28 years ago, Tim Berners-Lee invented the World Wide Web. For his next project, he’s building a web for open, linked data that could do for numbers what the Web did for words, pictures, video: unlock our data and reframe the way we use it together.
Time flies. It’s actually almost 20 years ago when I wanted to reframe the way we use information, the way we work together: I invented the World Wide Web. Now, 20 years on, at TED, I want to ask your help in a new reframing.
So going back to 1989, I wrote a memo suggesting the global hypertext system. Nobody really did anything with it, pretty much. But 18 months later — this is how innovation happens — 18 months later, my boss said I could do it on the side, as a sort of a play project, kick the tires of a new computer we’d got. And so he gave me the time to code it up. So I basically roughed out what HTML should look like:hypertext protocol, HTTP; the idea of URLs, these names for things which started with HTTP. I wrote the code and put it out there.
Why did I do it? Well, it was basically frustration. I was frustrated — I was working as a software engineer in this huge, very exciting lab, lots of people coming from all over the world. They brought all sorts of different computers with them. They had all sorts of different data formats, all sorts, all kinds of documentation systems. So that, in all that diversity, if I wanted to figure out how to build something out of a bit of this and a bit of this, everything I looked into, I had to connect to some new machine, I had to learn to run some new program, I would find the information I wanted in some new data format. And these were all incompatible. It was just very frustrating. The frustration was all this unlocked potential.
In fact, on all these discs there were documents. So if you just imagined them all being part of some big, virtual documentation system in the sky, say on the Internet, then life would be so much easier. Well, once you’ve had an idea like that it kind of gets under your skin and even if people don’t read your memo — actually he did, it was found after he died, his copy. He had written, “Vague, but exciting,” in pencil, in the corner.
But in general it was difficult — it was really difficult to explain what the web was like. It’s difficult to explain to people now that it was difficult then. But then — OK, when TED started, there was no web so things like “click” didn’t have the same meaning. I can show somebody a piece of hypertext, a page which has got links, and we click on the link and bing — there’ll be another hypertext page. Not impressive. You know, we’ve seen that — we’ve got things on hypertext on CD-ROMs. What was difficult was to get them to imagine: so, imagine that that link could have gone to virtually any document you could imagine. Alright, that is the leap that was very difficult for people to make. Well, some people did.So yeah, it was difficult to explain, but there was a grassroots movement. And that is what has made it most fun. That has been the most exciting thing, not the technology, not the things people have done with it, but actually the community, the spirit of all these people getting together, sending the emails.That’s what it was like then.
Do you know what? It’s funny, but right now it’s kind of like that again. I asked everybody, more or less, to put their documents — I said, “Could you put your documents on this web thing?” And you did.Thanks. It’s been a blast, hasn’t it? I mean, it has been quite interesting because we’ve found out that the things that happen with the web really sort of blow us away. They’re much more than we’d originally imagined when we put together the little, initial website that we started off with. Now, I want you to put your data on the web. Turns out that there is still huge unlocked potential. There is still a huge frustration that people have because we haven’t got data on the web as data.
What do you mean, “data”? What’s the difference — documents, data? Well, documents you read, OK?More or less, you read them, you can follow links from them, and that’s it. Data — you can do all kinds of stuff with a computer. Who was here or has otherwise seen Hans Rosling’s talk? One of the great — yes a lot of people have seen it — one of the great TED Talks. Hans put up this presentation in which he showed, for various different countries, in various different colors — he showed income levels on one axis and he showed infant mortality, and he shot this thing animated through time. So, he’d taken this data and made a presentation which just shattered a lot of myths that people had about the economics in the developing world.
He put up a slide a little bit like this. It had underground all the data OK, data is brown and boxy and boring, and that’s how we think of it, isn’t it? Because data you can’t naturally use by itself But in fact, data drives a huge amount of what happens in our lives and it happens because somebody takes that data and does something with it. In this case, Hans had put the data together he had found from all kinds of United Nations websites and things. He had put it together, combined it into something more interesting than the original pieces and then he’d put it into this software, which I think his son developed, originally, and produces this wonderful presentation. And Hans made a point of saying, “Look, it’s really important to have a lot of data.” And I was happy to see that at the party last night that he was still saying, very forcibly, “It’s really important to have a lot of data.”
So I want us now to think about not just two pieces of data being connected, or six like he did, but I want to think about a world where everybody has put data on the web and so virtually everything you can imagine is on the web and then calling that linked data. The technology is linked data, and it’s extremely simple. If you want to put something on the web there are three rules: first thing is that those HTTP names — those things that start with “http:” — we’re using them not just for documents now, we’re using them for things that the documents are about. We’re using them for people, we’re using them for places,we’re using them for your products, we’re using them for events. All kinds of conceptual things, they have names now that start with HTTP.
Second rule, if I take one of these HTTP names and I look it up and I do the web thing with it and I fetch the data using the HTTP protocol from the web, I will get back some data in a standard format which is kind of useful data that somebody might like to know about that thing, about that event. Who’s at the event? Whatever it is about that person, where they were born, things like that. So the second rule is I get important information back.
Third rule is that when I get back that information it’s not just got somebody’s height and weight and when they were born, it’s got relationships. Data is relationships. Interestingly, data is relationships. This person was born in Berlin; Berlin is in Germany. And when it has relationships, whenever it expresses a relationship then the other thing that it’s related to is given one of those names that starts HTTP. So, I can go ahead and look that thing up. So I look up a person — I can look up then the city where they were born; then I can look up the region it’s in, and the town it’s in, and the population of it, and so on. So I can browse this stuff.
So that’s it, really. That is linked data. I wrote an article entitled “Linked Data” a couple of years ago and soon after that, things started to happen. The idea of linked data is that we get lots and lots and lots of these boxes that Hans had, and we get lots and lots and lots of things sprouting. It’s not just a whole lot of other plants. It’s not just a root supplying a plant, but for each of those plants, whatever it is — a presentation, an analysis, somebody’s looking for patterns in the data — they get to look at all the data and they get it connected together, and the really important thing about data is the more things you have to connect together, the more powerful it is.
So, linked data. The meme went out there. And, pretty soon Chris Bizer at the Freie Universitat in Berlinwho was one of the first people to put interesting things up, he noticed that Wikipedia — you know Wikipedia, the online encyclopedia with lots and lots of interesting documents in it. Well, in those documents, there are little squares, little boxes. And in most information boxes, there’s data. So he wrote a program to take the data, extract it from Wikipedia, and put it into a blob of linked data on the web, which he called dbpedia. Dbpedia is represented by the blue blob in the middle of this slide and if you actually go and look up Berlin, you’ll find that there are other blobs of data which also have stuff about Berlin, and they’re linked together. So if you pull the data from dbpedia about Berlin, you’ll end up pulling up these other things as well. And the exciting thing is it’s starting to grow. This is just the grassroots stuff again, OK?
Let’s think about data for a bit. Data comes in fact in lots and lots of different forms. Think of the diversity of the web. It’s a really important thing that the web allows you to put all kinds of data up there. So it is with data. I could talk about all kinds of data. We could talk about government data, enterprise data is really important, there’s scientific data, there’s personal data, there’s weather data, there’s data about events, there’s data about talks, and there’s news and there’s all kinds of stuff. I’m just going to mention a few of them so that you get the idea of the diversity of it, so that you also see how much unlocked potential.
Let’s start with government data. Barack Obama said in a speech, that he — American government data would be available on the Internet in accessible formats. And I hope that they will put it up as linked data.That’s important. Why is it important? Not just for transparency, yeah transparency in government is important, but that data — this is the data from all the government departments Think about how much of that data is about how life is lived in America. It’s actual useful. It’s got value. I can use it in my company. I could use it as a kid to do my homework. So we’re talking about making the place, making the world run better by making this data available.
In fact if you’re responsible — if you know about some data in a government department, often you find that these people, they’re very tempted to keep it — Hans calls it database hugging. You hug your database, you don’t want to let it go until you’ve made a beautiful website for it. Well, I’d like to suggest that rather — yes, make a beautiful website, who am I to say don’t make a beautiful website? Make a beautiful website, but first give us the unadulterated data, we want the data. We want unadulterated data.OK, we have to ask for raw data now. And I’m going to ask you to practice that, OK? Can you say “raw”?
Audience: Raw.
Tim Berners-Lee: Can you say “data”?
Audience: Data.
TBL: Can you say “now”?
Audience: Now!
TBL: Alright, “raw data now”!
Audience: Raw data now!
Practice that. It’s important because you have no idea the number of excuses people come up with to hang onto their data and not give it to you, even though you’ve paid for it as a taxpayer. And it’s not just America. It’s all over the world. And it’s not just governments, of course — it’s enterprises as well.
So I’m just going to mention a few other thoughts on data. Here we are at TED, and all the time we are very conscious of the huge challenges that human society has right now — curing cancer, understanding the brain for Alzheimer’s, understanding the economy to make it a little bit more stable, understanding how the world works. The people who are going to solve those — the scientists — they have half-formed ideas in their head, they try to communicate those over the web. But a lot of the state of knowledge of the human race at the moment is on databases, often sitting in their computers, and actually, currently not shared.
In fact, I’ll just go into one area — if you’re looking at Alzheimer’s, for example, drug discovery — there is a whole lot of linked data which is just coming out because scientists in that field realize this is a great way of getting out of those silos, because they had their genomics data in one database in one building, and they had their protein data in another. Now, they are sticking it onto — linked data — and now they can ask the sort of question, that you probably wouldn’t ask, I wouldn’t ask — they would. What proteins are involved in signal transduction and also related to pyramidal neurons? Well, you take that mouthful and you put it into Google. Of course, there’s no page on the web which has answered that question because nobody has asked that question before. You get 223,000 hits — no results you can use. You ask the linked data — which they’ve now put together — 32 hits, each of which is a protein which has those properties and you can look at. The power of being able to ask those questions, as a scientist —questions which actually bridge across different disciplines — is really a complete sea change. It’s very very important. Scientists are totally stymied at the moment — the power of the data that other scientists have collected is locked up and we need to get it unlocked so we can tackle those huge problems.
Now if I go on like this, you’ll think that all the data comes from huge institutions and has nothing to do with you. But, that’s not true. In fact, data is about our lives. You just — you log on to your social networking site, your favorite one, you say, “This is my friend.” Bing! Relationship. Data. You say, “This photograph, it’s about — it depicts this person. “ Bing! That’s data. Data, data, data. Every time you do things on the social networking site, the social networking site is taking data and using it — re-purposing it — and using it to make other people’s lives more interesting on the site. But, when you go to another linked data site — and let’s say this is one about travel, and you say, “I want to send this photo to all the people in that group,” you can’t get over the walls. The Economist wrote an article about it, and lots of people have blogged about it — tremendous frustration. The way to break down the silos is to get inter-operability between social networking sites. We need to do that with linked data.
One last type of data I’ll talk about, maybe it’s the most exciting. Before I came down here, I looked it up on OpenStreetMap The OpenStreetMap’s a map, but it’s also a Wiki. Zoom in and that square thing is a theater — which we’re in right now — The Terrace Theater. It didn’t have a name on it. So I could go into edit mode, I could select the theater, I could add down at the bottom the name, and I could save it back.And now if you go back to the OpenStreetMap. org, and you find this place, you will find that The Terrace Theater has got a name. I did that. Me! I did that to the map. I just did that! I put that up on there. Hey, you know what? If I — that street map is all about everybody doing their bit and it creates an incredible resource because everybody else does theirs. And that is what linked data is all about. It’s about people doing their bit to produce a little bit, and it all connecting. That’s how linked data works. You do your bit. Everybody else does theirs. You may not have lots of data which you have yourself to put on there but you know to demand it. And we’ve practiced that.
So, linked data — it’s huge. I’ve only told you a very small number of things There are data in every aspect of our lives, every aspect of work and pleasure, and it’s not just about the number of places where data comes, it’s about connecting it together. And when you connect data together, you get power in a way that doesn’t happen just with the web, with documents. You get this really huge power out of it. So, we’re at the stage now where we have to do this — the people who think it’s a great idea. And all the people — and I think there’s a lot of people at TED who do things because — even though there’s not an immediate return on the investment because it will only really pay off when everybody else has done it —they’ll do it because they’re the sort of person who just does things which would be good if everybody else did them. OK, so it’s called linked data. I want you to make it. I want you to demand it. And I think it’s an idea worth spreading.
Sir Tim Berners-Lee invented the World Wide Web in 1989.
He is the Director of the World Wide Web Consortium (W3C), a Web standards organization founded in 1994 which develops interoperable technologies (specifications, guidelines, software, and tools) to lead the Web to its full potential. He is a Director of the World Wide Web Foundation which was launched in 2009 to coordinate efforts to further the potential of the Web to benefit humanity.
A graduate of Oxford University, Sir Tim invented the Web while at CERN, the European Particle Physics Laboratory, in 1989. He wrote the first web client and server in 1990. His specifications of URIs, HTTP and HTML were refined as Web technology spread.
He is the 3Com Founders Professor of Engineering in the School of Engineering with a joint appointment in the Department of Electrical Engineering and Computer Science at the Laboratory for Computer Science and Artificial Intelligence ( CSAIL) at the Massachusetts Institute of Technology (MIT) where he co-leads the Decentralized Information Group (DIG). He is also a Professor in the Computer Science Department at the University of Oxford, UK. He is President of and founded the Open Data Institute in London.
In 2011 he was named to the Board of Trustees of the Ford Foundation, a globally oriented private foundation with the mission of advancing human welfare. He is President of London’s Open Data Institute.
In 2001 he became a Fellow of the Royal Society. He has been the recipient of several international awards including the Japan Prize, the Prince of Asturias Foundation Prize, the Millennium Technology Prize and Germany’s Die Quadriga award. In 2004 he was knighted by H.M. Queen Elizabeth and in 2007 he was awarded the Order of Merit. In 2009 he was elected a foreign associate of the National Academy of Sciences. He is the author of “Weaving the Web”.
On March 18 2013, Sir Tim, along with Vinton Cerf, Robert Kahn, Louis Pouzin and Marc Andreesen, was awarded the Queen Elizabeth Prize for Engineering for “ground-breaking innovation in engineering that has been of global benefit to humanity.”
Sir Tim has promoted open government data globally and spend time fighting for rights such as net neutrality, privacy and the openness of the Web.
On 4 April 2017, Sir Tim was awarded the ACM A.M. Turing Prize for inventing the World Wide Web, the first web browser, and the fundamental protocols and algorithms allowing the Web to scale. The Turing Prize, called the “Nobel Prize of Computing” is considered one of the most prestigious awards in Computer Science.