The SIIA CODiE Awards for 2016 — with thanks to Neha Jaiswal from uCertify for this resource; uCertify, as you will see, did quite well
Since 1986, the SIIA CODiE Awards have recognized more than 1,000 software and information companies for achieving excellence. The CODiE Awards remain the only peer-recognized program in the content, education, and software industries so each CODiE Award win serves as incredible market validation for a product’s innovation, vision, and overall industry impact.
When designing a program or product, many education leaders and ed-tech developers want to start with the best knowledge available on how students learn. Unfortunately, this is easier said than done.
Although thousands of academic articles are published every year, busy education leaders and product developers often don’t know where to start, or don’t have time to sift through and find studies that are relevant to their work. As pressure mounts for “evidence-based” practices and “research-based” products, many in the education community are frustrated, and want an easier way to find information that will help them deliver stronger programs and products — and results. We need better tools to help make research more accessible for everyday work in education.
The Digital Promise Research Map meets this need by connecting education leaders and product developers with research from thousands of articles in education and the learning sciences, along with easy-to-understand summaries on some of the most relevant findings in key research topics.
An idea/question from DSC: Looking at the article below, I wonder…“Why can’t the ‘One Day University‘ come directly into your living room — 24×7?”
This is why I’m so excited about the “The Living [Class] Room” vision. Because it is through that vision that people of all ages — and from all over the world — will be able to constantly learn, grow, and reinvent themselves (if need be) throughout their lifetimes. They’ll be able to access and share content, communicate and discuss/debate with one another, form communities of practice, go through digital learning playlists (likeLynda.com’s Learning Paths) and more. All from devices that represent the convergence of the television, the telephone, and the computer (and likely converging with the types of devices that are only now coming into view, such as Microsoft’s Hololens).
You won’t just be limited to going back to college for a day — you’ll be able to do that 24×7 for as many days of the year as you want to.
Then when some sophisticated technologies are integrated into this type of platform — such as artificial intelligence, cloud-based learner profiles, algorithms, and the ability to setup exchanges for learning materials — we’ll get some things that will blow our minds in the not too distant future! Heutagogy on steroids!
Have you ever thought about how nice it would be if you could go back to college, just for the sake of learning something new, in a field you don’t know much about, with no tests, homework or studying to worry about? And you won’t need to take the SAT or the ACT to be accepted? You can, at least for a day, with something called One Day University, the brainchild of a man named Steve Schragis, who about a decade ago brought his daughter to Bard College as a freshman and thought that he wanted to stay.
One Day University now financially partners with dozens of newspapers — including The Washington Post — and a few other organizations to bring lectures to people around the country. The vast majority of the attendees are over the age 50 and interested in continuing education, and One Day University offers them only those professors identified by college students as fascinating. As Schragis says, it doesn’t matter if you are famous; you have to be a great teacher. For example, Schragis says that since Bill Gates has never shown to be one, he can’t teach at One Day University.
…
We bring together these professors, usually four at at a time, to cities across the country to create “The Perfect Day of College.” Of course we leave out the homework, exams, and studying! Best if there’s real variety, both male and female profs, four different schools, four different subjects, four different styles, etc. There’s no one single way to be a great professor. We like to show multiple ways to our students.
Most popular classes are history, psychology, music, politics, and film. Least favorite are math and science.
We know the shelf-life of skills are getting shorter and shorter. So whether it’s to brush up on new skills or it’s to stay on top of evolving ones, Lynda.com can help you stay ahead of the latest technologies.
From DSC: I recently met Maaroof Fakhri at theNext Generation Learning Spaces Conference. It was a pleasure to meet him and hear him speak of the work they are doing at Labster (which is located in Denmark). He is very innovative, and he shines forth with a high degree of energy, creativity, and innovation.
Keep an eye on the work they are doing. Very sharp.
Learnathons, on the other hand are optimized sessions that teach participants how to apply what they learn as soon as possible. They are on the opposite end of how classroom teaching is organized, with lessons spread out over the course of a semester focusing on theory and weekly practice. They are a fairly new concept, but have created an environment for learning that is speeding up comprehension and application to levels that aren’t seen elsewhere.
Making high school science labs more real, more engaging, and more accessible Remote Online laboratories (iLabs) are experimental facilities that can be accessed through the Internet, allowing students and educators to carry out experiments from anywhere at any time.
By the numbers: MOOCS in 2015 — from class-central.com by How has the MOOC space grown this year? Get the facts, figures, and pie charts
Excerpt:
The MOOC space essentially doubled this year. More people signed up for MOOCs in 2015 than they did in the first three years of the “modern” MOOC movement (which started in late 2011—when the first Stanford MOOCs took off). According to data collected by Class Central, the total number of students who signed up for at least one course has crossed 35 million—up from an estimated 16-18 million last year.
Coursera, the largest online course provider in the world (MOOC or otherwise), added 7 million new students to its userbase (and so it now has 17 million students in total).
This is the first time that the MOOC market has grown faster than Coursera. Last year, Coursera was bigger than all other MOOC providers combined, but in 2015 it accounts for slightly less than 50% of all MOOC students.
…
Currently there are 100+ Specializations, Nanodegrees, and XSeries credentials, most of which were created in 2015, and we can expect that number to more than double in 2016. The projections for 2017 and beyond could be exponential. We tracked this trend early, and this enabled us at Class Central to introduce a free credential exploration and rating service called Credentialing the Credentials.
500+ Universities, 4200 courses, 35 Million Students
Next week a new massive open online course will begin for K-12 science teachers who want to learn how to help their students read and understand scientific texts. The course, delivered by Stanford University faculty, is free to participants. Four course sessions will run for 12 weeks and will deliver the equivalent of about 20 hours of professional development. The MOOC begins on January 13 and will be hosted on the NovoEd platform.
“Reading To Learn in Science” is being taught by Jonathan Osborne, a professor of science education in Stanford’s Graduate School of Education. In a previous career, Osborne spent nine years teaching physics in inner city London schools.
About the course
This free online course will look at the life and works of William Shakespeare and take you from his Birthplace in Stratford-upon-Avon to the Globe Theatre in London, from where he secured his central place in English literature.We will look at five of Shakespeare’s plays with the help of actors and experts from around the world. They will explain and explore the universal themes Shakespeare addressed in his work. The plays are: Romeo and Juliet, Hamlet, Much Ado About Nothing, The Tempest and Macbeth. Our video tutor will guide you through the course and look at some of the words and expressions that Shakespeare introduced to the English language. Short quizzes will check your understanding and you’ll be asked to share your ideas and opinions on the topics Shakespeare raises.
The growing demand of reliable online learning technologies is the driving force of Massive Open Online Course (MOOC) market.
The market is estimated to grow from USD 1.83 billion in 2015 to USD 8.50 billion by 2020, at an estimated compound annual growth rate (CAGR) of 36.0%. Adoption of device-based computing, increased connectivity of platform, and emergence of online and collaborative learning and personalization of technology are some of the prominent factors driving the adoption of MOOC platform and services.
Asia-Pacific (APAC) expected to be grow at the highest CAGR for MOOC platform.
The report will help the market leaders/new entrants in this market in the following ways:
This report segments the MOOC market comprehensively and provides the closest approximations of the revenue numbers for the overall market and the subsegments across end-users and regions.
The report will help stakeholders to understand the pulse of the market and provide them information on key market drivers, restraints, challenges, and opportunities.
This report will help in understanding the competitors better and gain more insights to strengthen their position in the business. The competitive landscape section includes competitor ecosystem, new product developments, partnerships, mergers and acquisitions.
Long ago, someone coined the adage, ‘a picture is worth a thousand words.’ Illustrators and teachers have grasped that simple truism throughout thousands of years of human history – It’s a fact that many, if not most of us, are visual learners. That’s especially true when it comes to things mechanical. That said, it’s 2015, and certainly time for a twenty first century iteration of this venerable learning principle to manifest. And in fact, it has – Consider Explain 3D – An interactive encyclopedia of 3D simulations and visualizations that helps kids, teachers or parents to explain and understand how things work. Explain 3D is a great tool to help youngsters develop the skills of logical thinking and imagination, while poking around in some very cool modern technologies and technical stuff.
MOOCs – or Massive Open Online Courses – are picking up momentum in popularity – at least in terms of initial enrollment.
Unlike regular college/ university courses, MOOCs can attract many thousands of enrollees around the world. They can come in the form of active course sessions with participant interaction, or as archived content for self-paced study. MOOCs can be free, or there can be a charge – either on a subscription basis or a one-time charge. Free MOOCs sometimes have a paid “verified certificate” option. There are now thousands of MOOCs available worldwide from several hundred colleges, universities and other institutions of higher learning. For your convenience, we’ve compiled a list of 50 of the most popular MOOCs, based on enrollment figures for all sessions of a course. The ranking is based on filtering enrollment data for 185 free MOOCs on various elearning platforms.
When the original Watson won on the TV quiz showJeopardy! in 2011, it was one computer tucked away in a room at IBM Research. Now it’s in our cloud, available anywhere. Back then, Watson consisted of a single software application powered by five core technologies. Today, it includes 28 cognitive services. Each represents a different mode of thinking–visual recognition, personality insights, relationship extraction and tradeoff analytics, to name a few. And more are on the way.
That’s a lot of technological progress in five years, underpinned by IBM’s deep technology capabilities in areas like data analytics, open standards, cloud services and security, and our deep knowledge of industries and professions. But just as important is the progress that we and our partners are making in applying cognitive technologies to real-world problems and opportunities.
Because of that progress, IBM is embarking today on a company-wide initiative aimed at accelerating the delivery of cognitive computing to businesses, government, and society. It’s similar to our launch of System/360 in 1964–a move that revolutionized computing and, over time, transformed the way business was done.
We believe that the world has entered a new era in the history of computing, which we call thecognitive era. IBM is committed to advancing cognitive technologies and a new way of solving problems to help transform companies, industries and professions, and to improve the day-to-day lives of individuals everywhere.
Recently I wrote about a novel new tool to telementor surgeons as they operate on patients. The system allows the surgeon performing the operation to receive help and guidance from a more experienced peer using telecommunications equipment.
The technology, called the System for Telementoring with Augmented Reality (STAR), was documented in a recent study and harnesses a range of technologies to provide surgeons with a transparent display, and several sensors to improve the communication between mentor and mentee.
Preparing for surgery
This approach is pretty cool, yet it nonetheless only provides help and support during the surgery itself. A new health tech startup called EchoPixel is hoping to change that by providing an accurate and realistic representation of the organ being operated on prior to the surgery taking place.
The company wanted to improve the existing methods of preparing for surgery, which usually revolve around 2 dimensional images produced by CT and MRI scanners of the relevant organs.
What Will the Future of Collaboration Look Like? — from corporatetechdecisions.com by Jonathan Blackwood Collaboration is a term whose very definition is in flux. So what will collaboration look like in the near future?
Excerpt:
The implementation of unified communication technologies has allowed for multiple offices to communicate, and placed less of a burden on employees being in office, resulting in part-time or full-time employees working from home. As a result, collaboration has centered around allowing employees to work together across distances.
“The out-of-room experience has been where all the focus has been. I think what happened, and the reason that we and Barco and Crestron have devoted so much time and money to the in-room experience is because that was really lacking,” says Rob Balgley, CEO of Mersive. “I think what you’re going to see next is the in-room experience that we’ve created, that others have created, is going to be married with the out-of-room experience, and that’s going to be the next big thing.”
From DSC: These advancements should help us connect remote learners with those learners meeting within a face-to-face setting.
What kind of boss hires a thwarted actress for a business-to-business software startup? Stewart Butterfield, Slack’s 42-year-old cofounder and CEO, whose estimated double-digit stake in the company could be worth $300 million or more. He’s the proud holder of an undergraduate degree in philosophy from Canada’s University of Victoria and a master’s degree from Cambridge in philosophy and the history of science.
“Studying philosophy taught me two things,” says Butterfield, sitting in his office in San Francisco’s South of Market district, a neighborhood almost entirely dedicated to the cult of coding. “I learned how to write really clearly. I learned how to follow an argument all the way down, which is invaluable in running meetings. And when I studied the history of science, I learned about the ways that everyone believes something is true–like the old notion of some kind of ether in the air propagating gravitational forces–until they realized that it wasn’t true.”
…
And he’s far from alone. Throughout the major U.S. tech hubs, whether Silicon Valley or Seattle, Boston or Austin, Tex., software companies are discovering that liberal arts thinking makes them stronger. Engineers may still command the biggest salaries, but at disruptive juggernauts such as Facebook and Uber, the war for talent has moved to nontechnical jobs, particularly sales and marketing. The more that audacious coders dream of changing the world, the more they need to fill their companies with social alchemists who can connect with customers–and make progress seem pleasant.
Addendum on 8/7/15:
STEM Study Starts With Liberal Arts— from forbes.com by Chris Teare Excerpt (emphasis DSC):
Much has been made, especially by the Return on Investment crowd, of the value of undergraduate study in the so-called STEM fields: Science, Technology, Engineering and Mathematics. Lost in the conversation is the way the true liberal arts underpin such study, often because the liberal arts are inaccurately equated solely with the humanities. From the start, the liberal arts included math and science, something I learned firsthand at St. John’s College.
This topic is especially on my mind since reading the excellent article George Anders has written for Forbes: “That ‘Useless’ Liberal Arts Degree Has Become Tech’s Hottest Ticket” In this context, understanding the actual origin and purposes of the liberal arts is all the more valuable.
Firstly, high school teacher Katrine Pinkpank’s class made individual, blippable posters for their Earth Day projects in April. When passers-by blipped these posters – all of which were hung in beautiful frames in the hallways – they were taken to a video of the students doing their Earth Day presentation in front of the class. One student in the class is legally blind, so the braille on his poster was used to trigger the blipp. These hallway boards have become living, breathing, 3D tributes to the work of our students.
In Room 407, students used Blippar in many different ways. Wendy Thompson, an early adopter of the technology, used it for a Women’s History Month project where students created an app-smash between Blippar and Trading Cards. The students created trading cards about famous women in history – such as Ella Fitzgerald, Frida Kahlo, and Mary Shelley – then used Blippar to add photo galleries, hyperlinks, and videos so people passing the bulletin board could scan the cards and view pop-up content about these remarkable women.
Secondly, the class made the school newsletter blippable.
…
Using Blippar and Tellagami, the students created talking digital avatar videos that illustrated their post-secondary and transition goals.
From DSC: Though this posting focuses on the use of Blippar, an augmented reality app, I also think beacons (such as from Estimote), machine-to-machine (M2M) communications, and apps like locly could be used to relay information from students, teachers, and faculty members who could record and provide presentations concerning their work — with pieces of their work being located out in the hallways or actually anywhere on a campus. When someone approaches a piece in the hallway, a pre-loaded application on that person’s mobile device — such as locly — would be activated to display a “card”/link to the video describing that piece. The author, creator, designer doesn’t need to be physically present in order to tell people about their work.
While gamers wait patiently for their virtual-reality headsets to go on sale, there’s another industry ripe for the VR picking: movies. That means, as VR technology matures, filmmakers have to work out a new approach to their craft. But if they get it right, audiences are in for a far more immersive and interactive ride.
Companies like Samsung, Google and Oculus have been evangelizing VR cinema experiences, hoping to bring the sorts of videos that make their virtual-reality platforms a real destination for movie watchers. But to make their campaigns work, they need filmmakers and video producers who know what they’re doing.
“My students were able to apply their understanding of the technology to learning activities (labs, research projects, etc.) that could be made possible using virtual reality. For students to draw those connections on their own gives me hope that engineers, teachers, and students will be able to collaborate and create great opportunities for learning inside of a virtual world.” – Matt Cobb
“As an educator with 20+ years’ experience integrating technology into curriculum, it is exciting for me to see a technology that so quickly captures the attention of the students, motivates them to make the effort to learn the procedures, and then opens them up to the relevant content.“ – Larry Fallon, Instructional Technology Coordinator, Arlington County Public Schools
…
But ultimately, will VR become a proven medium to help students learn faster, be more motivated, and expand the boundaries of what is possible? Let’s take a moment to survey the state of the field right now and see what the future of virtual reality in education could look like.
Reilly’s football software is among a tidal wave of VR programs being developed for introduction to consumers in the next year. The military already uses VR in some training exercises, but the technology has potential uses in other areas, such as entertainment and home improvement. Architects, for instance, can create life-size virtual models of buildings rather than relying on traditional physical models.
…
Raymond Wong, a product analyst for Mashable, said: “I’m not sure if people want to put these goggles on at home. It’s a very isolating experience.” Indeed, total immersion in a world that occupies most of the users’ senses could lend itself to previously unseen consequences.
…
Wong sees more potential for VR in commercial industries such as marketing or engineering.
Research has already pointed to VR’s advantages in the medical field, Rizzo said. Once interactive intelligent agents — virtual characters — are advanced enough to respond like people, surgeons in training may be able to practice procedures with these characters. VR simulations could also be used as a way to distract patients from painful procedures, possibly becoming an alternative to pain medicine.
Education may also benefit from advances in virtual reality.
If a student struggles with conceptualizing the atomic structure, for instance, he could plop on the headset and be immersed within a virtual atom.
The development of new technologies and techniques, combined with the increasingly interdisciplinary approach of archaeological investigation, are producing results that, for the archaeologist of 20 years ago, might have been the stuff of science fiction. Who would have known then that scientists would resurrect in startling detail an entire ancient Roman town after only fractional excavation? And who would have known that thousands of people from nearly every corner of the world would be able to ‘walk’ through that town without ever physically setting foot within?
This, however, is exactly what has happened for an obscure archaeological site located in Portugal—a relatively small ancient Roman town whose few visible remains have attracted comparatively few visitors—at least as compared to the iconic Roman city of Pompeii in the south of Italy.
NeoS: The Universe This is a fantastic demo that takes you from the smallest level of scale (surrounded by protons and neutrons) through to the largest (galaxies and the observable universe). As you progress through the scales you are in first overlooked by a penny that seems the size of a building, before seeing it get smaller in front of you and other objects such as basketballs and a T-Rex come into view.
Mona Lisa Room
This is one of those ‘transport you to a location’ demos that a lot of people are starting to get involved with. It seems like such an obvious use of VR technology, and you can really see how the cultural heritage and museum sector is going to jump on this once the technology is commercially available. Essentially what you have here is a solo tour of a very famous art gallery room in the Louvre museum in Paris, complete with atmospheric and well-produced audio guides for a number of different paintings. Most importantly, it’s a VIP viewing – you are escaping the hundreds of tourists crammed into the small space for a personal experience taken at your leisure. Unfortunately, this particular demo really exposes the need for a higher resolution screen than the DK2 has at hand. The Mona Lisa is a small painting, and so none of the detail comes out which is particularly jarring given that the audio tour is talking specifically about how perfect the painting is. Even the massive wall-size Biblical painting nearby comes across as too pixelated to really engage with. It’s a concept that is going to take off in the very near future, but not until we get nice high-res screens!
The first piece of advice for budding data scientists is not to get frustrated by the job requirements. No recent college grad can fill is simultaneously a math/statistics genius, an expert in marketing/derivatives /cybersecurity, and a pro Python/Java/R coder. (Hint: That’s why data scientists are called unicorns—because they don’t exist!)
“There are many skills under the umbrella of data science, and we should not expect any one single person to be a master of them all,” says Kirk Borne, a data scientist with Booz Allen Hamilton. “The best solution to the data science talent shortage is a team of data scientists. So I suggest that you become expert in two or more skill areas, but also have a working knowledge of the others.”
According to Borne, you’ll do well by yourself to bone up on core data science skills such as machine learning, information retrieval, statistics, and data and information visualization. You’ll also want to know your way around a databases and data structures and have at least some programming languages under your belt, such as Python, R, SAS, or Spark. Familiarity with graph analysis, natural language processing, and optimization also looks good on your data science resume, as do data modeling and simulation.
“The good news for physics, biology, astronomy, chemistry, and other science students is that they can easily translate their science skills into a data science profession,” he says.
With support from Vulcan Inc, a Paul Allen company, Getting Smart conducted a series of expert interviews with education and philanthropy leaders, and led a design workshop, to identify and vet impact investment strategies in U.S. K-12 education. This resulting report outlines opportunities where organizations can participate in making significant shifts in the American education landscape, ultimately improving student outcomes.
Through our research and interviews, approximately four dozen impact opportunities were identified in the following 10 categories and are described within the report:
1. Microschool, big impact.We’ve seen how microschools could, in most cities, accelerate the transition to next-gen learning. That’s why we were so excited to see AltSchool highlighted in a video on CBS News This Morning.
… 4. Mind the gap.Closing the Achievement at Three Virtual Academies, is a new report from K12 that highlights the progress of Texas Virtual Academy (leaders in Course Access in the Lone Star State), Arizona Virtual Academy, and Georgia Cyber Academy in creating opportunities for low-income students.
From DSC: With a special thanks and a shout out to Jasmine Dyoco ateducatorlabs.orgfor the following information:
Summer vacation is upon us and students will be spending it in a variety of ways – from tinkering around the house and going swimming through brushing up on math and thinking about college. Whatever they do, we hope to inspire them to get excited about something new, and make use of their unstructured time to find a new passion.
We’ve gathered resources on different topics to help spark students’ interests in something new — from STEM through human stories — that we think will be useful and fun!
The June-July issue of The Teaching Professor newsletter highlights a study you don’t want to miss. It’s a meta-analysis of 225 studies that compare STEM classes taught using various active learning approaches with classes taught via lecture. “The results indicate that average examination scores improved by about 6% in active learning sessions, and that students in classes with traditional lecturing were 1.5 times more likely to fail than were students in classes with active learning.” (p. 8410) Carl Wieman, a Nobel-winning physicist who now does research on teaching and learning, describes the work as a “massive effort” that provides “a much more extensive quantitative analysis of the research on active learning in college and university STEM courses than previously existed.” (p. 8319) And what does he make of these results? “The implications of these meta-analysis results for instruction are profound, assuming they are indicative of what could be obtained if active learning methods replaced the lecture instruction that dominates U.S. postsecondary STEM instruction.” (pp. 8319-8320) That’s a long way from the guarded language usually found in commentaries on scientific results.
Also see:
Also see:
Also see:
3 key trends in campus AV technology — from campustechnology.com by Dennis Pierce With active learning environments on the rise, new AV systems support classroom collaboration. .
Why blogging is key to the future of higher ed — from campustechnology.com by Michael Hart A massive experiment at Virginia Commonwealth University involving 7,000 blogs could lead to a new view on how college students learn. Excerpt:
Using these blogs and other forms of social media, students could communicate with one another and with their teachers, and do much of their coursework online. At the same time, faculty members began to participate in intensive face-to-face Online Learning Experience training sessions, followed by an additional online component that could introduce them to a broad range of connected learning ideas and tools.