So, among other factors currently influencing change, those are the predominate ones. I’ll sum it up this way: The tried-and-true residential model has worked so far, but a number of factors are forcing transformation: emerging technologies, new expectations about when learning will occur in a student’s lifespan, and the introduction of a whole new population of students that had never been imagined before.
… Grush: What are your latest efforts or experiments in new professional education offerings that you see as part of this transformation? When did you make a start and what impacts do you see so far? Finholt: The biggest transformation for us to date has been our entry into the MOOC space. That movement began with a few small trials, but it’s now rapidly expanding and may include, ultimately, full degree offerings. I would describe our period of experimentation with MOOCs to have started in 2013, gaining especially significant momentum in the past two years. Over the next couple of years, our efforts will expand even more dramatically, if we elect to offer fully online degrees. As a measure of the magnitude of impact of MOOCs so far, one of our MOOC specializations in the Python programming language is among the most popular offerings on Coursera — I believe that it has reached more than a million learners at this point. A significant fraction of those learners have opted to sit for an exam to get a certificate in Python programming.
One is, as announced at the March 6th Coursera meeting, that we have joined in a partnership with Coursera and the University of Michigan’s Office of Academic Innovation to design and get approved, a brand-new online master’s degree in Applied Data Science.
From DSC: Mary and Thomas’ solid article reminds me of a graphic I put together a while back:
“The process of obtaining postgraduate credentials is becoming something that one works on over the entire span of one’s career… Working professionals will have an array of punctuated intervals, if you will — periods of time when they work intensively to update their credentials.” (source)
The jobs that once kept the city prosperous arebeing replacedby skilled jobs in service sectors such as health care, finance and information technology — positions that require more education than just a high-school diploma, thus squeezing out many of those blue-collar, traditionally middle-class workers.
As emerging technologies rapidly and thoroughly transform the workplace, some experts predict that by 2030 400 million to 800 million peopleworldwide could be displaced and need to find new jobs. The ability to adapt and quickly acquire new skills will become a necessity for survival.
“We’re preparing kids for these jobs of tomorrow, but we really don’t even know what they are,” said Amy McLeod, the school’s director of curriculum, instruction and assessment. “It’s almost like we’re doing this with blinders on. … We’re doing all we can to give them the finite skills, the computer languages, the programming, but technology is expanding so rapidly, we almost can’t keep up.”
For students like Amber, who would rather do just about anything but go to school, the Pathways program serves another function: It makes learning engaging, maybe even fun, and possibly keeps her in school and on track to graduate.
“I think we’re turning kids off to learning in this country by putting them in rows and giving them multiple-choice tests — the compliance model,” McLeod said. “But my hope is that in the pathways courses, we’re teaching them to love learning. And they’re learning about options in the field — there’s plenty of options for kids to try here.”
AR is here to influence how businesses are going to promote their products/services and also how they optimize for search rankings. It is important to note, AR will impact Search Engine Optimization.
… Local SEO Becomes More Critical
Augmented reality makes it possible for users to scan their mobile devices and get information on the businesses in their area. The data includes everything from images to ratings to reviews. AR apps have the capability to provide users with location-specific offers and deals – all in a theatrical AR format.
Apps like Yelp and Wikitude are already providing geo-location based AR experiences.
So, if you were to scan a location with your camera, you would be able to see the details of that business along with its latest reviews, ratings, and offers. This will simplify the experience for those searching from a specific geo-location. You must, therefore, ensure and maintain the quality and freshness of your local listings.
Here are some key aspects that you must take care of…
A new JPEG format for virtual reality, drones and self-driving cars — from actu.epfl.ch The Joint Photographic Experts Group (JPEG), an international committee headed by an EPFL professor, has just unveiled JPEG XS. With this new format, the image-compression process uses less energy, and higher-quality images can be sent with low latency over broadband networks like 5G. JPEG XS will have applications in areas such as virtual reality, augmented reality, space imagery, self-driving cars and professional movie editing.
Excerpt:
Why do virtual reality headsets make users nauseous? One reason is latency, or the almost imperceptible amount of time it takes for a display image to change in response to a user’s head movement. However, the Joint Photographic Experts Group (JPEG) has just introduced a new image compression standard that could resolve this problem. This working group is headed by Touradj Ebrahimi, a professor in EPFL’s School of Engineering (STI).
With JPEG XS, images and videos maintain an extremely high level of quality thanks to a compression process that is simpler and faster – and thus more energy efficient. The compressed files end up being larger, but that’s not a problem thanks to broadband networks such as Wi-Fi and 5G: the aim is to stream the files instead of storing them in smartphones or other devices with limited memory.
This means that you could use your smartphone, tablet or computer to project a high-definition movie or a video game onto a large-screen display almost instantaneously. No cables would be required, and the image quality would be extremely high.
Best known for its eponymous and ubiquitous photo standard, the Joint Photographic Experts Group (JPEG) has announced JPEG XS, a new video compression standard designed to stream lossless videos, VR content, and games over wireless networks. Intriguingly, JPEG XS is said to work on current computers with only software updates, while smaller devices will require “next generation” hardware.
Unlike rival video standards, JPEG XS doesn’t attempt maximum compression by using extra processing power or time. It instead presumes that the device will be used on a high-bandwidth 5G cellular or Wi-Fi network and focuses on delivering ultra low latency and superior energy efficiency.
Augmented Reality is an exciting new way to develop games and apps that support the use of 3d objects in real world space. If you’ve ever played Pokemon Go then you’re familiar with what Augmented Reality (AR) is. Other popular apps have been sprouting up to take use of AR capabilities for more practical purposes such as Ikea’s catalog, pick your furniture and see how it looks in your place. Regardless of how you use AR for development there are three main resources we can use to develop for various AR capable hardware.
As you know, online education is rapidly expanding. At BestColleges.com we believe it’s important to evaluate the latest trends in distance education and measure the impact to both students and academic institutions. This is an industry that evolves quickly and these results offer relevant, current insights we are excited to learn from and share with the online learning community.
To keep up with these trends, we surveyed 1,800 online students and university administrators and published two reports based on our findings:
2018 Online Education Trends Report – Synthesizing all of the data we gathered in our study, this academic report provides a holistic look at the current state of online education and offers predictions for where it’s headed.
The Student’s Guide to Online Education – Most students we spoke with wished they’d known more about online education and how to choose a quality online program prior to enrolling. We built this guide as a launching point for prospective students to gain that knowledge and make informed decisions on their education.
In an effort to develop a broader understanding of how common perceptions of online education are changing, we added several questions for both students and school administrators to the study this year. A majority of students (79%) felt that online learning is either “better than” or “equal to” on-campus learning. They felt their employers (61%), future employers (61%), and the general public (58%) also had a similarly positive perception of online learning.
From DSC: It is highly likely that in the very near future, the question won’t even be asked anymore what employers think of online-based learning and whether they will hire someone that’s taken a significant portion of their coursework online. They won’t have a choice. This is especially true if and when more advanced technologies and capabilities get further baked into online-based learning — i.e., truly personalized/customized learning (which most faculty members — including myself — and teachers can’t deliver), virtual reality, artificial intelligence, chatbots, personal digital assistants, Natural Language Processing (NLP), and more.
The better question could become:
To what extent will campus-based learning be impacted when truly personalized/customized learning is offered via online-based means?
My guess? There will continue to be a significant amount of people who want to learn in a physical campus-based setting — and that’s great! But the growth of online learning will grow even more (a lot more) if truly personalized learning occurs via online-based means.
99% of administrators found that demand for online education has increased or stayed the same over the past few years. Almost 40% of respondents plan to increase their online program budgets in the next year.
This year, 34% of schools reported that their online students are younger than in previous years, falling into the “traditional” college age range of 18-25, and even younger as high school students take college courses before graduating. Several schools noted that recent high school graduates are entering the workforce while also pursuing a college education.
The technology, media and entertainment, and telecommunications ecosystem remains as fascinating as ever in 2018. Will augmented reality become mainstream? How will machine learning affect the enterprise? What’s the future of the smartphone? Deloitte Global invites you to read the latest Predictions report, designed to provide insight into transformation and growth opportunities over the next one to five years.
*Only* 14 percent of the world has to worry about robots taking their jobs. Yay? The Organization for Economic Cooperation and Development (OECD) has released a major report analyzing the impact of automation on jobs in 32 countries.
Clashing views: In 2016, the OECD said only 9 percent of US and worldwide jobs face a “high degree of automobility.” That was a contradiction of one of the most widely cited reports on jobs and automation, by Oxford researchers Carl Frey and Michael Osborne, who in 2013 said that 47 percent of US jobs were at high risk of being consumed by automation.
What’s new: The OECD’s latest report says that across the countries analyzed, 14 percent of jobs are highly automatable, meaning they have over a 70 percent likelihood of automation. In the US, the study concludes that 10 percent of jobs will likely be lost to automation. An additional 32 percent of global jobs will be transformed and require significant worker retraining.
The big “but”: As the gap between the OECD report and Frey and Osborne’s estimates illustrate, predictions like these aren’t known for their accuracy. In fact, when we compiled all of the studies we could on the subject, we found there are about as many predictions as there are experts.
Here are the study’s key findings. Across the 32 countries, close to one in two jobs are likely to be significantly affected by automation, based on the tasks they involve. But the degree of risk varies.
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The variance in automatability across countries is large: 33% of all jobs in Slovakia are highly automatable, while this is only the case with 6% of the jobs in Norway.
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The cross-country variation in automatability, contrary to expectations, is better explained by the differences in the organisation of job tasks within economic sectors, than by the differences in the sectoral structure of economies.
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There are upside and downside risks to the figures obtained in this paper. On the upside, it is important to keep in mind that these estimates refer to technological possibilities, abstracting from the speed of diffusion and likelihood of adoption of such technologies….But there are risks on the downside too. First, the estimates are based on the fact that, given the current state of knowledge, tasks related to social intelligence, cognitive intelligence and perception and manipulation cannot be automated. However, progress is being made very rapidly, particularly in the latter two categories.
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Most importantly, the risk of automation is not distributed equally among workers. Automation is found to mainly affect jobs in the manufacturing industry and agriculture, although a number of service sectors, such as postal and courier services, land transport and food services are also found to be highly automatable.
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Overall, despite recurrent arguments that automation may start to adversely affect selected highly skilled occupations, this prediction is not supported by the Frey and Osborne (2013) framework of engineering bottlenecks used in this study. If anything, Artificial Intelligence puts more low-skilled jobs at risk than previous waves of technological progress…
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A striking novel finding is that the risk of automation is the highest among teenage jobs. The relationship between automation and age is U-shaped, but the peak in automatability among youth jobs is far more pronounced than the peak among senior workers.
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This unequal distribution of the risk of automation raises the stakes involved in policies to prepare workers for the new job requirements. In this context, adult learning is a crucial policy instrument for the re-training and up-skilling of workers whose jobs are being affected by technology. Unfortunately, evidence from this study suggests that a lot needs to be done to facilitate participation by the groups most affected by automation.
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An analysis of German data suggests that training is used to move to jobs at lower risk of automation.
Spigner is one of a rapidly growing number of college students seeking mental health treatment on campuses facing an unprecedented demand for counseling services. Between 2009 and 2015, the number of students visiting counseling centers increased by about 30% on average, while enrollment grew by less than 6%, the Center for Collegiate Mental Health found in a 2015 report. Students seeking help are increasingly likely to have attempted suicide or engaged in self-harm, the center found. In spring 2017, nearly 40% of college students said they had felt so depressed in the prior year that it was difficult for them to function, and 61% of students said they had “felt overwhelming anxiety” in the same time period, according to an American College Health Association survey of more than 63,000 students at 92 schools.)
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But most counseling centers are working with limited resources. The average university has one professional counselor for every 1,737 students — fewer than the minimum of one therapist for every 1,000 to 1,500 students recommended by the International Association of Counseling Services. Some counselors say they are experiencing “battle fatigue” and are overwhelmed by the increase in students asking for help. “It’s a very different job than it was 10 years ago,” says Lisa Adams Somerlot, president of the American College Counseling Association and director of counseling at the University of West Georgia.
As colleges try to meet the growing demand, some students are slipping through the cracks due to long waits for treatment and a lasting stigma associated with mental health issues. Even if students ask for and receive help, not all cases can be treated on campus. Many private-sector treatment programs are stepping in to fill that gap, at least for families who can afford steep fees that may rise above $10,000 and may not be covered by health insurance. But especially in rural areas, where options for off-campus care are limited, universities are feeling pressure to do more.
SXSW 2018: Key trends — from jwtintelligence.com by Marie Stafford w/ contributions by Sarah Holbrook
Excerpt:
Ethics & the Big Tech Backlash What a difference a week makes. As the Cambridge Analytica scandal broke last weekend, the curtain was already coming down on SXSW. Even without this latest bombshell, the discussion around ethics in technology was animated, with more than 10 panels devoted to the theme. From misinformation to surveillance, from algorithmic bias to the perils of artificial intelligence (hi Elon!) speakers grappled with the weighty issue of how to ensure technology works for the good of humanity.
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The Human Connection
When technology provokes this much concern, it’s perhaps natural that people should seek respite in human qualities like empathy, understanding and emotional connection.
In a standout keynote, couples therapist Esther Perel gently berated the SXSW audience for neglecting to focus on human relationships. “The quality of your relationships,” she said, “is what determines the quality of your life.
2018 TECH TRENDS REPORT— from the Future Today Institute Emerging technology trends that will influence business, government, education, media and society in the coming year.
Description:
The Future Today Institute’s 11th annual Tech Trends Report identifies 235 tantalizing advancements in emerging technologies—artificial intelligence, biotech, autonomous robots, green energy and space travel—that will begin to enter the mainstream and fundamentally disrupt business, geopolitics and everyday life around the world. Our annual report has garnered more than six million cumulative views, and this edition is our largest to date.
Helping organizations see change early and calculate the impact of new trends is why we publish our annual Emerging Tech Trends Report, which focuses on mid- to late-stage emerging technologies that are on a growth trajectory.
a calendar of events that will shape technology this year
detailed near-future scenarios for several of the technologies
a new framework to help organizations decide when to take action on trends
an interactive table of contents, which will allow you to more easily navigate the report from the bookmarks bar in your PDF reader
01 How does this trend impact our industry and all of its parts?
02 How might global events — politics, climate change, economic shifts – impact this trend, and as a result, our organization?
03 What are the second, third, fourth, and fifth-order implications of this trend as it evolves, both in our organization and our industry?
04 What are the consequences if our organization fails to take action on this trend?
05 Does this trend signal emerging disruption to our traditional business practices and cherished beliefs?
06 Does this trend indicate a future disruption to the established roles and responsibilities within our organization? If so, how do we reverse-engineer that disruption and deal with it in the present day?
07 How are the organizations in adjacent spaces addressing this trend? What can we learn from their failures and best practices?
08 How will the wants, needs and expectations of our consumers/ constituents change as a result of this trend?
09 Where does this trend create potential new partners or collaborators for us?
10 How does this trend inspire us to think about the future of our organization?
China is rife with face-scanning technology worthy of Black Mirror. Don’t even think about jaywalking in Jinan, the capital of Shandong province. Last year, traffic-management authorities there started using facial recognition to crack down. When a camera mounted above one of 50 of the city’s busiest intersections detects a jaywalker, it snaps several photos and records a video of the violation. The photos appear on an overhead screen so the offender can see that he or she has been busted, then are cross-checked with the images in a regional police database. Within 20 minutes, snippets of the perp’s ID number and home address are displayed on the crosswalk screen. The offender can choose among three options: a 20-yuan fine (about $3), a half-hour course in traffic rules, or 20 minutes spent assisting police in controlling traffic. Police have also been known to post names and photos of jaywalkers on social media.
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The technology’s veneer of convenience conceals a dark truth: Quietly and very rapidly, facial recognition has enabled China to become the world’s most advanced surveillance state. A hugely ambitious new government program called the “social credit system” aims to compile unprecedented data sets, including everything from bank-account numbers to court records to internet-search histories, for all Chinese citizens. Based on this information, each person could be assigned a numerical score, to which points might be added for good behavior like winning a community award, and deducted for bad actions like failure to pay a traffic fine. The goal of the program, as stated in government documents, is to “allow the trustworthy to roam everywhere under heaven while making it hard for the discredited to take a single step.”
As we watch major tech platforms evolve over time, it’s clear that companies like Facebook, Apple, Google and Amazon (among others) have created businesses that are having a huge impact on humanity — sometimes positive and other times not so much.
That suggests that these platforms have to understand how people are using them and when they are trying to manipulate them or use them for nefarious purposes — or the companies themselves are. We can apply that same responsibility filter to individual technologies like artificial intelligence and indeed any advanced technologies and the impact they could possibly have on society over time.
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We can be sure that Twitter’s creators never imagined a world where bots would be launched to influence an election when they created the company more than a decade ago. Over time though, it becomes crystal clear that Twitter, and indeed all large platforms, can be used for a variety of motivations, and the platforms have to react when they think there are certain parties who are using their networks to manipulate parts of the populace.
But it’s up to the companies who are developing the tech to recognize the responsibility that comes with great economic success or simply the impact of whatever they are creating could have on society.
5% picked tech when asked which industry had the most power and influence, well behind the U.S. government, Wall Street and Hollywood.
Respondents were much more likely to say sexual harassment was a major issue in Hollywood (49%) and government (35%) than in Silicon Valley (17%).
It is difficult for Americans to escape the technology industry’s influence in everyday life. Facebook Inc. reports that more than 184 million people in the United States log on to the social network daily, or roughly 56 percent of the population. According to the Pew Research Center, nearly three-quarters (73 percent) of all Americans and 94 percent of Americans ages 18-24 use YouTube. Amazon.com Inc.’s market value is now nearly three times that of Walmart Inc.
But when asked which geographic center holds the most power and influence in America, respondents in a recent Morning Consult survey ranked the tech industry in Silicon Valley far behind politics and government in Washington, finance on Wall Street and the entertainment industry in Hollywood.
AT&T initiated a massive retraining effort after discovering that nearly half of its 250,000 employees lacked the necessary skills needed to keep the company competitive.
Ninety percent of maturing companies expect digital disruption, but only 44 percent are adequately preparing for it.
Despite the federal government’s investment in job-retraining efforts, most are deemed ineffective.
The discovery presented AT&T with two daunting options, explains Bill Blase, senior executive vice president of human resources. “We could go out and try to hire all these software and engineering people and probably pay through the nose to get them, but even that wouldn’t have been adequate,” he explains. “Or we could try to reskill our existing workforce so they could be competent in the technology and the skills required to run the business going forward.”
In a world where technology advances are measured in months, not years, companies selling everything from computers and cellphones to cereal and sneakers are trying desperately to adapt.A recent research report by the Society for Human Resource Management states that nearly 40 percent of hiring managers cite lack of technical skills among the reasons why they can’t fill job openings.
And the message isn’t lost on workers, either. A 2016 Pew Research Center survey shows that more than half of the adults in the workforce today realize that it will be essential for them to get training and develop new skills throughout their career in order to keep up with changes in the workplace.
In fact, according to Willis Towers Watson, 90 percent of maturing companies expect digital disruption, but only 44 percent are adequately preparing for it — and getting the right people to get the work done remains a challenge for most.
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AT&T’s massive global retraining program — the company prefers to call it “reskilling” — is perhaps corporate America’s boldest response to this war for talent. Known inside the company as Future Ready, the initiative is a $1 billion web-based, multiyear effort that includes online courses; collaborations with Coursera, Udacity and leading universities; and a career center that allows employees to identify and train for the kinds of jobs the company needs today and down the road. An online portal called Career Intelligence lets workers see what jobs are available, the skills required for each, the potential salary range and whether that particular area is projected to grow or shrink in the years ahead. In short, it gives them a roadmap to get from where they are today to where the company needs them to be in the future.
From DSC: This article is encouraging in at least a couple of ways to me:
A large company is choosing to retrain its employees, helping them to learn and grow — to reinvent themselves and to stay relevant
A large company is recognizing the exponential pace of change that we’re now on. The question is, are we ready for it?
How to Set Up a VR Pilot — from campustechnology.com by Dian Schaffhauser As Washington & Lee University has found, there is no best approach for introducing virtual reality into your classrooms — just stages of faculty commitment.
Excerpt:
The work at the IQ Center offers a model for how other institutions might want to approach their own VR experimentation. The secret to success, suggested IQ Center Coordinator David Pfaff, “is to not be afraid to develop your own stuff” — in other words, diving right in. But first, there’s dipping a toe.
The IQ Center is a collaborative workspace housed in the science building but providing services to “departments all over campus,” said Pfaff. The facilities include three labs: one loaded with high-performance workstations, another decked out for 3D visualization and a third packed with physical/mechanical equipment, including 3D printers, a laser cutter and a motion-capture system.
Here, I would like to stick to the challenges and opportunities presented by augmented reality and virtual reality for language learning.
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While the challenge is a significant one, I am more optimistic than most that wearable AR will be available and popular soon. We don’t yet know how Snap Spectacles will evolve, and, of course, there’s always Apple.
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I suspect we will see a flurry of new VR apps from language learning startups soon, especially from Duolingo and in combination with their AI chat bots. I am curious if users will quickly abandon the isolating experiences or become dedicated users.
Bose has a plan to make AR glasses— from cnet.com by David Carnoy Best known for its speakers and headphones, the company has created a $50 million development fund to back a new AR platform that’s all about audio.
Excerpts:
“Unlike other augmented reality products and platforms, Bose AR doesn’t change what you see, but knows what you’re looking at — without an integrated lens or phone camera,” Bose said. “And rather than superimposing visual objects on the real world, Bose AR adds an audible layer of information and experiences, making every day better, easier, more meaningful, and more productive.”
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The secret sauce seems to be the tiny, “wafer-thin” acoustics package developed for the platform. Bose said it represents the future of mobile micro-sound and features “jaw-dropping power and clarity.”
Bose adds the technology can “be built into headphones, eyewear, helmets and more and it allows simple head gestures, voice, or a tap on the wearable to control content.”
Here are some examples Bose gave for how it might be used:
For travel, the Bose AR could simulate historic events at landmarks as you view them — “so voices and horses are heard charging in from your left, then passing right in front of you before riding off in the direction of their original route, fading as they go.” You could hear a statue make a famous speech when you approach it. Or get told which way to turn towards your departure gate while checking in at the airport.
Bose AR could translate a sign you’re reading. Or tell you the word or phrase for what you’re looking at in any language. Or explain the story behind the painting you’ve just approached.
With gesture controls, you could choose or change your music with simple head nods indicating yes, no, or next (Bragi headphones already do this).
Bose AR would add useful information based on where you look. Like the forecast when you look up or information about restaurants on the street you look down.
On the heels of last week’s rollout on Android, Google’s new AI-powered technology, Google Lens, is now arriving on iOS. The feature is available within the Google Photos iOS application, where it can do things like identify objects, buildings, and landmarks, and tell you more information about them, including helpful details like their phone number, address, or open hours. It can also identify things like books, paintings in museums, plants, and animals. In the case of some objects, it can also take actions.
For example, you can add an event to your calendar from a photo of a flyer or event billboard, or you can snap a photo of a business card to store the person’s phone number or address to your Contacts.
The eventual goal is to allow smartphone cameras to understand what it is they’re seeing across any type of photo, then helping you take action on that information, if need be – whether that’s calling a business, saving contact information, or just learning about the world on the other side of the camera.
The Space Satellite Revolution Could Turn Earth into a Surveillance Nightmare — from scout.ai by Becky Ferreira Laser communication between satellites is revolutionizing our ability to track climate change, manage resources, and respond to natural disasters. But there are downsides to putting Earth under a giant microscope.
Excerpts:
And while universal broadband has the potential to open up business and education opportunities to hundreds of thousands of people, it’s the real-time satellite feeds of earth that may have both the most immediate and widespread financial upsides — and the most frightening surveillance implications — for the average person here on earth.
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Among the industries most likely to benefit from laser communications between these satellites are agriculture and forestry.
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Satellite data can also be used to engage the public in humanitarian efforts. In the wake of Typhoon Haiyan, DigitalGlobe launched online crowdsourcing campaigns to map damage and help NGOs respond on the ground. And they’ve been identifying vulnerable communities in South Sudan as the nation suffers through unrest and famine.
In an age of intensifying natural disasters, combining these tactics with live satellite video feeds could mean the difference between life and death for thousands of people.
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Should a company, for example, be able to use real-time video feeds to track your physical location, perhaps in order to better target advertising? Should they be able to use facial recognition and sentiment analysis algorithms to assess your reactions to those ads in real time?
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While these commercially available images aren’t yet sharp enough to pick up intimate details like faces or phone screens, it’s foreseeable that regulations will be eased to accommodate even sharper images. That trend will continue to prompt privacy concerns, especially if a switch to laser-based satellite communication enables near real-time coverage at high resolutions.
A kaleidoscopic swirl of possible futures confronts us, filled with scenarios where law enforcement officials could rewind satellite footage to identify people at a crime scene, or on a more familial level, parents could remotely watch their kids — or keep tabs on each other — from space. In that world, it’s not hard to imagine privacy becoming even more of a commodity, with wealthy enclaves lobbying to be erased from visual satellite feeds, in a geospatial version of “gated communities.”
From DSC: The pros and cons of technologies…hmmm…this article nicely captures the pluses and minuses that societies around the globe need to be aware of, struggle with, and discuss with each other. Some exciting things here, but some disturbing things here as well.
