Simply put, a podcast is an audio file posted on a website that people can download and listen to. Businesses use them to establish themselves as experts in their field or to share information about their product or service.
Why are podcasts so popular for businesses?
1. Podcasts are readily available.
2. Your audience can listen to them anywhere.
3. You get to share your expertise.
What are the advantages of webinars?
Webinars are an increasingly popular way to build relationships with current and potential clients. They are multi-media meetings, seminars or classes held over the Internet and done in real time.
1. Webinars allow you to interact with your audience.
Paid Webinars allow you to monetize your expertise. Y
The Call to Action feature allows you to provide a customized call to action button during your webinar
Still wondering which is best for your business?
1. Do you want to cast a wide net to find new audiences?
If so, podcasts are a great way to do that. Your audience has easy access to you and they can listen anywhere to learn more about you and your expertise in your field.
2. Are you looking to go deeper and turn contacts into clients?
Then webinars are for you. They allow you to build relationships through thoughtful interaction.
the Fourth Industrial Revolution, or Industry 4.0. The adoption of cyber-physical systems, the Internet of Things and the Internet of Systems
While in some ways it’s an extension of the computerization of the 3rd Industrial Revolution (Digital Revolution), due to the velocity, scope and systems impact of the changes of the fourth revolution, it is being considered a distinct era. The Fourth Industrial Revolution is disrupting almost every industry in every country and creating massive change in a non-linear way at unprecedented speed.
In his book,The Fourth Industrial Revolution, professor Klaus Schwab, founder and executive chairman of the World Economic Forum, describes the enormous potential for the technologies of the Fourth Industrial Revolution as well as the possible risks.
Our workplaces and organizations are becoming “smarter” and more efficient as machines, and humans start to work together, and we use connected devices to enhance our supply chains and warehouses. The technologies of the Fourth Industrial Revolution might even help us better prepare for natural disasters and potentially also undo some of the damage wrought by previous industrial revolutions.
There might be increased social tensions as a result of the socioeconomic changes brought by the Fourth Industrial Revolution that could create a job market that’s segregated into “low-skill/low-pay” and “high-skill/high-pay” segments.
We need to develop leaders with the skills to manage organizations through these dramatic shifts.
Ubiquitous social media platforms—including Facebook, Twitter and Instagram—have created a venue for people to share and connect with others. We use these services by clicking “I Agree” on Terms of Service screens, trading off some of our private and personal data for seemingly free services. While these services say data collection helps create a better user experience, that data is also potentially exploitable.
The news about how third parties obtain and use Facebook users’ data to wage political campaigns and the mounting evidence of election interference have shined a spotlight on just how secure our data is when we share online. Educating youth about data security can fall under the larger umbrella of digital citizenship, such as social media uses and misuses and learning how not to embarrass or endanger oneself while using the internet.
Darvasi’s students in Toronto can pool together 55 faux bitcoins to purchase and launch the BOTTING protocol against an opponent. The student targeted at Fallon’s school in Connecticut would then have 48 hours to record audio of 10 words of Darvasi’s students choosing and send it back to them through an intermediary (Darvasi or Fallon). For a higher price of 65 faux bitcoins, students can launch MORPHLING, which would give the opponent 48 hours to record a one-minute video explaining three ways to stay safe while using Facebook, while making their school mascot (or a close approximation of) appear in the video in some way during the entire minute.
Thirty students registered for Arizona State University Online’s general biology course are using ASU-supplied virtual reality (VR) headsets for a variety of required lab exercises
The VR equipment, which costs ASU $399 per student, allows learners to complete lab assignments in virtual space using goggles and a controller to maneuver around a simulated lab. Content for the online course was developed and assessed by ASU biology professors and was evaluated this summer. Students also can use their own VR headsets and access the content on their laptops, as 370 other students are doing.
A university official told Campus Technology the initiative will help online students have the experiences provided in brick-and-mortar labs as well as new ones that were impossible previously. The effort also will ease a problem on campus with limited lab space.
Similar labs are planned for the University of Texas at San Antonio and McMaster University in Canada, according to a blog post from Google, which partnered with the ed-tech company Labster to create the virtual labs. In addition, virtual labs also are available at eight community colleges in California, offering IT and cybersecurity skills instruction.
About half of colleges have space dedicated to VR, with adoption expected to increase as technology costs go down, according to a recent survey by nonprofit consortium Internet2. The survey found that 18% of institutions have “fully deployed” VR and are increasingly making it available to online students, while half are testing or have not yet deployed the technology.
Colleges are using VR for a variety of purposes, from classroom instruction to admissions recruiting to career training.
In addition, because the use of VR is growing in K–12 education, students will expect to use it in college.
breakdown of IoT functionality, from Deloitte. They give 5 general types of services that IoT “things” can do:
Internal state: Heartbeat- and ping-like broadcasts of health, potentially including diagnostics and additional status reporting (for example, battery level, CPU/memory utilization, strength of network signal, up-time or software/platform version).
Location: Communication of physical location via GPS, GSM, triangulation or proximity techniques
Physical attributes: Monitoring the world surrounding the device, including altitude, orientation, temperature, humidity, radiation, air quality, noise and vibration
Functional attributes: Higher-level intelligence rooted in the device’s purpose for describing business process or workload attributes
Actuation services: Ability to remotely trigger, change or stop physical properties or actions on the device.
Examples of IoT in action
There are some pretty well-known IoT products that some of you already use, including:
Nest Thermostat (and others). These allow you to control your AC from your phone, anywhere that you can connect to the Internet.
Smart lights: Same concept, but for lights. You can turn lights on/off from your phone. Phillips Hue is an example of this
Bluetooth Trackers – Tile (https://www.thetileapp.com/) is an example of a Bluetooth Tracker. Put one on that thing you always lose (i.e., car keys). The next time you lose those keys, you can find them again via an app on your phone.
Smart Home appliances – things like Google Home, Amazon Echo, and Apple HomeKit.
Smart power switches – Belkin’s Wemo Insight Wi-Fi Smart Plug is an example. They let you turn the plug (and therefore anything connected to it) on and off, set schedules for the plug, monitor energy consumption and use, etc. You can also connect it to Amazon Alexa and Google Home for hands-free voice control
Health and exercise trackers – Fitbits “fit” into this category, too.
How does IoT affect libraries?
Here are some ways libraries are already incorporating IoT technology into their libraries:
Smart Building Technology: As libraries retrofit their buildings with newer technology (or build new buildings/branches), they are starting to see more IoT-based technology. For example, some libraries can can adjust heating, cooling and lights from a smartphone app. Some newer building monitoring and security systems can be monitored via mobile apps.
RFID: RFID technology (sensors in books) is a type of IoT technology, and has been around for awhile.
Beacon Technology: There are at least two library-focused companies experimenting with Beacon technology (Capira Technologies and Bluubeam).
People counters: Check out Jason Griffey’s Measure the Future project. Here’s what he says about Measure the Future: “Imagine having a Google-Analytics-style dashboard for your library building: number of visits, what patrons browsed, what parts of the library were busy during which parts of the day, and more. Measure the Future is working to make that happen by using open-hardware based sensors that can collect data about building usage that is now invisible. Making these invisible occurrences explicit will allow librarians to make strategic decisions that create more efficient and effective experiences for their patrons.”
Library classes! Libraries are also teaching classes about the Internet of Things. These include classes focused on introducing patrons to IoT technology, and classes that focus on an aspect of IoT, like a class on making things with Arduinos or how to use your new Fitbit.
According to San Jose State University researcher Ziming Lu, this is typical “screen-based reading behavior,” with more time spent browsing, scanning and skimming than in-depth reading. As reading experiences move online, experts have been exploring how reading from a screen may be changing our brains. Reading expert Maryanne Wolf, author of Proust and the Squid, has voiced concerns that digital reading will negatively affect the brain’s ability to read deeply for sophisticated understanding, something that Nicholas Carr also explored in his book, The Shallows. Teachers are trying to steer students toward digital reading strategies that practice deep reading, and nine out of ten parents say that having their children read paper books is important to them.
Cognitive scientist Daniel T. Willingham said that digital devices aren’t changing the way kids read in terms of actual cognitive processes—putting together letters to make words, and words to make sentences. In fact, Willingham is quick to point out that in terms of “raw words,” kids are reading more now than they were a decade ago (thanks mostly to text messaging). But he does believe, as he writes in his book, The Reading Mind: A Cognitive Approach to Understanding How the Mind Reads, that kids’ reading habits are changing. And it’s reasonable to guess that digital technology, in all its three-second-video and Snapchat glory, is changing those habits.
For many parents and teachers worried that spending so much time with video games and Snapchats will shred kids’ attention spans—the average 8-12-year-old spends about six hours a day in front of a screen, and teenagers spend more than nine — Willingham thinks they may be concerned about the wrong thing. He isn’t convinced that spending so many hours playing Super Smash Bros will shorten kids’ attention spans, making them unable to sustain the attention to read a book. He’s more concerned that Super Smash Bros has trained kids’ brains to crave experiences that are more like fast-paced video games.
instead to help kids distinguish between the easy pleasures of some digital media, and the more complex payoff that comes when reaching the end of the Harry Potter series. He recommends telling kids that you want them to experience both, part of a larger strategy to make reading a family value.
“It’s watermelon or chocolate for dessert.
According to Julie Coiro, a reading researcher at the University of Rhode Island, moving from digital to paper and back again is only a piece of the attention puzzle: the larger and more pressing issue is how reading online is taxing kids’ attention.
Each time a student reads online content, Coiro said, they are faced with almost limitless input and decisions, including images, video and multiple hyperlinks that lead to even more information.
Founded in 2014 by Vitalik Buterin, Gavin Wood, and Jeffery Wilcke, Ethereum is one of the fastest growing blockchain technology-based platforms and a cryptocurrency like bitcoin.
Ripple was developed in 2012. Currently, the cryptocurrency that represents Ripple blockchain, XRP, is one the high performing cryptocurrencies in the crypto world.
Based on the blockchain technology, Hyperledger offers distributed ledger frameworks to a variety of industry leaders in the fields of banking, finance, Internet of Things, supply chains, manufacturing, and technology.
4. IBM Bluemix Blockchain:
Developed using the base of Hyperledger, IBM Bluemix offers transparency in transactions and security in information for enterprises. At present, IBM Bluemix runs on the IBM cloud.
5. Multichain
Multichain is one of the best Blockchain platforms that enables the creation and execution of private blockchains. This multi-asset exchange is becoming popular for solving real problems in finance, infrastructure, and e-commerce.
6. Openchain:
Developed by Coinprism, Open-chain is a Blockchain infrastructure that’s used for the perseverance and management of digital assets. Open-chain is an enterprise-ready platform for digital assets. Its approach is different than the standard Bitcoin approach to implementing Blockchain.
Conclusion:
With the above-mentioned blockchain platforms, you can get unprecedented services for the security of digital transactions and assets. The blockchain technology provides independent and secure work structure and is a reliable solution that can be utilized to streamline an organization’s processes and transfer of assets without getting into any extensive documentation or periodical controls.
Roughly half of U.S. teens say they spend too much time on their cellphones, according to research from Pew. About the same proportion of teens report taking steps to limit their use of the devices. Another survey found that about two-thirds of parents also worry their children spend too much time in front of screens; nearly 60% of parents report setting screen time restrictions for their children. The findings come as some technology companies introduce features to cut back on phone addiction.
Amid roiling debates about the impact of screen time on teenagers, roughly half of those ages 13 to 17 are themselves worried they spend too much time on their cellphones. Some 52% of U.S. teens report taking steps to cut back on their mobile phone use, and similar shares have tried to limit their use of social media (57%) or video games (58%), a new Pew Research Center survey finds.
Overall, 56% of teens associate the absence of their cellphone with at least one of these three emotions: loneliness, being upset or feeling anxious. Additionally, girls are more likely than boys to feel anxious or lonely without their cellphone.
The vast majority of teens in the United States have access to a smartphone, and 45% are online on a near constant basis. The ubiquity of social media and cellphones and other devices in teens’ lives has fueled heated discussions over the effects of excessive screen time and parents’ role in limiting teens’ screen exposure. In recent months, many major technology companies, including Google and Apple, have announced new products aimed at helping adults and teens monitor and manage their online usage.
Girls are somewhat more likely than boys to say they spend too much time on social media (47% vs. 35%).
Meanwhile, 31% of teens say they lose focus in class because they are checking their cellphone – though just 8% say this often happens to them, and 38% say it never does.
Girls are more likely than boys to express feelings of anxiety (by a 49% to 35% margin) and loneliness (by a 32% to 20% margin) when they do not have their phone with them.
for Google’s corporate parent, Alphabet, the opportunities in the world’s largest internet market may be too good to resist. And the full scope of the company’s interest in China now appears to be broader than just internet search.
The latest hint came from Waymo, the driverless-car company that was spun out of Google in 2016. Chinese media noticed this week that the business had quietly registered a Shanghai subsidiary in May, suggesting that it wants a piece of an industry that the Chinese government has made a priority.
Unlike Google, Apple runs its own app store in China, heeding government directives about the kinds of apps that can be available to Chinese users. Microsoft and Amazon offer cloud computing services, working with local partners and following strict controls on how customers’ data is stored.
Baidu, maker of the country’s leading search engine, has made its autonomous-vehicle software platform available to dozens of local and foreign companies. SAIC Motor, China’s largest carmaker, is working with the e-commerce titan Alibaba. BMW and Daimler have received permission in China to test their own self-driving vehicles.
the idea of a blog. the advantages compared to SM such as WeChat / Facebook
Reflections
Multimedia
Connecting blogs to social media (WeChat and similar)
Digital Literacy instruction
what is digital literacy and how does it differ from other literacies? Why is it important?
What other literacies must be considered when speaking about DL? E.g. media literacy: https://blog.stcloudstate.edu/ims?s=media+literacy
Internet Resources
How do we search?
Google and Google Scholar (more focused, peer reviewed, academic content)
SCSU Library search, Google, Professional organization, (NASSP), Stacks of magazines, csu library info, but need to know what all of the options mean on that page
