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The EU is launching a market for personal data. Here’s what that means for privacy.

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The European Union has long been a trendsetter in privacy regulation. Its General Data Protection Regulation (GDPR) and stringent antitrust laws have inspired new legislation around the world. For decades, the EU has codified protections on personal data and fought against what it viewed as commercial exploitation of private information, proudly positioning its regulations in contrast to the light-touch privacy policies in the United States.

The new European data governance strategy (pdf) takes a fundamentally different approach. With it, the EU will become an active player in facilitating the use and monetization of its citizens’ personal data. Unveiled by the European Commission in February 2020, the strategy outlines policy measures and investments to be rolled out in the next five years.

This new strategy represents a radical shift in the EU’s focus, from protecting individual privacy to promoting data sharing as a civic duty. Specifically, it will create a pan-European market for personal data through a mechanism called a data trust. A data trust is a steward that manages people’s data on their behalf and has fiduciary duties toward its clients.

The EU’s new plan considers personal data to be a key asset for Europe. However, this approach raises some questions. First, the EU’s intent to profit from the personal data it collects puts European governments in a weak position to regulate the industry. Second, the improper use of data trusts can actually deprive citizens of their rights to their own data.

The Trusts Project, the first initiative put forth by the new EU policies, will be implemented by 2022. With a €7 million budget, it will set up a pan-European pool of personal and nonpersonal information that should become a one-stop shop for businesses and governments looking to access citizens’ information.

Global technology companies will not be allowed to store or move Europeans’ data. Instead, they will be required to access it via the trusts. Citizens will collect “data dividends,” which haven’t been clearly defined but could include monetary or nonmonetary payments from companies that use their personal data. With the EU’s roughly 500 million citizens poised to become data sources, the trusts will create the world’s largest data market.

For citizens, this means the data created by them and about them will be held in public servers and managed by data trusts. The European Commission envisions the trusts as a way to help European businesses and governments reuse and extract value from the massive amounts of data produced across the region, and to help European citizens benefit from their information. The project documentation, however, does not specify how individuals will be compensated.

Data trusts were first proposed by internet pioneer Sir Tim Berners Lee in 2018, and the concept has drawn considerable interest since then. Just like the trusts used to manage one’s property, data trusts may serve different purposes: they can be for-profit enterprises, or they can be set up for data storage and protection, or to work for a charitable cause.

IBM and Mastercard have built a data trust to manage the financial information of their European clients in Ireland; the UK and Canada have employed data trusts to stimulate the growth of the AI industries there; and recently, India announced plans to establish its own public data trust to spur the growth of technology companies.

The new EU project is modeled on Austria’s digital system, which keeps track of information produced by and about its citizens by assigning them unique identifiers and storing the data in public repositories.

Unfortunately, data trusts do not guarantee more transparency. The trust is governed by a charter created by the trust’s settlor, and its rules can be made to prioritize someone’s interests. The trust is run by a board of directors, which means a party that has more seats gains significant control.

The Trusts Project is bound to face some governance issues of its own. Public and private actors often do not see eye to eye when it comes to running critical infrastructure or managing valuable assets. Technology companies tend to favor policies that create opportunity for their own products and services. Caught in a conflict of interest, Europe may overlook the question of privacy.

And in some cases, data trusts have been used to strip individuals of their rights to control data collected about them. In October 2019, the government of Canada rejected a proposal by Alphabet/Sidewalk Labs to create a data trust for Toronto’s smart city project. Sidewalk Labs had designed the trust in a way that secured the company’s control over citizens’ data. And India’s data trust faced criticism for giving the government unrestricted access to personal information by defining authorities as “information fiduciaries.”

One possible solution could be to set up an ecosystem of data stewards, both public and private, that each serve different needs. Sylvie Delacroix and Neil Lawrence, the originators of this bottom-up approach, liken data trusts to pension funds, saying they should be tightly regulated and able to provide different services to designated groups.

When put into practice, the EU’s Trusts Project will likely change the privacy landscape on a global scale. Unfortunately, however, this new approach won’t necessarily give European citizens more privacy or control over their information. It is not yet clear what model of trusts the project will pursue, but the policies do not currently provide any way for citizens to opt out.

At a recent congressional antitrust hearing in the United States, four major platform companies publicly recognized the use of surveillance technologies, market manipulation, and forceful acquisitions to dominate the data economy. The single most important lesson from these revelations is that companies that trade in personal data cannot be trusted to store and manage it. Decoupling personal information from the platforms’ infrastructure would be a decisive step toward curbing their monopoly power. This can be done through data stewardship.

Ideally, the Trusts Project would show the world a more equitable way to capture and distribute the true value of personal data. There’s still time to deliver on that promise.

Anna Artyushina is a public policy scholar specializing in data governance and smart cities. She is a PhD candidate in science and technology studies at York University in Toronto.



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How Do Delivery Robots Work? How They Safely Deliver Your Packages

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A distant future involving robotic package deliveries is now very much a reality. Advances in robotics, GPS tracking, automation, and navigation now mean you might not find a delivery person at your door with your package.

You might find a delivery robot instead.

With semi-autonomous robots beginning to enter the world, here’s a look at how delivery robots work.

What Is a Delivery Robot?

A delivery robot is an automated robot that brings your delivery directly to your door. These robots aren’t walking and talking humanoids; rather, these robots are cute delivery containers on six wheels, resembling giant (but friendly-looking!) bugs.

As with other delivery services, you make your purchases through an app with vendors based on your location. The robot trundles to the vendor—whether for shopping, food, drinks, or otherwise—and then it makes its way to your home.

How Does a Delivery Robot Work?

The primary example of delivery robots in action comes from Starship Technologies, a company based out of San Francisco with engineering facilities in Estonia and Finland. Starship Technologies is the brainchild of Skype co-founders Janus Friis and Anti Heinla, and they are currently the largest “last mile” delivery robot company around.

So, how does an autonomous delivery robot make a delivery?

The robots have a cargo capacity of around 9kg, can travel at a maximum speed of 4 mph, weigh around 25kg, and cost over $5,000 to manufacture. The delivery robot uses many of the same features as an autonomous car: 10 cameras for 360-degree vision, several ultrasonic sensors, GPS navigation, measurement units, gyroscopes, and much more.

How Do Delivery Robots Navigate?

The route between a vendor and a delivery point might look A-to-B if you plug the locations into a navigation app… but there are extra considerations for a delivery robot, including sidewalks, crossings, driveways, humans, animals, vehicles, and so on.

Starship’s robots calculate a route based upon the shortest distance and satellite imagery detailing the route. Each feature on the route (crossings, driveways, etc.) receives a time calculation, which the robot factors into route selection and delivery time.

Over time, the robots build a collaborative memory of an area, creating a wireframe map of constant features (buildings, crossings, statues, pathways, etc.) and ensuring that future journeys through the area are faster. The collaborative area-building makes navigation easier for every robot in the vicinity, with all units contributing to building out the local map.

But navigation isn’t always smooth sailing. Aside from regular navigational dilemmas, a malfunctioning robot comes with its own problems. For example, a Starship robot in Milton Keynes malfunctioned—and drove straight into a canal.

Does Anyone Control the Delivery Robot?

While the Starship Technology robots are autonomous, they are not disconnected from their operators. If a robot comes up against a significant challenge, such as a particularly massive curb (they can climb up and over regular sidewalk curbs), a human operator can take control and find a solution.

But for the most part, the robots are designed to take everything into account, focusing strongly on the sidewalk. Delivery robots sharing the same routes as pedestrians has all the potential for irritation.

All these potential issues are all considered, but the robots must learn the correct way to interact with humans. How many times have you faced the awkward situation of walking at a similar pace to someone just ahead of you? Do you speed up to pass, then continue walking faster? Do you slow down to give them time to move further ahead? Is your destination close enough so that you don’t need to overtake?

The delivery robots are learning how to solve these problems, as well as countless others.

If you want to get involved with robotics, check out these DIY robotic arm kits.

How Do You Order Take-Out From a Robot?

Starship’s robotic delivery team are currently operating in several US cities but in limited geographic areas. For example, you can order via Starship at Arizona State University, in Fairfax City, Virginia, or Modesto, California—but only in a limited area. The images below show the delivery areas for those respective locations:

If the vendor you want to order from and your delivery address are with the bounds of the robot, you can order from the Starship Delivery app. The app displays a list of vendors you can make an order with. You place your order, and a local delivery robot makes its way to the vendor to pick up your order. The robot then trundles to your front door. You track the delivery robot using an app, as well as unlock the secure cargo compartment, too.

The Starship Technologies delivery service costs $1.99 per delivery.

For vendors, the reality is slightly different. The delivery robots are cute and get the job done, but Starship’s terms of partnership can take up to a 20% cut per delivery, after a free month’s trial of the service.

Delivery Robots and COVID-19

The 2020 COVID-19 pandemic provided a new and interesting dynamic for Starship Technologies and its delivery robots. With huge numbers of people entering lockdown at differing times and with many people attempting to self-isolate and socially distance from the general public, the delivery robots present a perfect non-human delivery system.

In Milton Keynes, UK, the demand for robot deliveries rose significantly during the early stages of the UK COVID-19 lockdown. The US cities and university campuses also saw similar demand for robotic, almost zero-human interaction deliveries. For those on at-risk lists due to pre-existing conditions or healthcare workers struggling to purchase groceries after a long shift, robotic deliveries are a vital lifeline.

Does Amazon Have Delivery Robots?

Starship Technologies was the first company to use delivery robots as its core delivery method. Recognizing that last-mile delivery is a phenomenally large market is a masterstroke. But the world’s largest online marketplace, Amazon, isn’t far behind.

Amazon Scout is another six-wheeled robot that moves across sidewalks and crossings at walking pace, but this one brings your Amazon delivery directly to your door. Scout is currently available to Amazon customers in the area near Amazon’s headquarters in Seattle, as well as Irving, California, with recent trial expansions to Atlanta, Georgia and Franklin, Tennessee.

Delivery Robots Are Coming to Your Home

A friendly delivery robot bringing curry to your door is charming and is a reality for millions of people. The rollout of delivery robots won’t be overnight, and there are significant challenges for the delivery robotics sector, as well as rural communities.

If you like the sound of robots, check out these robots that’ll do your chores!

Image Credit: JHVEPhoto/Shutterstock

Read the full article: How Do Delivery Robots Work? How They Safely Deliver Your Packages



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Facebook wants to make AI better by asking people to break it

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The explosive successes of AI in the last decade or so are typically chalked up to lots of data and lots of computing power. But benchmarks also play a crucial role in driving progress—tests that researchers can pit their AI against to see how advanced it is. For example, ImageNet, a public data set of 14 million images, sets a target for image recognition. MNIST did the same for handwriting recognition and GLUE (General Language Understanding Evaluation) for natural-language processing, leading to breakthrough language models like GPT-3.

A fixed target soon gets overtaken. ImageNet is being updated and GLUE has been replaced by SuperGLUE, a set of harder linguistic tasks. Still, sooner or later researchers will report that their AI has reached superhuman levels, outperforming people in this or that challenge. And that’s a problem if we want benchmarks to keep driving progress.

So Facebook is releasing a new kind of test that pits AIs against humans who do their best to trip them up. Called Dynabench, the test will be as hard as people choose to make it.

Benchmarks can be very misleading, says Douwe Kiela at Facebook AI Research, who led the team behind the tool. Focusing too much on benchmarks can mean losing sight of wider goals. The test can become the task.

“You end up with a system that is better at the test than humans are but not better at the overall task,” he says. “It’s very deceiving, because it makes it look like we’re much further than we actually are.”

Kiela thinks that’s a particular problem with NLP right now. A language model like GPT-3 appears intelligent because it is so good at mimicking language. But it is hard to say how much these systems actually understand.

Think about trying to measure human intelligence, he says. You can give people IQ tests, but that doesn’t tell you if they really grasp a subject. To do that you need to talk to them, ask questions.

Dynabench does something similar, using people to interrogate AIs. Released online today, it invites people to go to the website and quiz the models behind it. For example, you could give a language model a Wikipedia page and then ask it questions, scoring its answers.

In some ways, the idea is similar to the way people are playing with GPT-3 already, testing its limits, or the way chatbots are evaluated for the Loebner Prize, a contest where bots try to pass as human. But with Dynabench, failures that surface during testing will automatically be fed back into future models, making them better all the time.

For now Dynabench will focus on language models because they are one of the easiest kinds of AI for humans to interact with. “Everybody speaks a language,” says Kiela. “You don’t need any real knowledge of how to break these models.”

But the approach should work for other types of neural network too, such as speech or image recognition systems. You’d just need a way for people to upload their own images—or have them draw things—to test it, says Kiela: “The long-term vision for this is to open it up so that anyone can spin up their own model and start collecting their own data.”

“We want to convince the AI community that there’s a better way to measure progress,” he adds. “Hopefully, it will result in faster progress and a better understanding of why machine-learning models still fail.” 



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In Praise Of The DT830, The Phenomenal Instrument You Probably Don’t Recognise For What It Is

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If we had to make a guess at the single piece of electronic bench equipment owned by the highest proportion of Hackaday readers, it would not be a budget oscilloscope from Rigol, nor would it be a popular portable soldering iron like the TS100. Instead we’re guessing that it’s a multimeter, and not even the most accomplished one.

The DT830 is a genericised Chinese-manufactured 3.5 digit digital multimeter that can be had for an astonishingly low price. Less than a decent hamburger gets you an instantly recognisable plastic case with a chunky rotary range selector switch, and maybe a socket for some kind of transistor or component tester. Make sure that there is a 9 volt battery installed, plug in the pair of test leads, and you’re in business for almost any day-to-day electrical or electronic measurement. They’ve been available in one form or another for decades and have been the subject of innumerable give-aways and loss-leader offers, so it’s a reasonsble guess that you’ll have one somewhere. I have three as far as I know, they make great on-the-go instruments and have proved themselves surprisingly reliable for what they are.

Persuading You Is Going To Be A Tough Sell

An undervalued instrument, by my estimation.

If you talk about the DT830 in polite company, you might be greeted with snorts of derision. It’s not difficult to find reviews that tear one down and compare it to a more expensive meter, and not surprisingly find the pricey meter to be of higher quality.

And it’s certainly true that for a couple of dollars, you get a switch that won’t last forever and high voltage isolation that maybe isn’t quite up to spec. But I’m going to advance a different take on the DT830 that may surprise some of you: to me it’s a modern classic, an instrument that provides performance for its price that is nothing short of phenomenal. Because that pocket-money meter not only measures voltage, current, and resistance, it does so accurately and repeatably, and to compare that with what might have gone before is to show just much better a device it is.

Thirty years ago, a digital multimeter was an expensive item, and most multimeters were still analogue. A cheap multimeter was therefore invariably a small pocket analogue device, and the very cheap ones could be astoundingly awful. Accuracy and repeatability in reading wasn’t their strong point, and while I am a great fan of analogue multimeters when it comes to spotting dips and trends in tweaking analogue circuitry, even I can’t find reason to praise the inexpensive ones. By comparison the DT830 delivers reliable and accurate readings with a high-impedance input, something I would have given a lot for in 1985.

That Performance Is No Fluke

An ICM7106 epoxy blob on a 40-pin DIP-shaped PCB
An ICM7106 epoxy blob on a 40-pin DIP-shaped PCB in this roughly 18-year-old DT830

So given that it costs considerably less than a pint of beer in a British pub, how does such a cheap instrument do it? The answer is, by standing on the shoulders of giants. My colleague Anool Mahidharia supplied the answer here back in 2017 when he took a look at the Intersil 71XX series of integrated circuits; the archetypal DT830 contains an ICM 7106 3.5 digit digital panel meter chip, whose roots lie in a much more exclusive stratum of the industry.

(Despite there being a load of newer and more accomplished multimeter chips on the market I was surprised to find that none of them had found their way into the meters I’d opened.)

The ICM 7106 was based on work Intersil did in 1977 to produce the part in Fluke’s first portable DMM, the model 8020A.

Google hasn't found any ICM7106 conterfeiters!
Google hasn’t found any ICM7106 conterfeiters!

So you’re not getting anywhere near the physical design or component quality of that expensive meter, but you are benefiting from the tech that made its ancestor a very good instrument for the 1970s. The dual-slope integrating ADC and precision reference are the same as the ones in many far more expensive meters, which is what makes the reading from your few-dollar DT830 one you can trust. Not bad for something you might dismiss as a piece of junk!

If there is something to be gleaned from this story, it is a very real demonstration of the power of semiconductor manufacturing. Assuming it has passed acceptable factory QA, every 7106 is as good as any other 7016, from the first one made by Intersil in the 1970s through to the unknown-origin chip hiding under an epoxy blob in my cheap meter. The manufacturer can skimp on every other component in the meter, but assuming that there’s no money in counterfeiting a 43-year-old chip that long ago left its premium product phase behind and has been manufactured by many sources over the years, they can’t skimp on the chip that powers it. To be an ICM7106, it must have the same features as the original from the 1970s, thus my bargain-basement meter still shares something that matters with one of far higher quality.

The DT830 multimeter, then. It may be a heap of junk, but it’s an astonishingly good heap of junk. I for one, salute it.



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