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Can you point me to which type of installation you’re attempting? You should be able to safely ignore that part if you won’t be accessing it from the outside world. You’ll just be accessing it using the local IP address and port.
Can you point me to which type of installation you’re attempting? You should be able to safely ignore that part if you won’t be accessing it from the outside world. You’ll just be accessing it using the local IP address and port.
No, unfortunately they’re completely different things. This method is definitely not easy, at least the way I see it in my head. I had a chance to look it up and the tool I’m thinking of is called Immich-Go. It requires Immich, so getting everything set up would be a PITA.
The steps would be:
I’m not sure about proton, but there are some tools for importing Google Takeout images into Immich (an open source Google Photos replacement). The tools stitch back together the pictures and xml files.
Just going off memory, the tools I’m thinking of typically work directly with Immich, but maybe there’s an option to simply dump the pictures into folders. Worth looking into!
I recently switched to Dockge and it suites my needs. I like some aspects of Dockge better, but I like the network and image management features of portainer.
Oh cool, this looks like something I’d really like. I’ve been using a paid Android app called Simply Auto which is excellent, but self hosting is more fun.
Does this work with all insurance again? I think it stopped working for instances on 0.19.4 and higher last I heard.
Cool, nice.
A reverse proxy needs you to forward ports 80 and 443, unfortunately.
At the bottom of the page (in a browser)
At the bottom of the page (in a browser) click ModLog and search for your username.
Take a deep breath…
If they let everyone upload, the place would likely go to shit really fast. Poor quality uploads, unseeded uploads, uploads that nobody can download because the seeder doesn’t have a decent internet connection, viruses, illegal images, you name it.
So of course there’s a process. It’s up to you to figure it out, so figure it out. The website that I found isn’t loading for me right now, but the last time I was looking at it, it was very easy to find the post explaining how it all works, and I don’t even have an account there.
Just checking. Anyone can create an account, but uoad privileges there require an application. They have some basic requirements like upload speed, ability to leave things seeded after upload, etc.
I don’t know any details because I don’t have an account there. I just read whatever is available in the FAQ.
I have a bunch of z-wave, too. Z-wave and Zigbee, I think, only broadcast when needed. That’s why they’re much more battery friendly. If they’re plugged in, they do more listening and re-broadcasting to do what you’re talking about.
Wifi has, relatively, a ton more traffic. DHCP renewals, keep-alive messages, and basically always listening all the time to see if something is looking for it. That being said, these smart switches use very little data overall. Unifi shows them using about 700 bits per second, which is 0.0007 Mbps.
Actually now that I think about it, without more than 1 access point, everything will all be on the same channel. I have 3 different channels due to having 3 different access points, all set to individual channels. This reduces conflicts (more than one device trying to use the same channel at the same time, a weakness of wifi).
As of right now, my “busiest” access point has 23 devices connected to it on 2.4 GHz. The AP is reporting that channel being 23% utilized. Still, I wouldn’t want anywhere near 100% utilization. Things would certainly slow down as it gets higher.
Newer versions of WiFi reduce this problem, but smart devices use whatever is cheap and effective. 2.4 GHz travels better through walls and has better range compared to 5 GHz, but 5 GHz is faster and has more available channels.
I currently have 54 things connected to WiFi in my house. Only 10 of those are connected to 5 Ghz. The rest only support 2.4.
With one good access point it would probably work no problem. I have 3 access points due to the layout of my house.
Use channels 1, 6, and/or 11. Those are the only channels that don’t overlap with other channels. If you live in a dense area, 2.4 gets tricky. 5 is easier, because more channels.
They work like regular switches. The flip of the physical switch sends the change back to home assistant to keep everything synchronicity.
I don’t have any, though, so I’m not sure if you can set it to “up is always on”, or if it ends up being a switch, so “whichever direction just changes the on/off state”
Did you apply?
“Easy” might just be relevant to your experience. You can follow along with the Ansible instructions, or go your own way with Docker and Docker Compose.
Both methods require a bit of work to get spun up, but it’s not too bad.
Thanks for posting this!
Ah, good point.