The information below is from Deb Molfetta, Outreach Coordinator at EdDPrograms.org
EdDPrograms.org helps educators and administrators research doctoral education opportunities. Their organization’s work in education began in 2008 with projects ranging from a new teacher survival guide to their own teacher education scholarship program. More recently they realized that there weren’t any websites dedicated to professional development through Doctor of Education (EdD) programs, which is why they created their own – EdDPrograms.org. It covers a lot of ground, but here are a few sections they think administrators will appreciate:
EdDPrograms.org is owned and operated by a group that has been creating post-secondary education resources since 2008. According to Deb, they have a history of providing students with objective, fact-based resources.
DeepMind specializes in “deep learning,” a type of artificial intelligence that is rapidly changing drug discovery science. A growing number of companies are applying similar methods to other parts of the long, enormously complex process that produces new medicines. These A.I. techniques can speed up many aspects of drug discovery and, in some cases, perform tasks typically handled by scientists.
“It is not that machines are going to replace chemists,” said Derek Lowe, a longtime drug discovery researcher and the author of In the Pipeline, a widely read blog dedicated to drug discovery. “It’s that the chemists who use machines will replace those that don’t.”
Artificial intelligence (AI) and machine learning (ML) have a rapidly growing presence in today’s world, with applications ranging from heavy industry to education. From streamlining operations to informing better decision making, it has become clear that this technology has the potential to truly revolutionize how the everyday world works.
While AI and ML can be applied to nearly every sector, once the technology advances enough, there are many fields that are either reaping the benefits of AI right now or that soon will be. According to a panel of Forbes Technology Council members, here are 13 industries that will soon be revolutionized by AI.
Tiny robots modeled after bacteria could be used to deliver drugs to hard to reach areas of the human body. Scientists at École polytechnique fédérale de Lausanne (EPFL) and the Swiss Federal Institute of Technology in Zurich (ETH Zurich) have developed what they call elastic microbots that can change shape depending on their environment.
Applications are surging for New York University’s School of Medicine after the university announced last year that its medical program would be tuition-free for all students.
But NYU isn’t the only school trying to offer free medical training. Dozens of colleges and universities are taking courses in healthcare and medicine online—and making them free or low-cost—with massive online course platforms.
Coursera, a company that hosts massive online courses and degrees, is the latest entrant among a growing number of online education providers that are entering the medical space.
[On 1/17/19], the Mountain View, Calif.-based company announced it will be adding an entire healthcare vertical with 100 new courses and 30 new “Specializations,” or what the company calls its paid bundles of courses that students can earn a certificate for.
It is also announcing two new online degrees: a Master of Public Health from the University of Michigan School of Public Health, and Master of Public Health from Imperial College London.
OpenSight specifically utilizes the Microsoft HoloLens headset that allows simultaneous visualization of the 3D patient images in AR and the actual patient and their real-world surroundings. The technique may decrease operative times and improve surgical planning and the understanding of anatomic relationships.
“Kids love to engage with [VR] lessons,” said Guido Kovalskys, chief executive and co-founder of US-based edtech company Nearpod. “One minute, they are learning about Roman history, and the next, they are transported to ancient Rome and are exploring the Colosseum.”
From DSC: Ok, so the title is on the overhyped side, but I do think XR will positively impact learning, understanding.
VR & AR 2018: A year in review— from vrscout.com by Kyle Melnick Excerpt:
If 2016 was the birth of modern VR/AR technology, than 2018 was its elementary school graduation. While this past year may have seemed like a quiet one when compared to the more exciting releases featured in 2017 and 2016, these past 12 months have been crucial in the development of the immersive entertainment sector.
Major hardware releases, vast improvements to software, and various other integral advancements have quietly solidified VR & AR as viable, long-term technological platforms for years to come. So while there may not have been any bombshell announcements or jaw-dropping reveals per sey, 2018 will still go down as a key, if not climactic, year for VR & AR technology regardless.
With a new year full of exciting possibilities ahead of us, let’s hang back a second and take a look back at 2018’s most pivotal moments.
Indeed, if you haven’t yet heard of the “AR Cloud”, it’s time to take serious notice. The term was coined by Ori Inbar, an AR entrepreneur and investor who founded AWE. It is, in his words, “a persistent 3D digital copy of the real world to enable sharing of AR experiences across multiple users and devices.”
“It’s not about how virtual reality functions. It’s about, ‘How does history function in virtual reality? How does biology function in virtual reality? How does psychology function with these new tools?’” he said.
The school hopes to prepare student for careers in a field with a market size projected to grow to $209.2 billion by 2022, according to Statista. Still at its advent, Whelan compared VR technology to the introduction of the personal computer.
From DSC: But even in that posting the message is mixed…some pros…some cons. Some things going well for XR-related techs…but for other things, things are not going very well.
…but on the other hand,
some things don’t look so good…
Four years later, things are starting to look decidedly bleak. Yes, there are about 5 million Gear VR units and 3 million Sony Playstation VR headsets in market, plus probably a few hundred thousand higher-end Oculus and HTC Vive systems. Yes, VR is still being demonstrated at countless conferences and events, and big corporations that want to seem innovative love to invest in a VR app or two. Yes, Facebook just cracked an important low-end price point with its $200 Oculus Go headset, theoretically making VR affordable for mainstream consumers. Plus, there’s even more hype about Augmented Reality, which in a way could be a gateway drug to VR.
But it’s hard to ignore a growing feeling that VR is not developing as the industry hoped it would. So is that it again, we’ve seen this movie before, let’s all wrap it up and wait for the next wave of VR to come along about five years from now?
There are a few signs that are really worrying…
From DSC:
My take is that it’s too early to tell. We need to give things more time.
Ever wish you could step into a hot air balloon, travel back in time to 320 A.D., and soar over the streets of Ancient Rome? Well, that oddly specific fantasy is achievable in a new virtual reality experience called “Rome Reborn.”
The ambitious undertaking, painstakingly built by a team of 50 academics and computer experts over a 22-year period, recreates 7,000 buildings and monuments scattered across a 5.5 square mile stretch of the famed Italian city. The project, according to Tom Kington of the Times, is being marketed as the largest digital reconstruction of Rome to date.
While the application of VR to core academics remains nascent, early returns are promising: research now suggests students retain more information and can better synthesize and apply what they have learned after participating in virtual reality exercises.
And the technology is moving within the reach of classroom teachers. While once considered high-end and cost-prohibitive, virtual reality is becoming more affordable. Discovery VR and Google Expeditions offer several virtual reality experiences for free. Simple VR viewers now come in relatively low-cost DIY cardboard view boxes, like Google Cardboard, that fit a range of VR-capable smartphones.
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Still, teachers may remain unsure of how they might implement such cutting-edge technology in their classrooms. Their concerns are well founded. Virtual reality takes careful planning and implementation for success. It’s not simply plug-and-play technology. It also takes a lot of work to develop.
From DSC: Reduced costs & greater development efficiencies needed here:
“In our case, to create just 10 minutes of simulation, a team of six developers logged almost 1,000 hours of development time.”
See the results of a months-long effort to create a HoloLens experience that pays homage to Mont-Saint-Michel, in Normandy, France, in all its forms – as a physical relief map and work of art; as a real place visited by millions of people over the centuries; and as a remarkable digital story of resilience. In this three-part Today in Technology series, they examine how AI and mixed reality can open a new window into French culture by using technology like HoloLens.
1) Augmented reality can save lives through showing defibrillators nearby
2) Google Glass might help new mothers struggling with breastfeeding
3) Patients can describe their symptoms better through augmented reality
4) Nurses can find veins easier with augmented reality
5) Motivating runners through zombies
6) Pharma companies can provide more innovative drug information
7) Augmented reality can assist surgeons in the OR
8) Google’s digital contact lens can transform how we look at the world
No doubt about it. Virtual reality isn’t just for gamers and gadget geeks anymore. In fact, as the technology gets better and cheaper, VR is the wave of the future when it comes to creating a truly memorable and effective learning experience – and for good reason.
Multiple Learning Attributes. To begin with, it empowers us to create any number of safely immersive virtual learning environments that feel and respond much as they would in real life, as students engage and explore, interact with and manipulate objects within these worlds. Imagine teleporting your students to re-enact historic battles; explore outer space; or travel the inner workings of the human body. What’s more, using sophisticated controls, they can actually “practice” complex procedures like cardiac surgery, or master difficult concepts, such as the molecular properties of brain cells.
Likewise, VR gives new meaning to the term “field trip,” by enabling students to virtually experience first-hand some of the world’s great museums, natural wonders and notable landmarks. You can also embed 360-degree objects within the virtual classroom to support course content, much as Drexel University Online is doing after assembling its one-of-a-kind VRtifacts+ repository. And you can use it to live-stream events, guest lectures and campus tours, in addition to hosting virtual community spaces where learners can meet and connect in a seemingly “real” environment.
At EduTECH Asia 2018 this week in Singapore, EON Reality spent two full days speaking, promoting, and demonstrating the latest updates to the AVR Platform to the thousands of education and technology professionals in attendance.
With a focus on how the AVR Platform can best be used in the education world, EON Reality’s discussion, ‘Augmented and Virtual Reality in Education: The Shift to Classroom 3.0,’ highlighted Wednesday’s offerings with a full presentation and hands-on demos of the new tools in Creator AVR. Over the course of both days, visitors filled the EON Reality booth to get their own one-on-one experience of Creator AVR, Virtual Trainer, and the ways in which AR Assist can help out in the classroom.
The AVR Platform’s three products are the fundamental tools of EON Reality’s Classroom 3.0 vision for the Immersed Flipped Classrooms of the future. With Creator AVR — a SaaS-based learning and content creation solution — leading the way, the AVR Platform empowers Classroom 3.0 by providing teachers and educators of all types with the tools needed to create Augmented and Virtual Reality learning modules.
Bringing Asian educators from all over the continent together, EON Reality’s presence at EduTECH showed just how significantly Augmented Reality and Virtual Reality can elevate the overall educational experience going forward. After two full days of demonstrations, EON Reality introduced the AVR Platform to approximately 1500 teachers, school administration officials, and other decision-makers in Asia’s education industry.
As the AVR Platform expands to educational markets around the world, EON Reality’s revolutionary spin on traditional learning branches into new cultures and nations. With local Singaporean educational institutions like Temasek Polytechnic already onboard, the EduTECH Asia 2018 conference marked the continued spread of Classroom 3.0 and the AVR Platform on both a regional and global level.
But for physicians like me in primary care, managing 1,500 to 2,000 patients, AI presents an opportunity. I went to medical school to connect with people and make a difference. Today I often feel like an overpaid bookkeeper instead, taking in information and spitting it back to patients, prescribing drugs and adjusting doses, ordering tests. But AI in the exam room opens up the chance to recapture the art of medicine. It could let me get to know my patients better, learn how a disease uniquely affects them, and give me time to coach them toward a better outcome.
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AI might also help to manage asthma flares. For many patients, asthma gets worse as air pollution levels rise, as happened this past summer when brush fires swept through Northern California. AI could let us take environmental information and respond proactively.
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Not long ago, in the Journal of the American Medical Association, I saw a colorful picture drawn by a child in crayon. It portrayed her pediatrician, eyes glued to the computer, while she sat on the exam table, looking wide-eyed. I hope that AI will soon allow me to turn my attention back to that little girl.
Rahul Parikh is a pediatrician in the San Francisco Bay area.
Your next doctor’s appointment might be with an AI — from technologyreview.com by Douglas Heaven A new wave of chatbots are replacing physicians and providing frontline medical advice—but are they as good as the real thing?
Excerpt:
The idea is to make seeking advice about a medical condition as simple as Googling your symptoms, but with many more benefits. Unlike self-diagnosis online, these apps lead you through a clinical-grade triage process—they’ll tell you if your symptoms need urgent attention or if you can treat yourself with bed rest and ibuprofen instead. The tech is built on a grab bag of AI techniques: language processing to allow users to describe their symptoms in a casual way, expert systems to mine huge medical databases, machine learning to string together correlations between symptom and condition.
Babylon Health, a London-based digital-first health-care provider, has a mission statement it likes to share in a big, bold font: to put an accessible and affordable health service in the hands of every person on earth. The best way to do this, says the company’s founder, Ali Parsa, is to stop people from needing to see a doctor.
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Not everyone is happy about all this. For a start, there are safety concerns. Parsa compares what Babylon does with your medical data to what Facebook does with your social activities—amassing information, building links, drawing on what it knows about you to prompt some action. Suggesting you make a new friend won’t kill you if it’s a bad recommendation, but the stakes are a lot higher for a medical app.
Episode Summary: This week on AI in Industry, we speak with Amir Saffari, Senior Vice President of AI at BenevolentAI, a London-based pharmaceutical company that uses machine learning to find new uses for existing drugs and new treatments for diseases.
In speaking with him, we aim to learn two things:
How will machine learning play a role in the phases of drug discovery, from generating hypotheses to clinical trials?
In the future, what are the roles of man and machine in drug discovery? What processes will machines automate and potentially do better than humans in this field?
A few other articles caught my eye as well:
This little robot swims through pipes and finds out if they’re leaking — from fastcompany.com by Adele Peters Lighthouse, U.S. winner of the James Dyson Award, looks like a badminton birdie and detects the suction of water leaving pipes–which is a lot of water that we could put to better use. .
Samsung’s New York AI center will focus on robotics — from engadget.com by Saqib Shah NYU’s AI Now Institute is close-by and Samsung is keen for academic input. Excerpt: Samsung now has an artificial intelligence center in New York City — its third in North America and sixth in total — with an eye on robotics; a first for the company. It opened in Chelsea, Manhattan on Friday, walking distance from NYU (home to its own AI lab) boosting Samsung’s hopes for an academic collaboration. .
Business schools bridge the artificial intelligence skills gap — from swisscognitive.ch Excerpt:
Business schools such as Kellogg, Insead and MIT Sloan have introduced courses on AI over the past two years, but Smith is the first to offer a full programme where students delve deep into machine learning.
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“Technologists can tell you all about the technology but usually not what kind of business problems it can solve,” Carlsson says. With business leaders, he adds, it is the other way round — they have plenty of ideas about how to improve their company but little way of knowing what the new technology can achieve. “The foundational skills businesses need to hack the potential of AI is the understanding of what problems the tech is actually good at solving,” he says.
Actually, make that three new iPhones. Apple followed last year’s iPhone X with the iPhone Xs, iPhone Xs Max, and iPhone Xr. It also spent some time showing off the Apple Watch Series 4, its most powerful wearable yet. Missed the event? Catch our commentary on WIRED’s liveblog, or read on for everything you need to know about today’s big Apple event.
At a glance the three new iPhones unveiled next to Apple’s glassy circular headquarters Wednesday look much like last year’s iPhone X. Inside, the devices’ computational guts got an invisible but more significant upgrade.
Apple’s phones come with new chip technology with a focus on helping the devices understand the world around them using artificial intelligence algorithms. The company says the improvements allow the new devices to offer slicker camera effects and augmented reality experiences.
For the first time, non-Apple developers will be allowed to run their own algorithms on Apple’s AI-specific hardware.
The new Apple Watch Series 4, revealed by Apple earlier today, underscores that some of the watch’s most important features are its health and fitness-tracking functions. The new watch is one of the first over-the-counter devices in the US to offer electrocardiogram, or ECG, readings. On top of that, the Apple Watch has received FDA clearance—both for the ECG feature and another new feature that detects atrial fibrillation.
