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blockchain and higher ed

Blockchain in brief: Six ways it can transform higher education

by Danielle Yardy

https://www.eab.com/blogs/it-forum-perspectives/2018/01/blockchain-higher-education-uses

1. Using a blockchain for automatic recognition and transfer of credits

The decline in first-time, first-year student enrollments is having a real financial impact on a number of institutions across the United States and focusing on transfer students (a pool of prospects twice as large) has become an important strategy for many. But credit articulation presents a real challenge for institutions bringing in students from community colleges. While setting standardized articulation requirements across the nation presents a high hurdle, blockchain-supported initiatives may hold great promise for university and city education systems looking to streamline educational mobility in their communities.

2. Blockchains for tracking intellectual property and rewarding use and re-use of that property

If researchers were able to publish openly and accurately assess the use of their resources, the access-prohibitive costs of academic book and journal publications could be circumvented, whether for research- or teaching-oriented outputs. Accurately tracking the sharing of knowledge without restrictions has transformative potential for open-education models.

3. Using verified sovereign identities for student identification within educational organizations

The data footprint of higher education institutions is enormous. With FERPA regulations as well as local and international requirements for the storage and distribution of Personally Identifiable Information (PII), maintaining this data in various institutional silos magnifies the risk associated with a data breach. Using sovereign identities to limit the proliferation of personal data promotes better data hygiene and data lifecycle management and could realize significant efficiency gains at the institutional level.

Best practices to become data-driven 

4. Using a blockchain as a lifelong learning passport

Educational institutions and private businesses partner with online course delivery giants to extend the reach of their educational services and priorities. Traditional educational routes are increasingly less normal and in this expanding world of providers, the need for verifiable credentials from a number of sources is growing. Producing a form of digitally “verifiable CVs” would limit credential fraud, and significantly reduce organizational workload in credential verification.

5. Using blockchains to permanently secure certificates

The open source solution Blockcerts already enables signed certificates to be posted to a blockchain and supports the verification of those certificates by third parties.

When an institution issues official transcripts, obtaining copies can be expensive and burdensome for graduates. But student-owned digital transcripts put the power of secure verification in the hands of learners, eliminating the need for lengthy and costly transcripts to further their professional or educational pursuits. An early mover, Central New Mexico Community College, debuted digital diplomas on the blockchain in December of 2017.

6. Using blockchains to verify multi-step accreditation

As different accreditors recognize different forms of credentials and a growing diversity of educational providers issue credentials, checking the ‘pedigree’ of a qualification can be laborious. Turning a certification verification process from a multi-stage research effort into a single-click process will automate many thousands of labor hours for organizations and institutions

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more on blockchain and higher ed in this IMS blog
https://blog.stcloudstate.edu/ims?s=blockchain+education

blockchain fixes

187 Things the Blockchain Is Supposed to Fix

Erin Griffith 

https://www-wired-com.cdn.ampproject.org/c/s/www.wired.com/story/187-things-the-blockchain-is-supposed-to-fix/amp
 
Blockchains, which use advanced cryptography to store information across networks of computers, could eliminate the need for trusted third parties, like banks, in transactions, legal agreements, and other contracts. The most ardent blockchain-heads believe it has the power to reshape the global financial system, and possibly even the internet as we know it.
 
Now, as the technology expands from a fringe hacker toy to legitimate business applications, opportunists have flooded the field. Some of the seekers are mercenaries pitching shady or fraudulent tokens, others are businesses looking to cash in on a hot trend, and still others are true believers in the revolutionary and disruptive powers of distributed networks.
 
Mentions of blockchains and digital currencies on corporate earnings calls doubled in 2017 over the year prior, according to Fortune. Last week at Consensus, the country’s largest blockchain conference, 100 sponsors, including top corporate consulting firms and law firms, hawked their wares.
 
Here is a noncomprehensive list of the ways blockchain promoters say they will change the world. They run the spectrum from industry-specific (a blockchain project designed to increase blockchain adoption) to global ambitions (fixing the global supply chain’s apparent $9 trillion cash flow issue).
 

Things Blockchain Technology Will Fix

  • Bots with nefarious intent
  • Skynet
  • People not taking their medicine
  • Device storage that could be used for bitcoin mining
  • Insurance bureaucracy
  • Electronic health record accessibility
  • Health record storage security
  • Health record portability
  • Marine insurance risk
  • Cancer
  • Earning money on personal data
  • Pensions
  • The burden of car ownership
  • Inability to buy anything with cryptocurrency
  • Better marketplaces for nautical shipping services
  • Better ways to advertise to your friends
  • Better ways to trade forex with your friends
  • Ownership shares in ancient sunken treasures
  • Poverty
  • Complying with Know Your Customer laws
  • Complying with Anti-Money-Laundering laws
  • Complying with securities laws in token sales
  • Censorship
  • A use for QR codes
  • Rewards for buying alcohol by subscription
  • Tracing water supplies
  • Dearth of emergency responders
  • High cost of medical information
  • Improved digital identity authentication
  • Managing real estate workflow
  • International real estate purchases
  • Physical branches for crypto banking
  • Physical branches for crypto exchanges
  • Private equity
  • Venture capital
  • AIDS, also online sales of classic Japanese domestic cars
  • Efficiency and transparency at nonprofits
  • Incorporating local preferences in decentralized banking options
  • Boosting sales for local businesses
  • A digital-only investment bank
  • Containers to transport sensitive pharmaceuticals and food
  • Protecting consumer information on mobile
  • Helping mobile phone users monetize their data
  • Not enough interconnection in the world
  • Complexity and risk in the crypto market
  • Expensive AI research
  • Counterfeit goods
  • Connecting “innovation players” and “knowledge holders”
  • Movie industry’s slow and opaque accounting practices
  • Global supply chain’s $9 trillion cash flow issue
  • Trust in the global supply chain
  • Economic crisis
  • Cash flow problems at small and medium-sized businesses
  • Improving the use of data in the transportation and logistics industries
  • Poverty among African farmers
  • Transparency in the food supply chain
  • Ad fraud
  • Fake news
  • False news
  • Settling payments faster
  • Speeding transactions
  • The unbanked
  • The underbanked
  • The bidding process in art and collectibles markets
  • Assessing the value of collectibles
  • Diamond industry’s high banking and forex fees
  • The illicit diamond trade
  • Availability of digital games
  • Currency for eSports
  • Currency for eSports betting
  • Currency for sports betting
  • Storing scholarly articles
  • Health insurance providers billing processes
  • Currency for healthcare providers
  • Shortage of workers with advanced tech skills
  • Lack of diversity in tech
  • Elder care
  • Rights management for photographers
  • Content rights management
  • Simplifying the logo copyrighting process
  • Ticketing industry’s “prevalent issues”
  • Crowdsourcing for legal dispute resolution
  • Securing financial contracts
  • Paper
  • Automation
  • Control of personal data
  • Control of personal credit data
  • No way to spend crypto
  • Advertising for extended reality environments
  • Human suffering
  • Security for luxury watches
  • Authenticity in cannabis sales
  • Crypto rewards for cannabis-focused social media site
  • Crypto payments for rating cryptoassets
  • Crypto payments for taking surveys, watching videos and clicking links
  • Crypto rewards for video game skills
  • Crypto rewards for time spent playing video games
  • Buying, selling and trading your social media friends
  • Crypto rewards for social media sharing
  • Free mobile data for watching ads
  • Crypto rewards for watching entertainment content
  • Gold-backed cryptocurrency
  • Crypto-backed gold
  • Metals-backed cryptocurrency
  • Precious metals-based cryptocurrency
  • “Tokenizing” real world items
  • Nashville apartment buildings
  • Monaco real estate
  • Financial infrastructure for trading within video games
  • Checking ID for purchases like alcohol
  • “Uber for alcohol” on blockchain
  • Inefficiencies in cargo delivery
  • Branded tokens for merchants to reward customers
  • Fraud and corruption among non-profits
  • Better transparency at non-profits
  • Better transparency around impact investing
  • Bitcoin mining uses too much energy
  • Home appliances mining for bitcoin while not in use
  • Bitcoin mining using hydropower
  • Large corporations’ carbon footprints
  • “Decarbonizing” electricity grids
  • Climate change
  • Trust in governments
  • Trust in corporations
  • Trust in social networks
  • Trust in media
  • Universal billing system for travel industry
  • Decentralized Uber and Lyft
  • Online gambling not fair
  • Online gambling sites take commission
  • Helping retailers hurt by Amazon
  • Online retail fraud
  • Paying for things with your face
  • Streamlining interactions among shoppers, retailers and brands
  • Linking content across computers, tablets and phones
  • Ranking apps by their value
  • Aligning creativity and recognition for content creators
  • Improving payments for artists on Spotify and Pandora
  • Online piracy
  • Improving the technology of the Russian gas industry
  • A blockchain equivalent of Amazon, Groupon and Craigslist
  • Too many non-value-added costs
  • Unregulated prison economies
  • Standardizing the value of advertisements
  • Advertising not transparent enough
  • Old real estate practices
  • Free public information from silos
  • Speeding the rendering of animated movies
  • Selling items for crypto instead of regular money
  • Borders
  • Man-in-the-middle hacks
  • Security sacrifices that come with innovation
  • Scams, fraud and counterfeits
  • Tools to build decentralized apps
  • Blockchain infrastructure
  • Removing barriers separating blockchains
  • Safety in buying and selling blockchain tokens
  • Improving privacy in online file storage
  • ICO projects could benefit from the “wisdom of the crowd”
  • Improving privacy of blockchain
  • Decentralized database for decentralized technologies
  • Improving trust and confidence in blockchain system
  • More cohesive user experiences across blockchain and the cloud
  • Democratizing gold trading
  • Giving investors more control of their assets
  • Simplifying the cryptocurrency transaction process
  • Trading indexes as tokens
  • Improving crypto safekeeping solutions
  • Simplifying ICO investment, trading and cryptocurrency
  • Improving institutional-grade crypto asset management
  • “Painstakingly slow” manual crypto wallet process
  • More open global markets
  • Easier way to invest in real estate
  • Easier way to invest in Swiss real estate
  • Easier way to combine smart contracts with crowdfunded home loans
  • Easier way to borrow against crypto holdings
  • Faster porn industry payment options
  • Lower porn industry payment fees
  • Identifying and verifying users in online dating
  • Improving traditional banking services for crypto world
  • Cryptocurrency based on Game Theory, IBM’s Watson, and other theories
  • Better social network + blockchain + AI + human touch
  • Improving content streaming on the blockchain
  • Supply chain transparency
  • Increasing public sector trust of cryptocurrencies
  • Education around blockchain technology
  • Blockchain not mainstream enough
 
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more on blockchain in this IMS blog
https://blog.stcloudstate.edu/ims?s=blockchain

Blockchain, Money and Empathy

On Blockchain, Money and Empathy: EdSurge Talks Trends and 2018 Predictions

By Jeffrey R. Young     Jan 30, 2018

EdSurge’s CEO, Betsy Corcoran, argued that 2017 was a year when educators and schools were trying to take control of their technology choices “We have said from the time we started writing the newsletters that not every piece of technology will work for every student, or for every school or every classroom,” she said. “It’s all about asking the right questions to figure out if there is a piece of technology that will support learning goals. What we’re starting to really see across schools, districts and teachers, people really owning those questions. They’re saying, ‘What do I want to do with my classroom? With my kids? And what are the technologies that will support me?’”

Another discussion participant asked whether colleges and universities are starting to accept cryptocurrencies like Bitcoin, or experimenting with the blockchain technology that drives those systems. Johnson said most of the hype around unversities’ blockchain experiments has centered on storing and managing credentials.

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more on blockchain and education in this IMS blog
https://blog.stcloudstate.edu/ims?s=blockchain+education

blockchain

35 Amazing Real World Examples Of How Blockchain Is Changing Our World

https://www.forbes.com/sites/bernardmarr/2018/01/22/35-amazing-real-world-examples-of-how-blockchain-is-changing-our-world

My note: nothing about education by this author. Here it is from our IMS blog
https://blog.stcloudstate.edu/ims/2018/01/12/blockchain-for-libraries/

https://blog.stcloudstate.edu/ims/2017/09/27/blockchain-credentialing-in-higher-ed/

https://blog.stcloudstate.edu/ims/2016/10/03/blockchain-credentialing/

Cybersecurity

Guardtime – This company is creating “keyless” signature systems using blockchain which is currently used to secure the health records of one million Estonian citizens.

REMME is a decentralized authentication system which aims to replace logins and passwords with SSL certificates stored on a blockchain.

Healthcare

Gem – This startup is working with the Centre for Disease Control to put disease outbreak data onto a blockchain which it says will increase the effectiveness of disaster relief and response.

SimplyVital Health – Has two health-related blockchain products in development, ConnectingCare which tracks the progress of patients after they leave the hospital, and Health Nexus, which aims to provide decentralized blockchain patient records.

MedRec – An MIT project involving blockchain electronic medical records designed to manage authentication, confidentiality and data sharing.

Financial services

ABRA – A cryptocurrency wallet which uses the Bitcoin blockchain to hold and track balances stored in different currencies.

Bank Hapoalim – A collaboration between the Israeli bank and Microsoft to create a blockchain system for managing bank guarantees.

Barclays – Barclays has launched a number of blockchain initiatives involving tracking financial transactions, compliance and combating fraud. It states that “Our belief …is that blockchain is a fundamental part of the new operating system for the planet.”

Maersk – The shipping and transport consortium has unveiled plans for a blockchain solution for streamlining marine insurance.

Aeternity – Allows the creation of smart contracts which become active when network consensus agrees that conditions have been met – allowing for automated payments to be made when parties agree that conditions have been met, for example.

Augur – Allows the creation of blockchain-based predictions markets for the trading of derivatives and other financial instruments in a decentralized ecosystem.

Manufacturing and industrial

Provenance – This project aims to provide a blockchain-based provenance record of transparency within supply chains.

Jiocoin – India’s biggest conglomerate, Reliance Industries, has said that it is developing a blockchain-based supply chain logistics platform along with its own cryptocurrency, Jiocoin.

Hijro – Previously known as Fluent, aims to create a blockchain framework for collaborating on prototyping and proof-of-concept.

SKUChain – Another blockchain system for allowing tracking and tracing of goods as they pass through a supply chain.

Blockverify –  A blockchain platform which focuses on anti-counterfeit measures, with initial use cases in the diamond, pharmaceuticals and luxury goods markets.

Transactivgrid – A business-led community project based in Brooklyn allowing members to locally produce and cell energy, with the goal of reducing costs involved in energy distribution.

STORJ.io – Distributed and encrypted cloud storage, which allows users to share unused hard drive space.

Government

DubaiDubai has set sights on becoming the world’s first blockchain-powered state. In 2016 representatives of 30 government departments formed a committee dedicated to investigating opportunities across health records, shipping, business registration and preventing the spread of conflict diamonds.

Estonia – The Estonian government has partnered with Ericsson on an initiative involving creating a new data center to move public records onto the blockchain. 20

South Korea – Samsung is creating blockchain solutions for the South Korean government which will be put to use in public safety and transport applications.

Govcoin – The UK Department of Work and Pensions is investigating using blockchain technology to record and administer benefit payments.

Democracy.earth – This is an open-source project aiming to enable the creation of democratically structured organizations, and potentially even states or nations, using blockchain tools.

Followmyvote.com – Allows the creation of secure, transparent voting systems, reducing opportunities for voter fraud and increasing turnout through improved accessibility to democracy.

Charity

Bitgive – This service aims to provide greater transparency to charity donations and clearer links between giving and project outcomes. It is working with established charities including Save The Children, The Water Project and Medic Mobile.

Retail

OpenBazaar – OpenBazaar is an attempt to build a decentralized market where goods and services can be traded with no middle-man.

Loyyal – This is a blockchain-based universal loyalty framework, which aims to allow consumers to combine and trade loyalty rewards in new ways, and retailers to offer more sophisticated loyalty packages.

Blockpoint.io – Allows retailers to build payment systems around blockchain currencies such as Bitcoin, as well as blockchain derived gift cards and loyalty schemes.

Real Estate

Ubiquity – This startup is creating a blockchain-driven system for tracking the complicated legal process which creates friction and expense in real estate transfer.

Transport and Tourism

IBM Blockchain Solutions – IBM has said it will go public with a number of non-finance related blockchain initiatives with global partners in 2018. This video envisages how efficiencies could be driven in the vehicle leasing industry.

Arcade City – An application which aims to beat Uber at their own game by moving ride sharing and car hiring onto the blockchain.

La’Zooz – A community-owned platform for synchronizing empty seats with passengers in need of a lift in real-time.

Webjet – The online travel portal is developing a blockchain solution to allow stock of empty hotel rooms to be efficiently tracked and traded, with payment fairly routed to the network of middle-men sites involved in filling last-minute vacancies.

Media

Kodak – Kodak recently sent its stock soaring after announcing that it is developing a blockchain system for tracking intellectual property rights and payments to photographers.

Ujomusic – Founded by singer-songwriter Imogen Heap to record and track royalties for musicians, as well as allowing them to create a record of ownership of their work.

It is exciting to see all these developments. I am sure not all of these will make it into successful long-term ventures but if they indicate one thing, then it is the vast potential the blockchain technology is offering.

Bernard Marr is a best-selling author & keynote speaker on business, technology and big data. His new book is Data Strategy. To read his future posts simply join his network here.

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

blockchain for libraries

Blockchain technology has the potential to enhance the role played by libraries within their communities, however, there are many questions yet to be answered about how specifically blockchain technology might be used and how much value it would add to library services and the communities they serve.  Ideas from within the information profession are needed as we formulate recommendations for the profession.

The San José State University School of Information (iSchool) received an IMLS grant to investigate ways that blockchain technology can be used by libraries as a community anchor to partner with other organizations and to support city/community goals.  Some suggestions for blockchain applications in libraries include building an enhanced metadata center, protecting Digital First Sale rights, supporting community-based collections, facilitating partnerships across organizations, and more.

The year-long project will provide three opportunities for a national dialog among technical experts in libraries, blockchain technology, and urban planning and members of the information professions to discuss ways that blockchain technology can advance library services to support city/community goals.

  1. The project website and blog includes information and resources about blockchain technology, potential uses of blockchain technology by libraries, and project updates along with a blog to foster open dialog. Seehttps://ischoolblogs.sjsu.edu/blockchains/
  2. The National Forum scheduled for August 6, 2018 in San Jose, CA will be comprised of 20-30 technical experts in libraries, blockchain technology, and urban planning to identify and discuss key opportunities for libraries to serve as community anchors using blockchain technology.
  3. The Library 2.018 conference, Blockchain Applied: Impact on the Information Profession, is designed for presentations and discussion on the uses of blockchain technology in libraries. Registration in this open online conference is free to the profession and public. Scheduled on June 7, 2018 from 12:00 – 3:00 pm PDT. The call for proposals is located on the conference website.

We are seeking nominations of individuals to represent the professional associations (e.g. LITA, PLA, ULC, CLIR, ARL) and information organizations by participating in the National Forum in San Jose, CA (August 6, 2018).  Funding provided by IMLS is available to support most of the expenses (travel, lodging, meals) for the National Forum for invited participants.

Nominations (including self-nominations) are due by February 15, 2018.  Nominees should be knowledgeable about blockchain technology and libraries in order to have an impact on the recommendations that will be made and discussed during the Library 2.018 conference and National Forum.

Nominations to participate in the Blockchain National Forum should be submitted by February 15 using this Google Form.

more for blockchain in education in this IMS blog
https://blog.stcloudstate.edu/ims?s=blockchain

blockchain credentialing in higher ed

2 reasons why blockchain tech has big, tangible implications for higher ed

By Jami Morshed September 27th, 2017

What Is Blockchain?

blockchain is a database or digital ledger. The data in the ledger is arranged in batches known as blocks, with each block storing data about a specific transaction. The blocks are linked together using cryptographic validation to form an unbroken and unbreakable chain–hence the name blockchain. As it relates to bitcoin, the blocks are monetary units, and the chain includes information about all past transactions of that monetary unit.

Importantly, the database (i.e., the series of blocks) is duplicated thousands of times across a network of computers, meaning that it has no one central repository. This not only means that the records are truly public, but also that there is no centralized version of the data for a hacker to corrupt. In order to make changes to the ledger, consensus between all members of the group must be obtained, further adding to the system’s security.

1. Blockchain for the Future of Credentialing

With today’s technologies, graduates and prospective employers must go through a tedious process to obtain student transcripts or diplomas, and this complexity is compounded when these credentials are spread across multiple institutions. Not only that, but these transcripts can take days or weeks to produce and send, and usually require a small fee be paid to the institution.LinkedLinek

This could be a key enabler to facilitate student ownership of this data and would allow them to instantly produce secure and comprehensive credentials to any institute or employer requesting them, including information about a student’s performance on standardized tests, degree requirements, extracurricular activities, and other learning activities.

Blockchain could play a major role in Competency-Based Education (CBE) programs and micro-credentialing, which are becoming ever more popular across universities and internal business training programs.

various companies are currently working on such a system of record. One of the most well-known is called “BlockCert,” which is an open standard created by MIT Media Lab and which the institute hopes will help drive the adoption of blockchain credentialing.

imagine the role that LinkedIn or a similar platform could play in the distribution of such content. Beyond verification of university records, LinkedIn could become a platform for sharing verified work history and resumes as well, making the job application process far simpler

2. Blockchain’s Financial Implications and Student debt

how could blockchain influence student finances? For starters, financial aid and grants could be tied to student success. Instead of students and universities having to send over regular progress reports on a recipient’s performance, automatic updates to a student’s digital record would ensure that benchmarks were being met–and open up new opportunities for institutions looking to offer merit-based grants.

Electronic tuition payments and money transfers could also simplify the tuition process. This is an especially appealing option for international students, as bitcoin’s interchangeable nature and lack of special fees for international transfers makes it a simpler and more cost-effective payment method.

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

more on blockchain credentialing in this IMS blog
https://blog.stcloudstate.edu/ims/2016/10/03/blockchain-credentialing/

blockchain credentialing

AAEEBL (The Association for Authentic, Experiential and Evidence-Based learning) starts the Baston Blog

Blockchain Credentialing: What Impact Will it Have?
Posted By Trent Batson Ph. D.

blockchain credentialing, big news since the MIT Media Lab offered an open source means of credentialing using blockchain technology (the technology behind bitcoin).

Blockchain credentialing makes verification of credentials much simpler and less time consuming, according to the articles I’ve collected below.  Even IBM has entered the arena.

As with badges, we in the eportfolio world need to be aware of the trend toward blockchain credentialing.  I’ve sorted through the links below so I could select those I thought would be most useful for you.

http://www.learningmachine.com/credentials.html

https://www.edsurge.com/news/2016-06-07-mit-media-lab-introduces-blockchain-technology-for-credentials

https://campustechnology.com/articles/2016/05/16/how-blockchain-will-disrupt-the-higher-education-transcript.aspx — the Phil Long interview

https://www.gartner.com/doc/3279217/reinventing-education-credentials-using-blockchain

https://bitcoinmagazine.com/articles/holberton-school-begins-tracking-student-academic-credentials-on-the-bitcoin-blockchain-1463605176

https://www.linkedin.com/pulse/blockchain-identity-credentials-enough-eric-korb?articleId=8359553479741654341

http://thenewstack.io/one-school-using-bitcoin-blockchain-authenticate-degrees/

https://console.ng.bluemix.net/docs/services/blockchain/index.html

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more on badges in this blog

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

higher ed predictors for 2022

14 Predictions for Higher Education in 2022

https://campustechnology.com/articles/2022/01/04/14-predictions-for-higher-education-in-2022.aspx

Forget Hyflex

our faculty will discover that effectively teaching in a hyflex environment without adequate support is extremely difficult and truly exhausting.

Adapt Hyflex — and Be Ready for Anything (security)

Move Beyond Zoom into the Metaverse

Reap the Rewards of 2 Years of Strategic Decision-Making

campus leaders who have intentionally put students at the center of organization and system design will reap a great reward.

Expect More Disruption and More Innovation

look for movement in the augmented and virtual reality space.

Online Ed Becomes the Norm

online education will become the norm rather than the step-sister of “traditional” education

Build Off the Threads that Are Here to Stay

Alternatives Will Continue Gaining Ground

The cultures within institutions may prevent these significant changes from occurring. If that occurs, alternatives will continue to build momentum.

Emphasize Choice and Support

Alumni will be looking for upskilling opportunities via microcredentials, to navigate growth and career change during the “Great Resignation.” Recent high school grads will expect a variety of online, hybrid and in-person courses to choose from, many bringing with them years of experience with virtual learning.

Students Need Faster Routes to Completion

Climate Change Ed Gets Embedded

Hybrid Learning Tech Will Step Up

many lecture theaters might come to look like professional TV studios, to meet growing quality and usability expectations. Also, technologies will likely be expected to make classrooms environments more “peer-learning friendly” and inclusive

Blockchain Will Gain Ed Pickup

The (Arizon State) university announced that in 2022 it would release Pocket, a digital wallet for students as a comprehensive learner record.

57 Jobs of the Future

57 Jobs of the Future

Metaverse Jobs

  1. Metaverse World Designers
  2. Avatar Designers
  3. Metaverse Storefront Creators, Developers, and Operators
  4. Metaverse Law Enforcement
  5. DAO Attorneys

Cryptocurrency

  1. Crypto Coaches and Advisors
  2. Crypto Mortgage Specialists
  3. Decentralization Managers

Healthcare

  1. Amnesia Surgeons – Doctors who are skilled in removing bad memories or destructive behavior.
  2. Memory Augmentation Therapists – Entertainment is all about the great memories it creates. Creating a better grade of memories can dramatically change who we are and pave the way for an entirely new class of humans.
  3. Digital Implant Architects
  4. Genetic Troubleshooters
  5. Body Part Fabricators
  6. AI Health Managers

Big Data

  1. Privacy Strategists
  2. Personal Data Managers, Archivists, and Protectors
  3. Blockchain Designers
  4. Vulnerabilities Analyst

Future Education

  1. AI Memory Assessment Engineers
  2. AI Coach-Bot Designers
  3. AI Teacher-Bot Developers

 

Emerging Trends and Impacts of the Internet of Things in Libraries

Emerging Trends and Impacts of the Internet of Things in Libraries

https://www.igi-global.com/gateway/book/244559

Chapters:

Holland, B. (2020). Emerging Technology and Today’s Libraries. In Holland, B. (Eds.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 1-33). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch001

The purpose of this chapter is to examine emerging technology and today’s libraries. New technology stands out first and foremost given that they will end up revolutionizing every industry in an age where digital transformation plays a major role. Major trends will define technological disruption. The next-gen of communication, core computing, and integration technologies will adopt new architectures. Major technological, economic, and environmental changes have generated interest in smart cities. Sensing technologies have made IoT possible, but also provide the data required for AI algorithms and models, often in real-time, to make intelligent business and operational decisions. Smart cities consume different types of electronic internet of things (IoT) sensors to collect data and then use these data to manage assets and resources efficiently. This includes data collected from citizens, devices, and assets that are processed and analyzed to monitor and manage, schools, libraries, hospitals, and other community services.

Makori, E. O. (2020). Blockchain Applications and Trends That Promote Information Management. In Holland, B. (Eds.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 34-51). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch002
Blockchain revolutionary paradigm is the new and emerging digital innovation that organizations have no choice but to embrace and implement in order to sustain and manage service delivery to the customers. From disruptive to sustaining perspective, blockchain practices have transformed the information management environment with innovative products and services. Blockchain-based applications and innovations provide information management professionals and practitioners with robust and secure opportunities to transform corporate affairs and social responsibilities of organizations through accountability, integrity, and transparency; information governance; data and information security; as well as digital internet of things.
Hahn, J. (2020). Student Engagement and Smart Spaces: Library Browsing and Internet of Things Technology. In Holland, B. (Eds.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 52-70). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch003
The purpose of this chapter is to provide evidence-based findings on student engagement within smart library spaces. The focus of smart libraries includes spaces that are enhanced with the internet of things (IoT) infrastructure and library collection maps accessed through a library-designed mobile application. The analysis herein explored IoT-based browsing within an undergraduate library collection. The open stacks and mobile infrastructure provided several years (2016-2019) of user-generated smart building data on browsing and selecting items in open stacks. The methods of analysis used in this chapter include transactional analysis and data visualization of IoT infrastructure logs. By analyzing server logs from the computing infrastructure that powers the IoT services, it is possible to infer in greater detail than heretofore possible the specifics of the way library collections are a target of undergraduate student engagement.
Treskon, M. (2020). Providing an Environment for Authentic Learning Experiences. In Holland, B. (Eds.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 71-86). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch004
The Loyola Notre Dame Library provides authentic learning environments for undergraduate students by serving as “client” for senior capstone projects. Through the creative application of IoT technologies such as Arduinos and Raspberry Pis in a library setting, the students gain valuable experience working through software design methodology and create software in response to a real-world challenge. Although these proof-of-concept projects could be implemented, the library is primarily interested in furthering the research, teaching, and learning missions of the two universities it supports. Whether the library gets a product that is worth implementing is not a requirement; it is a “bonus.”
Rashid, M., Nazeer, I., Gupta, S. K., & Khanam, Z. (2020). Internet of Things: Architecture, Challenges, and Future Directions. In Holland, B. (Ed.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 87-104). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch005
The internet of things (IoT) is a computing paradigm that has changed our daily livelihood and functioning. IoT focuses on the interconnection of all the sensor-based devices like smart meters, coffee machines, cell phones, etc., enabling these devices to exchange data with each other during human interactions. With easy connectivity among humans and devices, speed of data generation is getting multi-fold, increasing exponentially in volume, and is getting more complex in nature. In this chapter, the authors will outline the architecture of IoT for handling various issues and challenges in real-world problems and will cover various areas where usage of IoT is done in real applications. The authors believe that this chapter will act as a guide for researchers in IoT to create a technical revolution for future generations.
Martin, L. (2020). Cloud Computing, Smart Technology, and Library Automation. In Holland, B. (Eds.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 105-123). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch006
As technology continues to change, the landscape of the work of librarians and libraries continue to adapt and adopt innovations that support their services. Technology also continues to be an essential tool for dissemination, retrieving, storing, and accessing the resources and information. Cloud computing is an essential component employed to carry out these tasks. The concept of cloud computing has long been a tool utilized in libraries. Many libraries use OCLC to catalog and manage resources and share resources, WorldCat, and other library applications that are cloud-based services. Cloud computing services are used in the library automation process. Using cloud-based services can streamline library services, minimize cost, and the need to have designated space for servers, software, or other hardware to perform library operations. Cloud computing systems with the library consolidate, unify, and optimize library operations such as acquisitions, cataloging, circulation, discovery, and retrieval of information.
Owusu-Ansah, S. (2020). Developing a Digital Engagement Strategy for Ghanaian University Libraries: An Exploratory Study. In Holland, B. (Eds.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 124-139). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch007
This study represents a framework that digital libraries can leverage to increase usage and visibility. The adopted qualitative research aims to examine a digital engagement strategy for the libraries in the University of Ghana (UG). Data is collected from participants (digital librarians) who are key stakeholders of digital library service provision in the University of Ghana Library System (UGLS). The chapter reveals that digital library services included rare collections, e-journal, e-databases, e-books, microfilms, e-theses, e-newspapers, and e-past questions. Additionally, the research revealed that the digital library service patronage could be enhanced through outreach programmes, open access, exhibitions, social media, and conferences. Digital librarians recommend that to optimize digital library services, literacy programmes/instructions, social media platforms, IT equipment, software, and website must be deployed. In conclusion, a DES helps UGLS foster new relationships, connect with new audiences, and establish new or improved brand identity.
Nambobi, M., Ssemwogerere, R., & Ramadhan, B. K. (2020). Implementation of Autonomous Library Assistants Using RFID Technology. In Holland, B. (Ed.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 140-150). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch008
This is an interesting time to innovate around disruptive technologies like the internet of things (IoT), machine learning, blockchain. Autonomous assistants (IoT) are the electro-mechanical system that performs any prescribed task automatically with no human intervention through self-learning and adaptation to changing environments. This means that by acknowledging autonomy, the system has to perceive environments, actuate a movement, and perform tasks with a high degree of autonomy. This means the ability to make their own decisions in a given set of the environment. It is important to note that autonomous IoT using radio frequency identification (RFID) technology is used in educational sectors to boost the research the arena, improve customer service, ease book identification and traceability of items in the library. This chapter discusses the role, importance, the critical tools, applicability, and challenges of autonomous IoT in the library using RFID technology.
Priya, A., & Sahana, S. K. (2020). Processor Scheduling in High-Performance Computing (HPC) Environment. In Holland, B. (Ed.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 151-179). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch009
Processor scheduling is one of the thrust areas in the field of computer science. The future technologies use a huge amount of processing for execution of their tasks like huge games, programming software, and in the field of quantum computing. In real-time, many complex problems are solved by GPU programming. The primary concern of scheduling is to reduce the time complexity and manpower. Several traditional techniques exit for processor scheduling. The performance of traditional techniques is reduced when it comes to the huge processing of tasks. Most scheduling problems are NP-hard in nature. Many of the complex problems are recently solved by GPU programming. GPU scheduling is another complex issue as it runs thousands of threads in parallel and needs to be scheduled efficiently. For such large-scale scheduling problems, the performance of state-of-the-art algorithms is very poor. It is observed that evolutionary and genetic-based algorithms exhibit better performance for large-scale combinatorial and internet of things (IoT) problems.
Kirsch, B. (2020). Virtual Reality in Libraries. In Holland, B. (Eds.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 180-193). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch010
Librarians are beginning to offer virtual reality (VR) services in libraries. This chapter reviews how libraries are currently using virtual reality for both consumption and creation purposes. Virtual reality tools will be compared and contrasted, and recommendations will be given for purchasing and circulating headsets and VR equipment. Google Tour Creator and a smartphone or 360-degree camera can be used to create a virtual tour of the library and other virtual reality content. These new library services will be discussed along with practical advice and best practices for incorporating virtual reality into the library for instructional and entertainment purposes.
Heffernan, K. L., & Chartier, S. (2020). Augmented Reality Gamifies the Library: A Ride Through the Technological Frontier. In Holland, B. (Ed.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 194-210). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch011
Two librarians at a University in New Hampshire attempted to integrate gamification and mobile technologies into the exploration of, and orientation to, the library’s services and resources. From augmented reality to virtual escape rooms and finally an in-house app created by undergraduate, campus-based, game design students, the library team learned much about the triumphs and challenges that come with attempting to utilize new technologies to reach users in the 21st century. This chapter is a narrative describing years of various attempts, innovation, and iteration, which have led to the library team being on the verge of introducing an app that could revolutionize campus discovery and engagement.
Miltenoff, P. (2020). Video 360 and Augmented Reality: Visualization to Help Educators Enter the Era of eXtended Reality. In Holland, B. (Eds.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 211-225). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch012
The advent of all types of eXtended Reality (XR)—VR, AR, MR—raises serious questions, both technological and pedagogical. The setup of campus services around XR is only the prelude to the more complex and expensive project of creating learning content using XR. In 2018, the authors started a limited proof-of-concept augmented reality (AR) project for a library tour. Building on their previous research and experience creating a virtual reality (VR) library tour, they sought a scalable introduction of XR services and content for the campus community. The AR library tour aimed to start us toward a matrix for similar services for the entire campus. They also explored the attitudes of students, faculty, and staff toward this new technology and its incorporation in education, as well as its potential and limitations toward the creation of a “smart” library.

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