A few months ago, Sarah wrote about group-buying travel site Jetsetter.com, arguing that it solves a ‘big problem’ in hotel booking. After the post went live, she received plenty of feedback suggesting other sites to look at, but one came up time and time again: Oyster.com.
Founded in 2008 by Elie Seidman and Ariel Charytan, Oyster is – essentially – a curated version of Trip Advisor. Focusing on Hotels in major US cities, Oyster sends real-life reviewers to each property in the hope that users will come to trust a professional editorial voice over the crowd-sourced opinions of user-generated rivals.
Now the NY-based company is about to start raising a series B round. We invited Seidman to join us on this week’s episode of ‘Why Is This News?’ to explain what the funding is going to be used for, and also to defend a costly editorial operation in a market where user generated views are king.
(After which we spent five minutes discussing room service)
Video below.
Saturday, September 25, 2010
TALKS - David Merrill demos Siftables
About this talk
MIT grad student David Merrill demos Siftables -- cookie-sized, computerized tiles you can stack and shuffle in your hands. These future-toys can do math, play music, and talk to their friends, too. Is this the next thing in hands-on learning?
Transcript
I want to start out by asking you to think back to when you were a kid, playing with blocks. As you figured out how to reach out and grasp, pick them up and move them around, you were actually learning how to think and solve problems by understanding and manipulating spatial relationships. Spatial reasoning is deeply connected to how we understand a lot of the world around us.
So, as a computer scientist inspired by this utility of our interactions with physical objects -- along with my adviser Pattie, and my collaborator Jeevan Kalanithi -- I started to wonder -- what if when we used a computer, instead of having this one mouse cursor that was a like a digital fingertip moving around a flat desktop, what if we could reach in with both hands and grasp information physically, arranging it the way we wanted? This question was so compelling that we decided to explore the answer, by building Siftables.
In a nutshell, a Siftable is an interactive computer the size of a cookie. They're able to be moved around by hand, they can sense each other, they can sense their motion, and they have a screen and a wireless radio. Most importantly, they're physical, so like the blocks, you can move them just by reaching out and grasping. And Siftables are an example of a new ecosystem of tools for manipulating digital information. And as these tools become more physical, more aware of their motion, aware of each other, and aware of the nuance of how we move them, we can start to explore some new and fun interaction styles. So, I'm going to start with some simple examples.
This Siftable is configured to show video, and if I tilt it in one direction, it'll roll the video this way, if I tilt it the other way it rolls it backwards. And these interactive portraits are aware of each other. So if I put them next to each other, they get interested. If they get surrounded, they notice that too, they might get a little flustered. And they can also sense their motion and tilt.
One of the interesting implications on interaction, we started to realize, was that we could use everyday gestures on data, like pouring a color the way we might pour a liquid. So in this case, we've got three Siftables configured to be paint buckets and I can use them to pour color into that central one, where they get mixed. If we overshoot, we can pour a little bit back.
There are also some neat possibilities for education, like language, math and logic games where we want to give people the ability to try things quickly, and view the results immediately. So here I'm -- (Applause) This is a Fibonacci sequence that I'm making with a simple equation program.
Here we have a word game that's kind of like a mash-up between Scrabble and Boggle. Basically, in every round you get a randomly assigned letter on each Siftable, and as you try to make words it checks against a dictionary. Then, after about 30 seconds it reshuffles, and you have a new set of letters and new possibilities to try.
(Applause) Thank you. (Applause)
So these are some kids that came on a field trip to the Media Lab, and I managed to get them to try it out, and shoot a video. They really loved it. And, one of the interesting things about this kind of application is that you don't have to give people many instructions. All you have to say is, "Make words," and they know exactly what to do.
So here's another few people trying it out. That's our youngest beta tester, down there on the right. Turns out, all he wanted to do was to stack the Siftables up. So to him, they were just blocks. Now, this is an interactive cartoon application. And we wanted to build a learning tool for language learners. And this is Felix, actually. And he can bring new characters into the scene, just by lifting the Siftables off the table that have that character shown on them. Here, he's bringing the sun out.
Video: The sun is rising.
David Merrill: Now he's brought a tractor into the scene.
Video: The orange tractor. Good job! Yeah!
So by shaking the Siftables and putting them next to each other he can make the characters interact --
Video: Woof!
DM: inventing his own narrative.
Video: Hello!
DM: It's an open-ended story, and he gets to decide how it unfolds.
Video: Fly away cat.
DM: So, the last example I have time to show you today is a music sequencing and live performance tool that we've built recently, in which Siftables act as sounds like lead, bass and drums. Each of these has four different variations, you get to choose which one you want to use. And you can inject these sounds into a sequence that you can assemble into the pattern that you want. And you inject it by just bumping up the sound Siftable against a sequence Siftable. There are effects that you can control live, like reverb and filter. You attach it to a particular sound and then tilt to adjust it. And then, overall effects like tempo and volume that apply to the entire sequence. So let's have a look.
Video: (Music)
DM: We'll start by putting a lead into two sequence Siftables, arrange them into a series, extend it, add a little more lead. Now I put a bassline in.
Video: (Music) DM: Now I'll put some percussion in. Video: (Music)
DM: And now I'll attach the filter to the drums, so I can control the effect live.
Video: (Music)
DM: I can speed up the whole sequence by tilting the tempo one way or the other.
Video: (Music)
DM: And now I'll attach the filter to the bass for some more expression.
Video: (Music)
DM: I can rearrange the sequence while it plays. So I don't have to plan it out in advance, but I can improvise, making it longer or shorter as I go. And now, finally, I can fade the whole sequence out using the volume Siftable, tilted to the left.
(Applause) Thank you.
So, as you can see, my passion is for making new human-computer interfaces that are a better match to the way our brains and bodies work. And today, I had time to show you one point in this new design space, and a few of the possibilities that we're working to bring out of the laboratory. So the thought I want to leave you with is that we're on the cusp of this new generation of tools for interacting with digital media, that are going to bring information into our world on our terms. Thank you very much. I look forward to talking with all of you.
(Applause)
Green@Google: Vinod Khosla
Vinod Khosla visits Google's Mountain View, CA headquarters to discuss renewable energy and the path to real impact. This event took place on April 22, 2009, as part of the Green@Google series.
Vinod Khosla will provide a look at renewable energy - where we are (and some of the exciting technologies out there) and where we need to be, as well as the key criteria necessary to differentiate real solutions from niche opportunities. His focus is on "Chindia" solutions - how to identify them, the issues with forecasting them, the importance of cost, scaling, and carbon trajectory, and the policy prescriptions that can help drive these.
Vinod Khosla was a co-founder of Daisy Systems and founding Chief Executive Officer of Sun Microsystems where he pioneered open systems and commercial RISC processors. Sun was funded by Kleiner Perkins and in 1986 Vinod switched sides and joined Kleiner Perkins Caufield & Byers (KPCB). In 2004, driven by the need for flexibility and a desire to be more experimental, to fund sometimes imprudent "science experiments," and to take on both "for profit" and for "social impact" ventures, he formed Khosla Ventures. Khosla Ventures focuses on both traditional venture capital technology investments and clean technology ventures. Social ventures include affordable housing, microfinance among others.
類別:
Talks - Jamie Oliver's TED Prize wish: Teach every child about food
About this talk
Sharing powerful stories from his anti-obesity project in Huntington, W. Va., TED Prize winner Jamie Oliver makes the case for an all-out assault on our ignorance of food.
Forget The Facebook Phone, Here’s Mozilla Seabird — An Open Web Concept Phone
Much as been made of the so-called Facebook Phone. While Facebook is still being vague about their ideas for this (but at least they’re no longer denying it), it seems likely that anything they do will be based on Google’s Android platform. And INQ may offer the first of these starting next year. But Facebook isn’t the only web company thinking about phones and Android. Mozilla is as well. Or at least, their community is. Today on the Mozilla Labs blog, they’ve unveiled Seabird, an Android-based concept phone built around the ideals of the Open Web.
The concept, created by Billy May, looks amazing. The shape is a little odd (sort of like an upside down raindrop), but it boasts an 8 megapixel camera, dual side pico projectors, wireless charging, and an embedded Bluetooth dongle. The dongle acts as both an earpiece and a controller for the phone. While the pico projectors allow you to display a virtual keyboard on a tabletop for typing.
Would any of this actually work? Who knows. Some of this technology is certainly a few years out. But still, as a concept, this is pretty great.
As for Mozilla actually making such a device, in a FAQ below, this is addressed:
Does Mozilla have plans to produce a mobile phone?
No. Mozilla produces Firefox for Mobile, the popular Firefox browser for mobile phone systems such as Nokia Maemo and Android.
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