Using interactive 3D models and lesson plans from its app, Lifeliqe (pronounced “life like”) is now delivering educational content on two major immersive hardware platforms (Microsoft HoloLens and HTC Vive) as well as software platforms (Windows and iOS).
Students and teachers at Renton Prep Christian School in Washington state and Castro Valley Unified College in California participated in the pilot and were the first ever to try out Lifeliqe’s educational content on HoloLens during a science lesson (see video).
“The excitement we witnessed during the pilot shows us the great potential mixed reality has in sparking lightbulb moments.”
Lifeliqe is thrilled to start piloting mixed reality educational scenarios for Microsoft HoloLens in grade 6-12 classrooms! The first two schools we are working with are Renton Prep in Seattle, WA and Castro Valley Unified College, CA. The students and teachers there were the first ever to try out Lifeliqe’s educational content on HoloLens during a Science lesson.
But what can AI do today? How close are we to that all-powerful machine intelligence? I wanted to know, but couldn’t find a list of AI’s achievements to date. So I decided to write one. What follows is an attempt at that list. It’s not comprehensive, but it contains links to some of the most impressive feats of machine intelligence around. Here’s what AI can do…
Recorded Saturday, February 25th, 2017 and published on Mar 16, 2017
Description:
Will progress in Artificial Intelligence provide humanity with a boost of unprecedented strength to realize a better future, or could it present a threat to the very basis of human civilization? The future of artificial intelligence is up for debate, and the Origins Project is bringing together a distinguished panel of experts, intellectuals and public figures to discuss who’s in control. Eric Horvitz, Jaan Tallinn, Kathleen Fisher and Subbarao Kambhampati join Origins Project director Lawrence Krauss.
Description:
Elon Musk, Stuart Russell, Ray Kurzweil, Demis Hassabis, Sam Harris, Nick Bostrom, David Chalmers, Bart Selman, and Jaan Tallinn discuss with Max Tegmark (moderator) what likely outcomes might be if we succeed in building human-level AGI, and also what we would like to happen. The Beneficial AI 2017 Conference: In our sequel to the 2015 Puerto Rico AI conference, we brought together an amazing group of AI researchers from academia and industry, and thought leaders in economics, law, ethics, and philosophy for five days dedicated to beneficial AI. We hosted a two-day workshop for our grant recipients and followed that with a 2.5-day conference, in which people from various AI-related fields hashed out opportunities and challenges related to the future of AI and steps we can take to ensure that the technology is beneficial.
(Below emphasis via DSC)
IBMandRicohhave partnered for a cognitive-enabled interactive whiteboard which uses IBM’s Watson intelligence and voice technologies to support voice commands, taking notes and actions and even translating into other languages.
The Intelligent Workplace Solution leverages IBM Watson and Ricoh’s interactive whiteboards to allow to access features via using voice. It makes sure that Watson doesn’t just listen, but is an active meeting participant, using real-time analytics to help guide discussions.
Features of the new cognitive-enabled whiteboard solution include:
Global voice control of meetings: Once a meeting begins, any employee, whether in-person or located remotely in another country, can easily control what’s on the screen, including advancing slides, all through simple voice commands using Watson’s Natural Language API.
Translation of the meeting into another language: The Intelligent Workplace Solution can translate speakers’ words into several other languages and display them on screen or in transcript.
Easy-to-join meetings:With the swipe of a badge the Intelligent Workplace Solution can log attendance and track key agenda items to ensure all key topics are discussed.
Ability to capture side discussions:During a meeting, team members can also hold side conversations that are displayed on the same whiteboard.
From DSC:
Holy smokes!
If you combine the technologies that Ricoh and IBM are using with their new cognitive-enabled interactive whiteboard with what Bluescape is doing — by providing 160 acres of digital workspace that’s used to foster collaboration (and to do so whether you are working remoting or working with others in the same physical space) — and you have one incredibly powerful platform!
The artificial intelligence (AI) market in the United States education sector is expected to grow at a compound annual growth rate of 47.5 percent during the period 2017-2021, according to a new report by market research firm Research and Markets.
Amazon.com Inc has launched a new program to help students build capabilities into its voice-controlled assistant Alexa, the company told Reuters, the latest move by a technology firm to nurture ideas and talent in artificial intelligence research.
…
Amazon, Alphabet Inc’s Google and others are locked in a race to develop and monetize artificial intelligence. Unlike some rivals, Amazon has made it easy for third-party developers to create skills for Alexa so it can get better faster – a tactic it now is extending to the classroom.
Alexa, Amazon’s brilliant voice-activated smart assistant, is a capable little companion. It can order a pizza, summon a car, dictate a text message, and flick on your downstairs living room’s smart bulb. But what it couldn’t do until today was tell you whether that throbbing lump on your forearm was something that required medical attention. Fortunately, that changed on Tuesday with the introduction of a WebMD skill that puts the service’s medical knowledge at your fingertips.
Addendum:
How artificial intelligence is taking Asia by storm— from techwireasia.com by Samantha Cheh Excerpt:
Lately it seems as if everyone is jumping onto the artificial intelligence bandwagon. Everyone, from ride-sharing service Uber to Amazon’s logistics branch, is banking on AI being the next frontier in technological innovation, and are investing heavily in the industry.
That’s likely truest in Asia, where the manufacturing engine which drove China’s growth is now turning its focus to plumbing the AI mine for gold.
Despite Asia’s relatively low overall investment in AI, the industry is set to grow. Fifty percent of respondents in KPMG’s AI report said their companies had plans to invest in AI or robotic technology.
Investment in AI is set to drive venture capital investment in China in 2017. Tak Lo, of Hong Kong’s Zeroth, notes there are more mentions of AI in Chinese research papers than there are in the US.
China, Korea and Japan collectively account for nearly half the planet’s shipments of articulated robots in the world.
A new startup that spun out of Oxford last year, OxSight, is looking to change that. The company built and is testing augmented reality glasses to help the visually impaired recognize and navigate objects in their environment. Think of it as a hearing aid for the blind.
OxSight is a potential replacement for canes and seeing-eye dogs. Those give you immediate localization of obstacles near you, but don’t give you a sense of awareness of the environment that you are in.
Most of the people who have tested the OxSight previously had some level of sight that has degraded over time. The product uses the sight they still have, whether it’s detection of light, movement or a small amount of shape, and amplifies it inside a pair of augmented reality glasses.
Augmented reality has a number of increasingly important applications in a variety of industries, from engineering to retail to interior design. One of the most exciting applications of AR, and the one that promises perhaps the most immediate impact on our lives, is in medicine, where AR can help educate, diagnose, and even treat disease in new and innovative ways.
Microsoft’s HoloLens AR solution is perhaps the most advanced today in terms of becoming a part of the real world, even while it’s not yet a retail option aimed at consumers. Global medical technology company Stryker, which is using HoloLens to redesign the operating room, provides a clear example of the potential of AR in this setting.
From DSC: Microsoft uses the term “mixed reality” when they are discussing their Hololens product:
Using HoloLens and Stryker’s new By Design solution, hospital stakeholders are now able to envision the ideal operating room configuration with the power of holograms and the benefit of mixed reality.
The authoritative CB Insights lists imminent Future Tech Trends: customized babies; personalized foods; robotic companions; 3D printed housing; solar roads; ephemeral retail; enhanced workers; lab-engineered luxury; botroots movements; microbe-made chemicals; neuro-prosthetics; instant expertise; AI ghosts. You can download the whole outstanding report here (125 pgs).
From DSC: Though I’m generally pro-technology, there are several items in here which support the need for all members of society to be informed and have some input into if and how these technologies should be used. Prime example: Customized babies. The report discusses the genetic modification of babies: “In the future, we will choose the traits for our babies.” Veeeeery slippery ground here.
CES 2017: Intel’s VR visions — from jwtintelligence.com by Shepherd Laughlin The company showed off advances in volumetric capture, VR live streaming, and “merged reality.”
Excerpt (emphasis DSC):
Live-streaming 360-degree video was another area of focus for Intel. Guests were able to watch a live basketball game being broadcast from Indianapolis, Indiana, choosing from multiple points of view as the action moved up and down the court.Intel “will be among the first technology providers to enable the live sports experience on multiple VR devices,” the company stated.
After taking a 3D scan of the room, Project Alloy can substitute virtual objects where physical objects stand.
From DSC: If viewers of a live basketball game can choose from multiple points of view, why can’t remote learners do this as well with a face-to-face classroom that’s taking place at a university or college? Learning from the Living [Class] Room.
Data visualization, guided work instructions, remote expert — for use in a variety of industries: medical, aviation and aerospace, architecture and AEC, lean manufacturing, engineering, and construction.
The company said that it is teaming up with the likes of Dell, HP, Lenovo and Acer, which will release headsets based on the HoloLens technology. “These new head-mounted displays will be the first consumer offerings utilizing the Mixed Reality capabilities of Windows 10 Creators Update,” a Microsoft spokesperson said. Microsoft’s partner companies for taking the HoloLens technology forward include Dell, HP, Lenovo, Acer, and 3 Glasses. Headsets by these manufacturers will work the same way as the original HoloLens but carry the design and branding of their respective companies. While the HoloLens developer edition costs a whopping $2999 (approximately Rs 2,00,000), the third-party headsets will be priced starting $299 (approximately Rs 20,000).
Verto Studio 3D App Makes 3D Modeling on HoloLens Easy— from winbuzzer.com by Luke Jones The upcoming Verto Studio 3D application allows users to create 3D models and interact with them when wearing HoloLens. It is the first software of its kind for mixed reality.
Excerpt: How is The Immersive Experience Delivered?
Tethered Headset VR – The user can participate in a VR experience by using a computer with a tethered VR headset (also known as a Head Mounted Display – HMD) like Facebook’s Oculus Rift, PlayStation VR, or the HTC Vive. The user has the ability to move freely and interact in the VR environment while using a handheld controller to emulate VR hands. But, the user has a limited area in which to move about because they are tethered to a computer.
Non-Tethered Headset VR/AR – These devices are headsets and computers built into one system, so users are free of any cables limiting their movement. These devices use AR to deliver a 360° immersive experience. Much like with Oculus Rift and Vive, the user would be able to move around in the AR environment as well as interact and manipulate objects. A great example of this headset is Microsoft’s HoloLens, which delivers an AR experience to the user through just a headset.
Mobile Device Inserted into a Headgear – To experience VR, the user inserts their mobile device into a Google Cardboard, Samsung Gear 360°, or any other type of mobile device headgear, along with headphones if they choose. This form of VR doesn’t require the user to be tethered to a computer and most VR experiences can be 360° photos, videos, and interactive scenarios.
Mobile VR – The user can access VR without any type of headgear simply by using a mobile device and headphones (optional). They can still have many of the same experiences that they would through Google Cardboard or any other type of mobile device headgear. Although they don’t get the full immersion that they would with headgear, they would still be able to experience VR. Currently, this version of the VR experience seems to be the most popular because it only requires a mobile device. Apps like Pokémon Go and Snapchat’s animated selfie lens only require a mobile device and have a huge number of users.
Desktop VR – Using just a desktop computer, the user can access 360° photos and videos, as well as other VR and AR experiences, by using the trackpad or computer mouse to move their field of view and become immersed in the VR scenario.
New VR – Non-mobile and non-headset platforms like Leap Motion use depth sensors to create a VR image of one’s hands on a desktop computer; they emulate hand gestures in real time. This technology could be used for anything from teaching assembly in a manufacturing plant to learning a step-by-step process to medical training.
Goggles that are worn, while they are “Oh Myyy” awesome, will not be the final destination of VR/AR. We will want to engage and respond, without wearing a large device over our eyes. Pokémon Go was a good early predictor of how non-goggled experiences will soar.
Education will go virtual
Similar to VR for brand engagement, we’ve seen major potential for delivering hands-on training and distance education in a virtual environment. If VR can take a class on a tour of Mars, the current trickle of educational VR could turn into a flood in 2017.
Published on Dec 26, 2016
Top 10 Virtual Reality Predictions For 2017 In vTime. Its been an amazing year for VR and AR. New VR and AR headsets, ground breaking content and lots more. 2017 promises to be amazing as well. Here’s our top 10 virtual reality predictions for the coming year. Filmed in vTime with vCast. Sorry about the audio quality. We used mics on Rift and Vive which are very good on other platforms. We’ve reported this to vTime.
Addendums
5 top Virtual Reality and Augmented Reality technology trends for 2017— from marxentlabs.com by Joe Bardi Excerpt:
So what’s in store for Virtual Reality and Augmented Reality in 2017? We asked Marxent’s talented team of computer vision experts, 3D artists and engineers to help us suss out what the year ahead will hold. Here are their predictions for the top Virtual Reality and Augmented Reality technology trends for 2017.
A hybrid of both AR & VR, Mixed Reality (MR) is far more advanced than Virtual Reality because it combines the use of several types of technologies including sensors, advanced optics and next gen computing power. All of this technology bundled into a single device will provide the user with the capability to overlay augmented holographic digital content into your real-time space, creating scenarios that are unbelievably realistic and mind-blowing.
How does it work?
Mixed Reality works by scanning your physical environment and creating a 3D map of your surroundings so the device will know exactly where and how to place digital content into that space – realistically – while allowing you to interact with it using gestures. Much different than Virtual Reality where the user is immersed in a totally different world, Mixed Reality experiences invite digital content into your real-time surroundings, allowing you to interact with them.
Mixed reality use cases mentioned in the article included:
In parallel with gaming, VR is expanding into many other areas, including these:
Healthcare Surgical Theater is working with UCLA, New York University, the Mayo Clinic and other major medical centers to use VR to help surgeons prepare for difficult operations. Virtual 3D models are constructed from MRIs, CAT scans and/or ultrasounds.
Mental health
Meditation promotes mental health by reducing stress and anxiety.
Education Unimersiv is focusing on historical sites, creating a series of VR tours for the Colosseum, Acropolis, Parthenon, Stonehenge, Titanic, etc. These tours allow each site to be explored as it existed when it was built. Additional locations’ virtual sites and attractions will undoubtedly be added in the near future. The British Museum offered a Virtual Reality Weekend in August 2015. Visitors were able to explore a Bronze Age roundhouse with a flickering fire and changing levels of light while they “handled” Bronze Age relics. The American Museum of Natural History allows students anywhere in the world to take virtual tours of selected museum exhibits, and other museums will soon follow.
Training
Virtual reality is an excellent tool when the task is dangerous or the equipment involved is expensive.
Crime reconstruction
Architecture
Collaboration Virtual reality, augmented reality and mixed reality will form the basis for the next set of collaboration tools.
However, we see very little experienced-based learning in all levels of education today. Traditional learning consists of little more than oration through lectures and textbooks (and their digital equivalents). Experience-based learning is often very difficult to facilitate in the classroom. Whether it be a field trip in elementary school, or simulation exercises in med school, it can be tedious, costly and time consuming.
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Where VR is really winning in education is in subject matter retention. The first of several surveys that we’ve done was based on a VR field trip through the circulatory system with high-school age children. We saw an increase of nearly 80% in subject matter retention from a group that used VR, compared against a control group that was provided the same subject matter via text and image. (I’ll expand on the details of this experiment, and some research initiatives we’re working on in another blog post).
The old phrase of ‘needing to see it to believe it’ is a powerful mantra across all aspects of residential design. Architecture, interior design and property development are all highly visual trades that require buy-in from both those working on the project and the client. As such, making sure everyone is sold on a coherent vision is vital to ensure that everything goes smoothly and no one is left dissatisfied when the project is completed.
It’s a way for educators to bring their students to places that would be out of reach otherwise. Google Expeditions, the VR mode of Google Street View and Nearpod’s virtual field trips are among the most popular experiences teachers explore with their students. “Some of our students have never really left the bubbles of their own town”, says Jaime Donally, creator of the #ARVRinEDU chat on Twitter. “Virtual reality is a relatively inexpensive way to show them the world.”
In the video below, a facilities manager is using a mobile device to scan a QR code on a wall, behind which is a critical piece of HVAC equipment. With one scan, we can view data on the asset’s performance and health, location data for the asset. This data is being pulled by the IoT Platform from the asset itself, TRIRIGA, and any other useful sources.
Excerpt:
But the best experiences, VR acolytes agree, are still yet to come. Resh Sidhu leads VR development for Framestore, the high-end visual effects house that won an Oscar for the movie Gravity, and has since expanded into creating VR content. With hardware finally delivering on its promise, she believes it is now up to creatives to explore the possibilities.
There’s so much more to VR than just gaming. Which is probably why HTC has been exploring entirely new ways to bring VR to art, education and culture — starting with museums around the world.
HTC recently collaborated with TIME-LIFE on “Remembering Pearl Harbor,” a VR experience commemorating the 75th anniversary of the attack with exhibitions at the Intrepid Sea, Air and Space Museum in New York City and the Newsuem in Washington D.C. Last month, Vive also collaborated with the Royal Academy of Arts in London on the world’s first 3-D printed VR art exhibit.
Now HTC Vive has revealed the launch of a new VR center at La Geode, part of Paris’ Science and Industry Museum, as well as a partnership with the Nobel Museum for a first-of-its-kind VR exhibit showcasing the contributions of Nobel laureates.
Some conference participants were concerned that this beleaguered region might grow. In fact, one attendee — an old friend who strategizes about technology for a big New York bank — commented that perhaps Wall Street would become “the new Rust Belt.” His concern was that automation of the finance industry would hollow out jobs in that field in the same way that robotics and other technologies have reduced manufacturing employment.
This is a sobering prospect, but there is plenty of evidence that it’s a real possibility. Key aspects of the finance industry have already been automated to a substantial degree. Jobs in the New York finance field have been declining for several years. According to data from research firm Coalition Ltd., more than 10,000 “front-office producer” jobs have been lost within the top 10 banks since 2011. Coalition also suggests that global fixed-income headcount has fallen 31% since 2011.
According to a new report, organizations are moving away from hierarchies, focusing on improving the employee experience, redesigning training, and reinventing the role of HR.
Business and HR leaders should rethink almost all of their management and HR practices as the proliferation of digital technologies transform the way organizations work, according to predictions for 2017 from Bersin by Deloitte, Deloitte Consulting LLP.
This year’s report includes 11 predictions about rapid technological, structural, and cultural changes that will reshape the world of work, including management, HR, and the markets for HR and workplace technology.
Artificial intelligence has a big year ahead — from cnet.com by Stepehn Shankland In 2017, AI won’t just be for the nerdy companies. Machine learning can help with mortgage applications and bridge safety, too.
Excerpt:
Get ready for AI to show up where you’d least expect it.
In 2016, tech companies like Google, Facebook, Apple and Microsoft launched dozens of products and services powered by artificial intelligence. Next year will be all about the rest of the business world embracing AI.
Artificial intelligence is a 60-year-old term, and its promise has long seemed like it was forever over the horizon. But new hardware, software, services and expertise means it’s finally real — even though companies will still need plenty of human brain power to get it working.
AI was one of the hottest trends in tech this year, and it’s only poised to get bigger. You’ve already brushed up against AI: It screens out spam, organizes your digital photos and transcribes your spoken text messages. In 2017, it will spread beyond digital doodads to mainstream businesses.
The design world has seen its own changes and updates as well. And as we know, change is the only constant. We’ve asked some of the top creatives to share what 2017 design trends they think will be headed our way.
SAN JOSE, Calif.–(BUSINESS WIRE)–The market has evolved from technologists looking to learn and understand new big data technologies to customers who want to learn about new projects, new companies and most importantly, how organizations are actually benefitting from the technology. According to John Schroeder, executive chairman and founder of MapR Technologies, Inc., the acceleration in big data deployments has shifted the focus to the value of the data. John has crystallized his view of market trends into these six major predictions for 2017…
2016 was a rich year for medical technology. Virtual Reality. Augmented Reality. Smart algorithms analysing wearable data. Amazing technologies arrived in our lives and on the market almost every day. And it will not stop in the coming year. The role of a futurist is certainly not making bold predictions about the future. No such big bet has taken humanity forward. Instead, our job is constantly analysing the trends shaping the future and trying to build bridges between them and what we have today. Still, people expect me to come up with predictions about medical technologies every year, and thus here they are.
Artificial intelligence (and machine/deep learning) is the hottest trend, eclipsing, but building on, the accumulated hype for the previous “new big thing,” big data. The new catalyst for the data explosion is the Internet of Things, bringing with it new cybersecurity vulnerabilities. The rapid fluctuations in the relative temperature of these trends also create new dislocations and opportunities in the tech job market.
The hottest segment of the hottest trend—artificial intelligence—is the market for chatbots. “The movement towards conversational interfaces will accelerate,” says Stuart Frankel, CEO, Narrative Science. “The recent, combined efforts of a number of innovative tech giants point to a coming year when interacting with technology through conversation becomes the norm. Are conversational interfaces really a big deal? They’re game-changing. Since the advent of computers, we have been forced to speak the language of computers in order to communicate with them and now we’re teaching them to communicate in our language.”
Google changed the world with its PageRank algorithm, creating a new kind of internet search engine that could instantly sift through the world’s online information and, in many cases, show us just what we wanted to see. But that was a long time ago. As the volume of online documents continues to increase, we need still newer ways of finding what we want.
That’s why Google is now running its search engine with help from machine learning, augmenting its predetermined search rules with deep neural networks that can learn to identify the best search results by analyzing vast amounts of existing search data. And it’s not just Google. Microsoft is pushing its Bing search engine in the same direction, and so are others beyond the biggest names in tech.
3 Forces Shaping Ed Tech in 2017— from campustechnology.com by Dian Schaffhauser
Ovum’s latest report examines the key trends that are expected to impact higher education in the new year.
Excerpts:
Institutions Will Support the Use of More Innovative Tech in Teaching and Learning
Schools Will Leverage Technology for Improving the Student Experience
The Next-Generation IT Strategy Will Focus More on IT Agility
We’ve seen a lot of exciting new innovations take place over the course of 2016. This year has introduced interesting new uses for virtual reality—like using VR to help burn victims in hospitals mentally escape from the pain during procedures—and even saw the world’s first revolutionary augmented reality game in the form of Pokémon Go. The iPhone 7 was also introduced, leaving millions of people uncertain of their feelings regarding Apple, while Samsung loyalists just prayed that their smartphones would stay in one piece.
Undoubtedly, there have been quite a few ups and downs in technology over the past year. With any luck, 2017 will provide us with even more new innovations and advancements in tech. But what exactly do we have to look forward to? TMC recently caught up with Jordan Edelson, CEO of Appetizer Mobile, to discuss his thoughts on 2016 and his predictions for what’s to come in the future. You can find the entire exchange below.
2016 is fast drawing to a close. And while many will be glad to see the back of it, for those of us who work and play with Virtual Reality, it has been a most exciting year. By the time the bells ring out signalling the start of a new year, the total number of VR users will exceed 43 million. This is a market on the move, projected to be worth $30bn by 2020. If it’s to meet that valuation, then we believe 2017 will be an incredibly important year in the lifecycle of VR hardware and software development. VR will be enjoyed by an increasingly mainstream audience very soon, and here we take a quick look at some of the trends we expect to develop over the next 12 months for that to happen.
Every December, we take a look back at big ideas from the past twelve months that promise to gain momentum in the new year. With more than eleven thousand projects launched between our Design and Tech categories in 2016, we have a nice sample to draw from. More importantly, we have a community of forward-thinking backers who help creators figure out which versions of the future to pursue. Here are some of the emerging trends we expect to see more of in 2017.
Everyday artificial intelligence
Whether chatting with a device as if it’s a virtual assistant strikes you as a sci-fi dream come true or a dystopian nightmare, we’re going to see an increasing number of products that use voice-controlled artificial intelligence interfaces to fit into users’ lives more seamlessly. Among the projects leading the way in this arena are Vi, wireless earphones that double as a personal trainer; Bonjour, an alarm clock that wakes you up with a personalized daily briefing; and Dashbot, a talking car accessory that recalls Kit, David Hasselhoff’s buddy from Knight Rider. One of the factors driving this talking AI boom is the emergence of platforms like Microsoft’s Cognitive Service, Amazon’s Alexa, and Google’s Speech API, which allow product developers to focus on user experience rather than low-level speech processing. For the DIY set, Seeed’s ReSpeaker offers a turnkey devkit for working with these services, and we’ll surely see more tools for integrating AI voice interfaces into all manner of products.
During Microsoft’s Build Conference earlier this year, CEO Satya Nadella delivered the three-hour keynote address, in which he highlighted his belief that the future of technology lies in human language. In this new wave of technology, conversation is the new interface, and “bots are the new apps.” While not as flashy as virtual reality nor as immediately practical as 3D printing, chatbots are nevertheless gaining major traction this year, with support coming from across the entire tech industry. The big tech enterprises are all entering the chatbot space, and many startups are too.
Out with the apps, in with the chatbots. The reason for the attention is simple: The power of the natural language processor, software that processes and parses human language, creating a simple and universal means of interacting with technology.
Developments in computing are driving the transformation of entire systems of production, management, and governance. In this interview Justine Cassell, Associate Dean, Technology, Strategy and Impact, at the School of Computer Science, Carnegie Mellon University, and co-chair of the Global Future Council on Computing, says we must ensure that these developments benefit all society, not just the wealthy or those participating in the “new economy”.
Artificial Intelligence (AI) is an important development and consumers globally will see it playing a much more prominent role — both in society and at work — next year, a new report said on Tuesday. Ericsson ConsumerLab, in its annual trend report titled “The 10 Hot Consumer Trends for 2017 and beyond”, said that 35 percent of advanced internet users want an AI advisor at work and one in four would like AI as their manager.At the same time, almost half of the respondents were concerned that AI robots will soon make a lot of people lose their jobs.
From driverless cars to robotic workers, the future is going to be here before you know it. Many emerging technologies you hear about today will reach a tipping point by 2025, according to a report from The World Economic Forum’s Global Agenda Council on the Future of Software & Society. The council surveyed more than 800 executives and experts from the technology sector to share their respective timelines for when technologies would become mainstream. From the survey results, the council identified 21 defining moments, all of which they predict will occur by 2030. Here’s a look at the technological shifts you can expect during the next 14 years.
… The first robotic pharmacist will arrive in the US 2021.
A new year is quickly approaching and Microsoft Research is offering a glimpse at what the tech scene has in store for 2017 along with some hints at the Redmond, Wash., tech giant’s own priorities for the coming year. This year, the company gathered prominent women researchers to share their thoughts on what to expect next year. Surprising nobody’s who’s been following Microsoft’s software and cloud computing strategy of late, the company is betting big on artificial intelligence (AI).
It’s still early days for the Internet of Things. As recently as 2014, 87 percent of consumers had never heard of the technology, according to Accenture. In 2016, and 19% of business and government professionals reported that they had never heard of the Internet of Things while 18% were only vaguely familiar with it, according to research from the Internet of Things Institute. Although the technology is getting the most traction in the industrial space, the most promising use cases for the technology are just starting to come to light. To get a sense of what to expect as we head into 2017, we spoke with Stanford lecturer and IoT author Timothy Chou, Ph.D.; Thulium.co CEO Tamara McCleary; industry observer and influencer Evan Kirstel; and Sandy Carter, CEO and founder of Silicon-Blitz.
15 tech trends in autonomous cars, artificial intelligence, and machine learning for 2017 — from venturebeat.com by John Brandon Tech is about to change dramatically next year. Want to stay up to date? These predictions from the famed design firm frog spell things out for you. In each section, a designer explains all of the details. Which one is already on your radar?
NeuroNet Learning (Gainesville, FL), a research-based early reading program designed to assist students with essential reading, handwriting skills and math;
TheTalkList (San Diego, CA), a language learning exchange platform;
Trovvit (Brooklyn, NY), a social digital portfolio tool; and
Versity U (Jeffersonville, IN), a nursing exam platform.
UK government is driving the artificial intelligence agenda, pinpointing it as a future technology driving the fourth revolution and billing its importance on par with the steam engine.
The report on Artificial Intelligence by the Government Office for Science follows the recent House of Commons Committee report on Robotics and AI, setting out the opportunities and implications for the future of decision making. In a report which spans government deployment, ethics and the labour market, Digital Minister Matt Hancock provided a foreword which pushed AI as a technology which would benefit the economy and UK citizens.
“Ethics often falls behind the technology,” says Voithofer of Ohio State. Personal data becomes more abstract when it’s combined with other datasets or reused for multiple purposes, he adds. Say a device collects and anonymizes data about a student’s emotional patterns. Later on that information might be combined with information about her test scores and could be reassociated with her. Some students might object to colleges making judgments about their academic performance from indirect measurements of their emotional states.
A world where DNA can be rewritten to fix deadly diseases has moved a step closer after scientists announced they had genetically-edited the cells of a human for the first time using a groundbreaking technique.
A man in China was injected with modified immune cells which had been engineered to fight his lung cancer. Larger trials are scheduled to take place next year in the US and Beijing, which scientists say could open up a new era of genetic medicine.
The technique used is called Crispr, which works like tiny molecular scissors snipping away genetic code and replacing it with new instructions to build better cells.
Can you be sexually assaulted in virtual reality? And can anything be done to prevent it? Those are a few of the most pressing ethical questions technologists, investors and we the public will face as VR grows.
The scope of Alphabet’s ambition for the Google brand is clear: It wants Google’s information organizing brain to be embedded right at the domestic center — i.e. where it’s all but impossible for consumers not to feed it with a steady stream of highly personal data. (Sure, there’s a mute button on the Google Home, but the fact you have to push a button to shut off the ear speaks volumes… )
In other words, your daily business is Google’s business.
“We’re moving from a mobile-first world to an AI-first world,” said CEO Sundar Pichai…
But what’s really not OK, Google is the seismic privacy trade-offs involved here. And the way in which Alphabet works to skate over the surface of these concerns.
What he does not say is far more interesting, i.e. that in order to offer its promise of “custom convenience” — with predictions about restaurants you might like to eat at, say, or suggestions for how bad the traffic might be on your commute to work — it is continuously harvesting and data-mining your personal information, preferences, predilections, peccadilloes, prejudices… and so on and on and on. AI never stops needing data. Not where fickle humans are concerned.
Welcome to a world without work— from by Ryan Avent Automation and globalisation are combining to generate a world with a surfeit of labour and too little work
Excerpt:
A new age is dawning. Whether it is a wonderful one or a terrible one remains to be seen. Look around and the signs of dizzying technological progress are difficult to miss. Driverless cars and drones, not long ago the stuff of science fiction, are now oddities that can occasionally be spotted in the wild and which will soon be a commonplace in cities around the world.
From DSC: I don’t see a world without work being good for us in the least. I think we humans need to feel that we are contributing to something. We need a purpose for living out our days here on Earth (even thoughthey are but a vapor). We need vision…goals to works towards as we seek to use the gifts, abilities, passions, and interests that the LORD gave to us. The author of the above article would also add that work:
Is a source of personal identity
It helps give structure to our days and our lives
It offers the possibility of personal fulfillment that comes from being of use to others
Is a critical part of the glue that holds society together and smooths its operation
Over the last generation, work has become ever less effective at performing these roles. That, in turn, has placed pressure on government services and budgets, contributing to a more poisonous and less generous politics. Meanwhile, the march of technological progress continues, adding to the strain.
Immune Engineering
Genetically engineered immune cells are saving the lives of cancer patients. That may be just the start.
Precise Gene Editing in Plants
CRISPR offers an easy, exact way to alter genes to create traits such as disease resistance and drought tolerance.
Conversational Interfaces
Powerful speech technology from China’s leading Internet company makes it much easier to use a smartphone.
Reusable Rockets
Rockets typically are destroyed on their maiden voyage. But now they can make an upright landing and be refueled for another trip, setting the stage for a new era in spaceflight.
Robots That Teach Each Other
What if robots could figure out more things on their own and share that knowledge among themselves?
DNA App Store
An online store for information about your genes will make it cheap and easy to learn more about your health risks and predispositions.
SolarCity’s Gigafactory
A $750 million solar facility in Buffalo will produce a gigawatt of high-efficiency solar panels per year and make the technology far more attractive to homeowners.
Slack
A service built for the era of mobile phones and short text messages is changing the workplace.
Tesla Autopilot
The electric-vehicle maker sent its cars a software update that suddenly made autonomous driving a reality.
Power from the Air
Internet devices powered by Wi-Fi and other telecommunications signals will make small computers and sensors more pervasive
We live in an age of transformative scientific powers, capable of changing the very nature of the human species and radically remaking the planet itself.
Advances in information technologies and artificial intelligence are combining with advances in the biological sciences; including genetics, reproductive technologies, neuroscience, synthetic biology; as well as advances in the physical sciences to create breathtaking synergies — now recognized as the Fourth Industrial Revolution.
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Since these technologies will ultimately decide so much of our future, it is deeply irresponsible not to consider together whether and how to deploy them. Thankfully there is growing global recognition of the need for governance.
This then leads to the ethical implications of using robots. Embracing a number of areas of research, robot ethics considers whether the use of a device within a particular field is acceptable and also whether the device itself is behaving ethically. When it comes to robot babies there are already a number of issues that are apparent. Should “parents” be allowed to choose the features of their robot, for example? How might parents be counseled when returning their robot baby? And will that baby be used again in the same form?
China’s policing robot: Cattle prod meets supercomputer— from computerworld.com by Patrick Thibodeau China’s fastest supercomputers have some clear goals, namely development of its artificial intelligence, robotics industries and military capability, says the U.S.
Late last month, popular websites like Twitter, Pinterest, Reddit and PayPal went down for most of a day. The distributed denial-of-service attack that caused the outages, and the vulnerabilities that made the attack possible, was as much a failure of market and policy as it was of technology. If we want to secure our increasingly computerized and connected world, we need more government involvement in the security of the “Internet of Things” and increased regulation of what are now critical and life-threatening technologies. It’s no longer a question of if, it’s a question of when.
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An additional market failure illustrated by the Dyn attack is that neither the seller nor the buyer of those devices cares about fixing the vulnerability. The owners of those devices don’t care. They wanted a webcam — or thermostat, or refrigerator — with nice features at a good price. Even after they were recruited into this botnet, they still work fine — you can’t even tell they were used in the attack. The sellers of those devices don’t care: They’ve already moved on to selling newer and better models. There is no market solution because the insecurity primarily affects other people. It’s a form of invisible pollution.
