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The 3D-PAWS project is interesting, but I don’t see the cost advantage. Commercial stations like the Ambient Weather WS-2902 are cheaper, last just as long, and already integrate with Weather Underground. What makes this design worth the extra expense?
I won't discourage anyone that wants to take things into their own hands, but this level of DIY seems too deep for me. I've gotten a great balance of reliability and open data/DIY spirit by using an off-the-shelf consumer weather station and just intercepting its signals with an RTL SDR running RTL_433 and piping the data into a prometheus instance.

Honestly, if you're in town, you're probably within radio range of someone else's station already for free.

Can anyone more knowledgeable about this topic explain why some personal weather stations like this or the Ambien Weather one mentioned below are those pretty big things that have to be installed on a pole, while some like the Netatmo weather station are just those little things you place outside? Is the difference just in being able to measure wind speed?
This is a cool project but that total cost is prohibitively expensive. This feels more like an academic proof of concept than a viable project.

It would be interesting if they could get some input from some industry experts to cost reduce and simplify for a few iterations. From a quick look at the files this appears to be what I’d expect from the dev board proof of concept stage of a project, before it was iterated on to be simplified for wider use. Hopefully they can get some time to do a few more cycles

While everyone's right that it doesn't look cheap compared to the consumer AIO weather stations on the market, that's not a fair comparison. The reason is that this project aims for a meteorologic quality implementation, where the consumer ones, even the so called "Pro" are definitely not. The requirements of the mounting of the different sensors are quite different - off-the-shelf all-in-one are not meeting those. Wind vanes must be at a certain height, which is a different than the one for the temperature and for rainfall measurement. The quality of the sensors is very important too - for stable, trustworthy measurements. And looking at the cost from the perspective of a trusted source of meteo-data installation, one can see that the real professional offerings are in the range of thousands ($$$$). Having said that, I'm pretty sure there's a room for further cost optimization without sacrificing data quality.
I've spent several years trying to get a drip water logging system working (for cave research). I have a long string of failures under my belt :))

Speaking from my experience.. the actual plastic body of the equipment is the easiest and most irrelevant part. You can 3D print it.. or even just get a bottle and cut it in half? The actual tipping bucket is also kind of ridiculous to make from scratch. There are plastic ones that are injection molded and made for pennies in China. (you'd probably need to contact the manufacturer and make an order of >1K of them). Much more interesting would be a system for calibrating them (hat's not as labor intensive as what they present

Real concerns that need solutions are going to sounds ridiculous but are actually really challenging:

- Moisture will penetrate any enclosure and fry your electronics relatively quickly if you're in the tropics. It's very very challenging to seal things completely. All sealing solutions degrade over time

- People will steal the solar panel within 48 hours. The reality is that nothing about this station needs more than a coin cell (depends a bit on how often you measure the anemometer I guess). Power solutions are not easy or cheap. Weird power issues and making your logging equipment resilient to that is hard

- Most plastics are not happy in direct sunlight. We tried some small 3D printed parts. They all "melted" and fell apart quite quickly (I'm sure some alternate 3D printing material would hold up better)

- A bird takes a massive shit in your rain gauge, what now?

- cockroach crawls into your tipping bucket mechanism and dies. what now?

- Electronics? You know loves electronics? Ants! You're gunna have a nest in all that void space

- free standing plastic enclosures. You will likely have a wasp nest within 6 months

- Exposed cables? Rats will chew through them. Plastic box? Rats will chew through them. Metal box? It'll rust through in 4 months. Where I've tested the largest animal we had to deal with were monitor lizards. I imagine in Africa you have larger animals...

Making an actual low power logger? Surprisingly challenging. The ones you can buy online are 100 USD minimum and use shitty proprietary cables/software. Have terrible power performance and aren't very waterproof

For a more serious look at this space, I'd look here:

https://thecavepearlproject.org/

Also, the most popular rain gauge manufacturer has shifted to tipping buckets to a tipping spoon design.

https://www.davisinstruments.com/products/rain-collector-tip...

I have no special insight in to why. I've look at the internals of both designs and the new mechanism is more complicated (has more component parts). But they no longer sell the tipping bucket design, so I'm guessing there is good reason they did that and there is some advantage (maybe in terms of calibration?)

I'd like to set-up/buy a weather station, but I want to avoid vendor lock-in. Preferably integrate with home assistant if possible. Any suggestions?