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ELON: YOUR PHONE WILL EVENTUALLY CONNECT DIRECTLY TO STARLINK SATELLITES “High broadband connectivity from the satellite to the phones, but there are hardware changes that need to happen to the phone. The chip-set has to be modified to add these frequencies, so the phones that are able to use...

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Elon Musk just announced cellular dead zones have two years left to exist, but only if both space and Earth execute flawlessly in parallel. Direct satellite-to-phone isn’t theoretical anymore. SpaceX is manufacturing it at scale. Your phone just can’t talk to it yet. Musk: “There are hardware changes that need to happen.” Streaming-quality bandwidth from orbit requires different chipsets. Current phones lack the radio hardware for frequencies SpaceX satellites broadcast on. Not fixable through updates. Physical redesign required. Two simultaneous engineering fronts. Both must succeed. In orbit, SpaceX is deploying a constellation capable of video-streaming bandwidth direct to pocket devices. On the ground, manufacturers are integrating entirely new chipsets into phones to receive those transmissions. Musk: “You should be able to watch videos anywhere on your phone.” Not emergency texts from mountains. That’s the minimum viable product rolling now. The actual goal is unrestricted bandwidth from any coordinates on the planet. Video streaming mid-Pacific. Data access from Antarctica. Video calls crossing the Sahara. Full connectivity completely independent of towers, cables, terrestrial infrastructure. Musk: “We’re building the satellites and working with the handset makers.” Satellites launch on schedule. Chipsets integrate into device generations over 24 months. When both complete, the handshake executes globally. Dead zones don’t reduce. They terminate as a concept. Not through better ground coverage. Through space-based infrastructure making physical location irrelevant to connection quality. Timeline is locked. Two years until compatible hardware ships mainstream. Constellation already deploying overhead to provide the other half. This stopped being research. It’s production engineering synchronized across orbital deployment and consumer electronics at planetary scale. When it completes, connectivity dependence shifts entirely from geography to hardware generation. “No signal” disappears as a location problem. It only exists if your device predates the cutover. Two years from now, new phones ship assuming orbital connectivity as baseline infrastructure. The phone in your pocket will be the last generation that loses service based on where you’re standing.

Dustin

261,883 Aufrufe • vor 5 Monaten

$ASTS Abel Avellan on CNBC Full transcript: It is great to be speaking with you again. You've stayed very, very busy. There's a lot to get to here with you. But first, let's start with this idea of a joint venture between the largest U.S. telecom providers to add space-enabled connectivity. How will you play in that? Well, I think that's an effort to make, to divide connectivity to every American. And I basically make it in a way that is standard, available in every device, in every phone, for every carrier. And for that, that's great. It's great news, and now every American can get our service. Can you share any details in terms of that relationship and the role you'll play in it? Well, I think we are the only broadband system that is available in terms of technology to basically do hundreds of megabits per second directly to any device. This is a change of how the operators think about where the connectivity from space plays a role in your day-to-day usage of the technology. And I believe this is great news for us. We are a key enabler for this. We invented this. We did the first voice call over satellite, the first 5G connection over satellite, the first broadband connection over satellite. And just a few weeks back, we demonstrated close to 100 megabits per second for a space directly to your phone. And that's very, very unique and a very nice position to be in as we work to transform how people connect. Yeah, I want to get into that a little bit more here in just a moment. You also recently released earnings, maintained full-year revenue guidance. The thing that investors really focus on is these Bluebird satellites and how quickly you can build them and deploy them. I mean, we did see that Blue Origin, New Glenn rocket launch that ultimately ended in a failure to deploy your satellites in the correct positions and to be able to start operating and working. 45 satellites is still your plan for this year. What does that look like? It is, and we're on target. Today, we're shipping the next batch of satellites to the launch pad. We have launches approximately every month. And now it's opening. I mean, we have multiple launch providers as partners, including SpaceX. And we are very excited about what will happen during the year in terms of launches and in terms of multiple launches that we have multiple partners for doing that. Yeah, speaking of SpaceX, I was just in Alaska over the weekend, and it's incredible. You go to parts of the wilderness above the Arctic Circle. There's no roads. In some cases, there's no running water, but there is Starlink. So how do you think about this competitive landscape and this competitive environment when Starlink is looking to do direct-to-device as well? And then, of course, you have Amazon's Leo buying GlobalStar. Yeah. I think it's all revolved about the speed and capacity that you can get into the phone. What has changed the transformation that is happening in the wireless industry is that space is not just when you're in the middle of nowhere. It's when you're driving from here to the Hamptons and when your connectivity is not as good as you expected. So broadband will make a difference, making it available to absolutely every device without any change to the device and really get hundreds of megabits per second into the device. For that, you need a spectrum. You need satellites. And more importantly, you need large satellites because that's really where the tricks happen is physics. You need large satellites that have the ability to listen to the very small power that a small device putting going up to space. And that's what we have. We have over 3,800 patents and patent-bending claims on how to do that. That's what we have demonstrated. And what we're showing, we're showing up today. It's not a future demonstration. We just recently announced close to 100 megabits per second directly to a regular device. Yeah, forget energy. 1(2)

Peter LINDM🅰️RK

35,174 Aufrufe • vor 1 Monat