual environment (MUVE).
Click Try for Free and download the Blizzard Launcher, which manages the download. You’ll need 52GB for the game. Create an account, select Sisters of Elune realm and create a troll if you are new to WoW and using a Free Trial account.
Location: In the World of Warcraft and for those who do not have the game, over a YouTube Live stream (available that day) and hosted after the event over https://www.youtube.com/user/gamesmooc/videos
Howard Gardner’s “Theory of Multiple Intelligences” explored through an Interactive, Immersive Experience in Second Life
Dr. Gardner has proposed 8 different types of intelligence, ranging from Interpersonal to Kinesthetic. Join us to discover your own most innate type. You may be surprised, like many of the teachers who have tried this challenge as part of our whole-brain training program.
This is a summary of various performance-based activities in Second Life and how performance studies can provide an insight into the experience of virtual worlds.
Kiwi enhances learning experiences by encouraging active participation with AR and social media. A student can use their smartphone or tablet to scan physical textbooks and unlock learning assistance tools, like highlighting, note creation and sharing, videos and AR guides—all features that encourage peer-to-peer learning. (my note, as reported at the discussion at the QQLM conference in Crete about Zois Koukopoulos, Dimitrios Koukopoulos Augmented Reality Dissemination and Exploitation Services for Libraries: https://blog.stcloudstate.edu/ims/2018/05/21/measuring-learning-outcomes-of-new-library-initiatives/
Street Smarts VR is a startup that is working to provide solutions for a major issue facing America’s communities: conflicts between police officers and citizens.
NYC Media Lab recently collaborated with Bloomberg and the augmented reality startup Lampix on a fellowship program to envision the future of learning in the workplace. Lampix technology looks like it sounds: a lamp-like hardware that projects AR capabilities, turning any flat surface into one that can visualize data and present collaborative workflows.
Calling Thunder: The Unsung History of Manhattan, a project that came out of a recent fellowship program with A+E Networks, re-imagines a time before industrialization, when the City we know now was lush with forests, freshwater ponds, and wildlife.
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?
Publisher / Organization: Athabasca University Press
Year founded: 2000
Description: The International Review of Research in Open and Distributed Learning disseminates original research, theory, and best practice in open and distributed learning worldwide.
Publisher / Organization: The University of Illinois at Chicago- University Library
Year founded: 1996
Description: First Monday is among the very first open access journals in the EdTech field. The journal’s subject matter encompasses the full range of Internet issues, including educational technologies, social media and web search. Contributors are urged via author guidelines to use simple explanations and less complex sentences and to be mindful that a large proportion of their readers are not part of academia and do not have English as a first language.
Academic Management: University of Catalonia (UOC)
Year founded: 2004
Description: This journal aims to: provide a vehicle for scholarly presentation and exchange of information between professionals, researchers and practitioners in the technology-enhanced education field; contribute to the advancement of scientific knowledge regarding the use of technology and computers in higher education; and inform readers about the latest developments in the application of information technologies (ITs) in higher education learning, training, research and management.
Description: Online Learning promotes the development and dissemination of new knowledge at the intersection of pedagogy, emerging technology, policy, and practice in online environments. The journal has been published for over 20 years as the Journal of Asynchronous Learning Networks (JALN) and recently merged with the Journal of Online Learning and Teaching (JOLT).
Publisher / Organization: International Forum of Educational Technology & Society
Year founded:1998
Description: Educational Technology & Society seeks academic articles on the issues affecting the developers of educational systems and educators who implement and manage these systems. Articles should discuss the perspectives of both communities – the programmers and the instructors. The journal is currently still accepting submissions for ongoing special issues, but will cease publication in the future as the editors feel that the field of EdTech is saturated with high quality publications.
Description: The Australasian Journal of Educational Technology aims to promote research and scholarship on the integration of technology in tertiary education, promote effective practice, and inform policy. The goal is to advance understanding of educational technology in post-school education settings, including higher and further education, lifelong learning, and training.
DESCRIPTION: The Internet and Higher Education is devoted to addressing contemporary issues and future developments related to online learning, teaching, and administration on the Internet in post-secondary settings. Articles should significantly address innovative deployments of Internet technology in instruction and report on research to demonstrate the effects of information technology on instruction in various contexts in higher education.
Publisher / Organization: British Educational Research Association (BERA)
YEAR FOUNDED: 1970
DESCRIPTION: The journal publishes theoretical perspectives, methodological developments and empirical research that demonstrate whether and how applications of instructional/educational technology systems, networks, tools and resources lead to improvements in formal and non-formal education at all levels, from early years through to higher, technical and vocational education, professional development and corporate training.
Description: Computers & Education aims to increase knowledge and understanding of ways in which digital technology can enhance education, through the publication of high quality research, which extends theory and practice.
Description: TechTrends targets professionals in the educational communication and technology field. It provides a vehicle that fosters the exchange of important and current information among professional practitioners. Among the topics addressed are the management of media and programs, the application of educational technology principles and techniques to instructional programs, and corporate and military training.
Description: Advances in technology and the growth of e-learning to provide educators and trainers with unique opportunities to enhance learning and teaching in corporate, government, healthcare, and higher education. IJEL serves as a forum to facilitate the international exchange of information on the current research, development, and practice of e-learning in these sectors.
Led by an Editorial Review Board of leaders in the field of e-Learning, the Journal is designed for the following audiences: researchers, developers, and practitioners in corporate, government, healthcare, and higher education. IJEL is a peer-reviewed journal.
Description: JCMST is a highly respected scholarly journal which offers an in-depth forum for the interchange of information in the fields of science, mathematics, and computer science. JCMST is the only periodical devoted specifically to using information technology in the teaching of mathematics and science.
Just as researchers build reputation over time that can be depicted (in part) through quantitative measures such as h-index and i10-index, journals are also compared based on the number of citations they receive..
Description: The Journal of Interactive Learning Research (JILR) publishes papers related to the underlying theory, design, implementation, effectiveness, and impact on education and training of the following interactive learning environments: authoring systems, cognitive tools for learning computer-assisted language learning computer-based assessment systems, computer-based training computer-mediated communications, computer-supported collaborative learning distributed learning environments, electronic performance support systems interactive learning environments, interactive multimedia systems interactive simulations and games, intelligent agents on the Internet intelligent tutoring systems, microworlds, virtual reality based learning systems.
Description: JEMH is designed to provide a multi-disciplinary forum to present and discuss research, development and applications of multimedia and hypermedia in education. It contributes to the advancement of the theory and practice of learning and teaching in environments that integrate images, sound, text, and data.
Publisher / Organization: Society for Information Technology and Teacher Education (SITE)
Year founded: 1997
Description: JTATE serves as a forum for the exchange of knowledge about the use of information technology in teacher education. Journal content covers preservice and inservice teacher education, graduate programs in areas such as curriculum and instruction, educational administration, staff development instructional technology, and educational computing.
Publisher / Organization: Association for the Advancement of Computing in Education (AACE)
YEAR FOUNDED: 2015
DESCRIPTION: The Journal of Online Learning Research (JOLR) is a peer-reviewed, international journal devoted to the theoretical, empirical, and pragmatic understanding of technologies and their impact on primary and secondary pedagogy and policy in primary and secondary (K-12) online and blended environments. JOLR is focused on publishing manuscripts that address online learning, catering particularly to the educators who research, practice, design, and/or administer in primary and secondary schooling in online settings. However, the journal also serves those educators who have chosen to blend online learning tools and strategies in their face-to-face classroom.
The most commonly used index to measure the relative importance of journals is the annual Journal Citation Reports (JCR). This report is published by Clarivate Analytics (previously Thomson Reuters).
SCImago Journal Rank (SJR indicator) measures the influence of journals based on the number of citations the articles in the journal receive and the importance or prestige of the journals where such citations come from. The SJR indicator is a free journal metric which uses an algorithm similar to PageRank and provides an open access alternative to the journal impact factor in the Web of Science Journal Citation Report. The portal draws from the information contained in the Scopus database (Elsevier B.V.).
Introduced by Google in 2004, Scholar is a freely accessible search engine that indexes the full text or metadata of scholarly publications across an array of publishing formats and disciplines.
Introduced by Elsevier in 2004, Scopus is an abstract and citation database that covers nearly 18,000 titles from more than 5,000 publishers. It offers journal metrics that go beyond just journals to include most serial titles, including supplements, special issues and conference proceedings. Scopus offers useful information such as the total number of citations, the total number of articles published, and the percent of articles cited.
Anne-Wil Harzing:
“Citations are not just a reflection of the impact that a particular piece of academic work has generated. Citations can be used to tell stories about academics, journals and fields of research, but they can also be used to distort stories”.
Harzing, A.-W. (2013). The publish or perish book: Your guide to effective and responsible citation analysis. http://harzing.com/popbook/index.htm
ResearchGate is a social networking site for scientists and researchers to share papers, ask and answer questions, and find collaborators. The community was founded in May 2008. Today it has over 14 million members.
Google Scholar allows users to search for digital or physical copies of articles, whether online or in libraries. It indexes “full-text journal articles, technical reports, preprints, theses, books, and other documents, including selected Web pages that are deemed to be ‘scholarly. It comprises an estimated 160 million documents.
Academia.edu is a social-networking platform for academics to share research papers. You can upload your own work, and follow the updates of your peers. Founded in 2008, the network currently has 59 million users, and adding 20 million documents.
The ORCHID (Open Researcher and Contributor ID) is a nonproprietary alphanumeric code to uniquely identify scientific and other academic authors and contributors. It provides a persistent identity for humans, similar to content-related entities on digital networks that utilize digital object identifiers (DOIs). The organization offers an open and independent registry intended to be the de facto standard for contributor identification in research and academic publishing.
The Scopus Author Identifier assigns a unique number to groups of documents written by the same author via an algorithm that matches authorship based on a certain criteria. If a document cannot be confidently matched with an author identifier, it is grouped separately. In this case, you may see more than one entry for the same author.
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more on metrics in this iMS blog
Course title: IM 554 Developing Skills for Online Teaching and Learning
Topic for this week: Game-based learning, Virtual Reliability, and Augmented Reality
Audience: IM Graduate students working for K12 schools or in business
7:20 to 8:20 PM, Thursday, March 29. Instructor: Yun Claire Park
definitions and delineation of gaming and gamification
the connection to BYOD
What do we want to learn this year/today?
more on gaming and gamification
more on realities
what is VR – virtual reality
Virtual reality (VR) is “a computer technology that uses virtual reality headsets or multi- projected environments, sometimes in combination with physical environments or props, to generate realistic images, sounds and other sensations that simulate a user's physical presence in a virtual or imaginary environment” (“Virtual Reality” n.d.) VR is accomplished by using headsets, such as HTC Vive, Oculus Rift, PlayStation VR, and Samsung Gear VR. The use of the headsets creates (and enhances) digitally constructed “reality,” thus providing excellent opportunities for simulations and learning through training and practice. Among a myriad of other definitions, Noor (2016, 34) describes Virtual Reality (VR) as “a computer-generated environment that can simulate physical presence in places in the real world or imagined worlds. The user wears a headset and through specialized software and sensors is immersed in 360- degree views of simulated worlds.”
from our book chapter: Video 360: The new type of visualization to help patrons enter the era of VR, AR and Mixed Reality (under review).
what is AR – augmented reality
“Augmented Reality (AR) supplements the physical environment with computer-generated sensory input such as sound, video, graphics, or other useful information – essentially overlaying the digital information on top of the physical world. Some consider the smartphone popular game “Pokemon Go” a form of consumer AR.”
from my book Chapter 12: VR, AR and Video 360: A Case Study Towards New Realities in Education by Plamen Miltenoff (under review)
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.
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
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.
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
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.
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.
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.
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.
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
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
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
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.
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.
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 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
Significant Challenges Impeding Technology Adoption in K–12 Education
Improving Digital Literacy.
Schools are charged with developing students’ digital citizenship, ensuring mastery of responsible and appropriate technology use, including online etiquette and digital rights and responsibilities in blended and online learning settings. Due to the multitude of elements comprising digital literacy, it is a challenge for schools to implement a comprehensive and cohesive approach to embedding it in curricula.
Rethinking the Roles of Teachers.
Pre-service teacher training programs are also challenged to equip educators with digital and social–emotional competencies, such as the ability to analyze and use student data, amid other professional requirements to ensure classroom readiness.
p. 28 Improving Digital Literacy
Digital literacy spans across subjects and grades, taking a school-wide effort to embed it in curricula. This can ensure that students are empowered to adapt in a quickly changing world
Education Overview: Digital Literacy Has to Encompass More Than Social Use
The American Library Association (ALA) defines digital literacy as “the ability to use information and communication technologies to find, evaluate, create, and communicate or share information, requiring both cognitive and technical skills.” While the ALA’s definition does align to some of the skills in “Participate”, it does not specifically mention the skills related to the “Open Practice.”
The library community’s digital and information literacy standards do not specifically include the coding, revision and remixing of digital content as skills required for creating digital information. Most digital content created for the web is “dynamic,” rather than fixed, and coding and remixing skills are needed to create new content and refresh or repurpose existing content. Leaving out these critical skills ignores the fact that library professionals need to be able to build and contribute online content to the ever-changing Internet.
p. 30 Rethinking the Roles of Teachers
Teachers implementing new games and software learn alongside students, which requires
a degree of risk on the teacher’s part as they try new methods and learn what works
p. 32 Teaching Computational Thinking
p. 36 Sustaining Innovation through Leadership Changes
shift the role of teachers from depositors of knowledge to mentors working alongside students;
p. 38 Important Developments in Educational Technology for K–12 Education
Consumer technologies are tools created for recreational and professional purposes and were not designed, at least initially, for educational use — though they may serve well as learning aids and be quite adaptable for use in schools.
Drones > Real-Time Communication Tools > Robotics > Wearable Technology
Digital strategies are not so much technologies as they are ways of using devices and software to enrich teaching and learning, whether inside or outside the classroom.
> Games and Gamification > Location Intelligence > Makerspaces > Preservation and Conservation Technologies
Enabling technologies are those technologies that have the potential to transform what we expect of our devices and tools. The link to learning in this category is less easy to make, but this group of technologies is where substantive technological innovation begins to be visible. Enabling technologies expand the reach of our tools, making them more capable and useful
Affective Computing > Analytics Technologies > Artificial Intelligence > Dynamic Spectrum and TV White Spaces > Electrovibration > Flexible Displays > Mesh Networks > Mobile Broadband > Natural User Interfaces > Near Field Communication > Next Generation Batteries > Open Hardware > Software-Defined Networking > Speech-to-Speech Translation > Virtual Assistants > Wireless Powe
Internet technologies include techniques and essential infrastructure that help to make the technologies underlying how we interact with the network more transparent, less obtrusive, and easier to use.
Bibliometrics and Citation Technologies > Blockchain > Digital Scholarship Technologies > Internet of Things > Syndication Tools
Learning technologies include both tools and resources developed expressly for the education sector, as well as pathways of development that may include tools adapted from other purposes that are matched with strategies to make them useful for learning.
Adaptive Learning Technologies > Microlearning Technologies > Mobile Learning > Online Learning > Virtual and Remote Laboratories
Social media technologies could have been subsumed under the consumer technology category, but they have become so ever-present and so widely used in every part of society that they have been elevated to their own category.
Crowdsourcing > Online Identity > Social Networks > Virtual Worlds
Visualization technologies run the gamut from simple infographics to complex forms of visual data analysis
3D Printing > GIS/Mapping > Information Visualization > Mixed Reality > Virtual Reality
p. 46 Virtual Reality
p. 48 AI
p. 50 IoT
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more on NMC Horizon Reports in this IMS blog
From: Jodie Borgerding [mailto:Borgerding@amigos.org] Sent: Wednesday, July 05, 2017 3:07 PM To: Miltenoff, Plamen <pmiltenoff@stcloudstate.edu> Cc: Nicole Walsh <WALSH@AMIGOS.ORG> Subject: Proposal Submission for Privacy & Security Conference
Hi Plamen,
Thank you for your recent presentation proposal for the online conference, Privacy & Security in Today’s Library, presented by Amigos Library Services. Your proposal, The role of the library in teaching with technology unsupported by campus IT: the privacy and security issues of the “third-party,” has been accepted. I just wanted to confirm that you are still available to present on September 21, 2017 and if you have a time preference for your presentation (11 am, 12 pm, or 2 pm Central). If you are no longer able to participate, please let me know.
Nicole will be touch with you shortly with additional details and a speaker’s agreement.
Please let me know if you have any questions.
Thanks!
___________________
Jodie Borgerding Consulting & Education Services Manager Amigos Library Services 1190 Meramec Station Road, Suite 207 | Ballwin, MO 63021-6902 800-843-8482 x2897 | 972-340-2897(direct) http://www.amigos.org | borgerding@amigos.org
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Bio
Dr. Plamen Miltenoff is an Information Specialist and Professor at St. Cloud State University. His education includes several graduate degrees in history and Library and Information Science and terminal degrees in education and psychology.
His professional interests encompass social media, multimedia, Web development and design, gaming and gamification, and learning environments (LEs).
The virtuality of privacy and security on the modern campus:
The role of the library in teaching with technology unsupported by campus IT: the privacy and security issues of the “third-party software” teaching and learning
Abstract/Summary of Your Proposed Session
The virtualization reality changes rapidly all aspects of learning and teaching: from equipment to methodology, just when faculty have finalized their syllabus, they have to start a new, if they want to keep abreast with content changes and upgrades and engagement of a very different student fabric – Millennials.
Mainframes are replaced by microcomputers, microcomputers by smart phones and tablets, hard drives by cloud storage and wearables by IoT. The pace of hardware, software and application upgrade is becoming unbearable for students and faculty. Content creation and methodology becomes useless by the speed of becoming obsolete. In such environment, faculty students and IT staff barely can devote time and energy to deal with the rapidly increasing vulnerability connected with privacy and security.
In an effort to streamline ever-becoming-scarce resources, campus IT “standardizes” campus use of applications. Those are the applications, which IT chooses to troubleshoot campus-wide. Those are the applications recommended to faculty and students to use.
In an unprecedented burgeoning amount of applications, specifically for mobile devices, it is difficult to constraint faculty and students to use campus IT sanctioned applications, especially considering the rapid pace of such applications becoming obsolete. Faculty and students often “stray” away and go with their own choice. Such decision exposes faculty and students, personally, and the campus, institutionally, at risk. In a recent post by THE Journal, attention on campuses is drown to the fact that cyberattacks shift now from mobile devices to IoT and campus often are struggling even with their capability to guarantee cybersecurity of mobile devices on campus. Further, the use of third-party application might be in conflict with the FERPA campus-mandated policies. Such policies are lengthy and complex to absorb, both by faculty and students and often are excessively restrictive in terms of innovative ways to improve methodology and pedagogy of teaching and learning. The current procedure of faculty and students proposing new applications is a lengthy and cumbersome bureaucratic process, which often render the end-users’ proposals obsolete by the time the process is vetted.
Where/what is the balance between safeguarding privacy on campus and fostering security without stifling innovation and creativity? Can the library be the campus hub for education about privacy and security, the sandbox for testing and innovation and the body to expedite decision-making?
Abstract
The pace of changes in teaching and learning is becoming impossible to sustain: equipment evolves in accelerated pace, the methodology of teaching and learning cannot catch up with the equipment changes and atop, there are constant content updates. In an even-shrinking budget, faculty, students and IT staff barely can address the issues above, less time and energy left to address the increasing concerns about privacy and security.
In an unprecedented burgeoning amount of applications, specifically for mobile devices, it is difficult to constraint faculty and students to use campus IT sanctioned applications, especially considering the rapid pace of such applications becoming obsolete. Faculty and students often “stray” away and go with their own choice. Such decision exposes faculty and students, personally, and the campus, institutionally, at risk. In a recent post by THE Journal (https://blog.stcloudstate.edu/ims/2017/06/06/cybersecurity-and-students/), attention on campuses is drawn to the fact of cyberattacks shifting from mobile devices to IoT but campus still struggling to guarantee cybersecurity of mobile devices on campus. Further, the use of third-party applications might be in conflict with the FERPA campus-mandated policies. Such policies are lengthy and complex to absorb, both by faculty and students and often are excessively restrictive in terms of innovative ways to improve methodology and pedagogy of teaching and learning. The current procedure of faculty and students proposing new applications is a lengthy and cumbersome bureaucratic process, which often render the end-users’ proposals obsolete by the time the process is vetted.
Where/what is the balance between safeguarding privacy on campus and fostering security without stifling innovation and creativity? Can the library be the campus hub for education about privacy and security, the sandbox for testing and innovation and the body to expedite decision-making?
Discuss and form an opinion about the education-pertinent issues of privacy and security from the broad campus perspective, versus the narrow library one
Discuss and form an opinion about the role of the library on campus in terms of the greater issues of privacy and security
Re-examine the thin red line of the balance between standardization and innovation; between the need for security and privacy protection a
chat – slide 4, privacy. please take 2 min and share your definition of privacy on campus. Does it differ between faculty and students? what are the main characteristics to determine privacy
chat – slide 5, security. please take 2 min and share your definition of security on campus regarding electronic activities. Who’s responsibility is security? IT issue [only]?
poles: slide 6, technology unsupported by campus IT, is it worth considering? 1. i am a great believer in my freedom of choice 2. I firmly follow rules and this applies to the use of computer tools and applications 3. Whatever…
chat – slide 6, why third party applications? pros and cons. E.g. pros – familiarity with third party versus campus-required
pole, slide 6, appsmashing. App smashing is the ability to combine mobile apps in your teaching process. How do you feel about it? 1. The force is with us 2. Nonsense…
pole slide 7 third party apps and the comfort of faculty. How do you see the freedom of using third party apps? 1. All I want, thank you 2. I would rather follow the rules 3. Indifference is my middle name
pole slide 8 Technology standardization? 1. yes, 2. no, 3. indifferent
chat slide 9 if the two major issues colliding in this instance are: standardization versus third party and they have impact on privacy and security, how would you argue for the one or the other?
Dr. Steve Albrecht, author of Library Security: Better Communication, Safer Facilities, manages a training, coaching, and management consulting firm, using a dedicated and experienced team of subcontractor specialists. He is internationally known for his consulting and training work in workplace violence prevention training programs, school violence prevention, and high-risk human resources. Dr. Albrecht provides HR consulting, site security assessments, coaching, and training workshops in supervisory improvement, workplace violence prevention, harassment prevention, drug and alcohol awareness, team building, and more. He holds a B.A. in English, B.S. in Psychology, M.A. in Security Management, and a doctoral degree in Business Administration (D.B.A.). He has been a trainer for over 26 years and is a certified Professional in Human Resources (PHR), a Certified Protection Professional (CPP), a Board Certified Coach (BCC), and a Certified Threat Manager (CTM).
Session Description: Libraries don’t always need to hire a consultant to review the level of facility security. Using a structured assessment process, librarians can create a report that will help to make their building, staff, and patrons safer.
Chris Markman, MSLIS, MSIT Public Services Librarian Worcester Public Library
a report from ISACA, a nonprofit association focused on knowledge and practices for information systems. The 2017 State of Cyber Security Study surveyed IT security leaders around the globe on security issues, the emerging threat landscape, workforce challenges and more.
53 percent of survey respondents reported a year-over-year increase in cyber attacks;
62 percent experienced ransomware in 2016, but only 53 percent have a formal process in place to address a ransomware attack;
78 percent reported malicious attacks aimed at impairing an organization’s operations or user data;
Only 31 percent said they routinely test their security controls, while 13 percent never test them; and
16 percent do not have an incident response plan.
65 percent of organizations now employ a chief information security officers, up from 50 percent in 2016, yet still struggle to fill open cyber security positions;
48 percent of respondents don’t feel comfortable with their staff’s ability to address complex cyber security issues;
More than half say cyber security professionals “lack an ability to understand the business”;
One in four organizations allot less than $1,000 per cyber security team member for training; and
About half of the organizations surveyed will see an increase in their cyber security budget, down from 61 percent in 2016.
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IoT to Represent More Than Half of Connected Device Landscape by 2021
analysis comes from Cisco’s recent Visual Networking Index for the 2016-2021 forecast period.
IP video traffic will increase from 73 percent of all internet consumer traffic in 2016 to 82 percent in 2021 (with live streaming accounting for 13 percent);
Virtual and augmented reality traffic is expected to increase 20-fold during the forecast period at a compound annual growth rate of 82 percent; and
Internet video surveillance traffic is anticipated to grow during the forecast period, comprising 3.4 percent of all internet traffic.
the privacy concerns such use might raise; as universities implement systems that integrate wearables, they will encounter this hurdle and have to implement policies to address it.
5. Research
Laboratories are often required to be completely controlled spaces with considerations made for climate, light, and sometimes even biometric data inside the lab.
