 I'm here in the shoelace wireless booth with some people doing some really, really interesting work. I'd like to introduce An Lee who got his PhD from UC Irvine where Steve and I went to school so he's got to be a good guy. So tell us what is shoelace wireless doing? So we developed technologies to address the problem of deliver content to mobile device. Say for example if you want to watch a YouTube video on your mobile device, 40% of the time it's stored as buffering. So we wanted to try to solve this by increasing the bandwidth. Now how do we do that? We exploit the opportunities of having multiple networks around you on a single device. Our technologies can combine Wi-Fi and cellular connections to increase the bandwidth. Now if you're sitting next to your friend or your family member or you have multiple devices on your pocket, we can also combine cellular connections on those devices so you now have a bigger pipe to download the content or upload the content. So you're not using one cellular network and then switching over to Wi-Fi, you're saying you're actually combining those signals? Yes, so our technology can use them simultaneously at the same time to increase your bandwidth. Okay, that sounds like black magic. Maybe you can demonstrate it for us and show us what you're talking about. We're going to go over here to, we've got a couple of Android devices here, Nexus 7 and a Sony phone. We'll see what you're talking about here. So in this small demo I will show you these two devices are connected using Bluetooth and these are the video side that you can go and visit. So now I'm going to go to YouTube and to watch a video on YouTube. So you pick a video here. So right now this Sony device has 4G T-Mobile connections. This device also has a T-Mobile connection. So what happened when you start watching the video, this device starts pulling the content from YouTube using its all connections so you can see the speed right here. But at the same time, this is why... There's audio listeners too. That speed is about one megabit per second. Yeah, about one to two. It depends on the quality of the link at the time. But at the same time, this is why I'm also pulling YouTube video using its all cellular connection and push the content over. So as a result, this is why I get the aggregated speed of the two cellular connections. So when he says the other device for those listening, he's got... The Nexus 7 is using its wireless connection and getting 1.56 megabits per second, which is adding to the signal coming in on the Sony phone. Yes, exactly. So the end result is the user can enjoy high definition content without any buffering. As you can see, you already buffed almost the whole video. Wow. And you're saying that's going back and forth over regular Bluetooth? Yes. So right now we have the demo here with Bluetooth 2.0 with support two megabit per second. If you want, we can also do Wi-Fi which has a higher bandwidth as well. Sure, sure. So right now you're in a public beta, is that correct? So right now we're in closed beta. Oh, closed beta, okay. And we plan to have a public beta in two weeks from now. Oh, wow. Okay, so now right now this is on Android, but you said you're a Mac and iPhone fan as well, so you can see if you can get it to work there too? Yes, so it's on our plan. So within three months we're going to have iOS versions and also on the desktop versions. Excellent, excellent. So the company is Shoelace Wireless. If somebody wanted to learn more about it, where would they go? So Shoelace Wireless.com and you can learn all the information about the company there. Thank you very much. I really appreciate the interview.