110 lines
8.7 KiB
Plaintext
110 lines
8.7 KiB
Plaintext
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Episode: 3378
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Title: HPR3378: A bit of my experience with Starlink internet service
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Source: https://hub.hackerpublicradio.org/ccdn.php?filename=/eps/hpr3378/hpr3378.mp3
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Transcribed: 2025-10-24 22:22:27
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---
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This is Hacker Public Radio Episode 3378 for Wednesday, the 14th of July 2021.
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To its show is entitled, A Bit of My Experience with Starlink Internet Service.
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It is hosted by Ezra and is about 10 minutes long and carries a clean flag.
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The summary is, some ramblings about satellite internet service and how Starlink is different.
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This episode of HPR is brought to you by an honest host.com.
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Get 15% discount on all shared hosting with the offer code HPR15.
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That's HPR15.
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Better web hosting that's honest and fair at an honesthost.com.
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Hello, HPR listeners.
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My name is Ezra and I live on the satellite side of the digital divide.
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That is to say, the only internet services available where I live are all satellite based.
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And traditional satellite ISPs do not offer and cannot offer.
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Internet service that will allow someone to participate in quite a bit of modern life.
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During the pandemic, 20% of the students in my area could not participate in online classes.
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Because internet service is not available where they live.
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Or I should say, because usable internet service is not available where they live.
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However, for me, all of that changed in February when I was invited to participate in Starlink's
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Better Than Nothing Beta Program. Upon receiving the invitation, I signed up as soon as possible.
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And on February 13th, I received the Starlink dish.
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All satellite internet services have three major components.
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The user terminal, a ground station, and a satellite, as the name implies.
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The user terminal is a receiver and transmitter. It's going to have a dish and is usually
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mounted to the roof of one's home. Ground station is also a transmitter and receiver and it is
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connected to the internet backbone somewhere. And the third piece is the satellite.
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And satellite acts as a relay between a user terminal and a ground station.
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Signal goes from the user terminal to the satellite to the ground station to the requested server,
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back to the ground station, up to the satellite, and then finally back down to the user.
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This sort of system is what I refer to as a double line of site connection.
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That is, there needs to be a clear line of site between the user terminal and the satellite.
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And there also needs to be a clear line of site from the satellite to the ground station.
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What this means for users of satellite internet service is that a
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torrential rainstorm between the satellite and the user can knock out the signal.
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Similarly, a torrential rainstorm between the ground station and a satellite can knock out the
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signal. When I was a Hughesnet subscriber, that would be the seven years prior to joining the
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Starlink Beta program, I had a fairly constant connection, except during major rainstorms in
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Amarillo, Texas. Even though I'm in California, Amarillo, Texas is where my ground station was.
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And a torrential rainstorm there would knock out my internet connection.
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Traditional satellite ISPs use satellites that are in a geosynchronous earth orbit.
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And relative to the earth's surface, the satellites appear to be in a fixed position
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at an altitude of 35,786 kilometers, also known as 22,236 miles. Due to this altitude,
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each request must travel 70,000 kilometers. And the response must also travel 70,000 kilometers.
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This adds up to a latency of 600 to 800 milliseconds per request on a good day.
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Because the satellite appears at the exact same location in the sky, always,
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the user terminal that is fixed to one's roof can be pointed at a single direction directly at
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that satellite. Starlink's current satellites are in a low earth orbit at about 550 kilometers
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or 164th the distance of the geosynchronous satellite. That is why my latency is now less than
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100 milliseconds, and I am finally able to participate in online video conferences.
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Because the starlink satellites are in such a low orbit relative to the earth's surface,
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they are constantly traveling into and out of view. Due to this difference in technology,
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the dish of a starlink terminal is a phased array antenna capable of communicating with a satellite
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that is moving across the sky. As the satellite that the dish is communicating with moves out of view,
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the dish will switch to another satellite that is moving into view. The switching of satellites
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takes place every 15 seconds or so, and is accomplished without requiring the dish to physically move.
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Being able to track satellites as they cross the sky requires a much larger obstruction-free
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view of the sky compared to geosynchronous satellite service, which only needs a clear view of a
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single fixed point. Fortunately, Starlink has an app available for Android and iOS that can be used
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to determine where the dish should be mounted in order to have the least amount of obstructions.
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When I first mounted my dish, it was mid-February, and there were no obstructions.
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Springtime then came along, and the oak trees that surround me leaped out. This resulted in about
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four minutes of obstruction per day. Unfortunately, I did not use the app when I was making and installing
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yet another mount for the dish in order to resolve this problem with obstructions.
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The second mounting location had even worse obstructions, so it was necessary for me to make
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a third mount, one that I could reposition if necessary for the ridge line of my roof.
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My obstructions have now been reduced to zero, and the lower the obstructions, the better the
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reception. Purchasing the Starlink hardware cost me $500 US dollars. From what I have read,
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this is a significant discount as the price to produce the Starlink hardware is between
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$1,500 and $3,000. I don't have a good fix on the actual price. The hardware consists of a power
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supply, a router, and a dish with a stand, and a non-removable cable. The cable is 1.51515 chains
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in length, or 6.06 rods, or if you prefer more sane units of measure, it would be 3,048 centimeters
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long. That would be about 100 feet. Both the dish and the router receive power over their
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Ethernet cables, and so there is only one cable going to the dish and one cable going to the router,
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which makes for a very clean setup. Service-wise, I am paying $99 a month for the beta service.
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The beta service currently has no data caps. The speeds are typically between 50 and 100
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megabits per second, and the latency is usually between, I want to say, 30 and 80 milliseconds.
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While this may not be great compared to a fiber optic connection, or a cable connection,
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satellites the only thing available where I live. This is going to be a significant game-changer
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in rural areas where ISPs refuse to install infrastructure to provide internet service,
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even when those ISPs have been given millions of dollars by the federal government in order to
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build out that infrastructure. As a beta service, I find Starlink to be amazingly usable,
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especially now that I have my obstructions down to zero. The other day, I had a four and a half
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hour long video conference with one of my coworkers. There was a slight audio glitch
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three hours into the conference, but aside from that, everything held up well, and I am super
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pleased with the performance of the service. That being said, there are certainly downsides to
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having to rely upon satellite internet service. Specifically, obstructions.
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A rainstorm taking out one's internet service is certainly not desirable, but that comes with
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the territory of satellite internet. Similarly, obstructions based on trees are going to be difficult
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to deal with, and will most likely require either finding a new place to put the dish or
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firing up the chainsaw and removing some trees. Not everyone is willing to do that,
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but if a solid stable connection is the desire, then it is a necessity.
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If you happen to live in a location where the only internet options are satellite,
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or really lousy DSL coming over copper that's been allowed to degrade,
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then I'm going to highly recommend that you sign up for the Starlink Beta program at Starlink.com.
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Thank you and have a wonderful day.
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You've been listening to HECCA Public Radio at HECCA Public Radio dot org.
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We are a community podcast network that releases shows every weekday Monday through Friday.
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Today's show, like all our shows, was contributed by an HPR listener like yourself.
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If you ever thought of recording a podcast, then click on our contribute link to find out
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how easy it really is. HECCA Public Radio was founded by the digital dog pound and the
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infonomicom computer club, and it's part of the binary revolution at binwreff.com.
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If you have comments on today's show, please email the host directly, leave a comment on the website
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or record a follow-up episode yourself. Unless otherwise status, today's show is released on
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creative commons, attribution, share a like, 3.0 license.
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