If you’re struggling to think of a use-case, consider the internet-based services that are commonplace now that weren’t created until infrastructure advanced to the point they were possible, if not “obvious” in retrospect.
multimedia websites
real-time gaming
buffered audio – and later video – streaming
real-time video calling (now even wirelessly, like Star Trek!)
nearly every office worker suddenly working remotely at the same time
My personal hope is that abundant, bidirectional bandwidth and IPv6 adoption, along with cheap SBC appliances and free software like Nextcloud, will usher in an era where the average Joe can feel comfortable self-hosting their family’s digital content, knowing they can access it from anywhere in the world and that it’s safely backed up at each member’s home server.
Video calls were all over 1950s futurism articles. These things do get anticipated far ahead of time.
4K Blu-ray discs have a maximum bitrate of 128 Mbps. Most streaming services compress more heavily than that; they’re closer to 30 to 50 Mbps. A 1Gbps feed can easily handle several people streaming 4K video on the same connection provided there’s some quality of service guarantees.
If other tech were there, we could likely stream a fully immersive live VR environment to nearly holodeck-level realism on 1Gbps.
IPv6 is the real blocker. As you say, self-hosting is what could really bring bandwidth usage up. I think some kind of distributed system (something like BitTorrent) is more likely than files hosted on one specific server, at least for publicly available files.
Also going big bandwidth ahead of the requirement curve means most people won’t use it to its full extent for a while. It’s much easier to implement and maintain such network than one trying to catch up with need.
I doubt a home server centered around software like nextcloud would ever become commonplace. I think a more probable solution involves integrating new use cases with devices people already have, or at least familiar form factors. For example, streaming from your smart TV device (chromecast, Roku, Apple TV, the actual TV itself) instead of from the cloud, or file sync using one of these devices as an always-on server. But, in both of these cases, there is in inherit benefit from using a centralized cloud operator. What are the odds that you have already downloaded the episode to stream to your TV box, but not your phone if that was where you intended to watch it anyways? And for generic storage, cloud providers replicate that data for you in various locations to ensure higher redundancy and availability than what could be guaranteed simply from a home server or similar device. I presume new use cases will need to be more creative.
If you’re struggling to think of a use-case, consider the internet-based services that are commonplace now that weren’t created until infrastructure advanced to the point they were possible, if not “obvious” in retrospect.
My personal hope is that abundant, bidirectional bandwidth and IPv6 adoption, along with cheap SBC appliances and free software like Nextcloud, will usher in an era where the average Joe can feel comfortable self-hosting their family’s digital content, knowing they can access it from anywhere in the world and that it’s safely backed up at each member’s home server.
Video calls were all over 1950s futurism articles. These things do get anticipated far ahead of time.
4K Blu-ray discs have a maximum bitrate of 128 Mbps. Most streaming services compress more heavily than that; they’re closer to 30 to 50 Mbps. A 1Gbps feed can easily handle several people streaming 4K video on the same connection provided there’s some quality of service guarantees.
If other tech were there, we could likely stream a fully immersive live VR environment to nearly holodeck-level realism on 1Gbps.
IPv6 is the real blocker. As you say, self-hosting is what could really bring bandwidth usage up. I think some kind of distributed system (something like BitTorrent) is more likely than files hosted on one specific server, at least for publicly available files.
Also going big bandwidth ahead of the requirement curve means most people won’t use it to its full extent for a while. It’s much easier to implement and maintain such network than one trying to catch up with need.
I doubt a home server centered around software like nextcloud would ever become commonplace. I think a more probable solution involves integrating new use cases with devices people already have, or at least familiar form factors. For example, streaming from your smart TV device (chromecast, Roku, Apple TV, the actual TV itself) instead of from the cloud, or file sync using one of these devices as an always-on server. But, in both of these cases, there is in inherit benefit from using a centralized cloud operator. What are the odds that you have already downloaded the episode to stream to your TV box, but not your phone if that was where you intended to watch it anyways? And for generic storage, cloud providers replicate that data for you in various locations to ensure higher redundancy and availability than what could be guaranteed simply from a home server or similar device. I presume new use cases will need to be more creative.