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projects:meteorological_station_weather_station [2016/04/16 21:47] – fantawams | projects:weather_station [2017/07/10 09:14] – fantawams | ||
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^ Project | Meteorological station aka weather station | ^ Project | Meteorological station aka weather station | ||
^ Description | A tool to measure things like temperature, | ^ Description | A tool to measure things like temperature, | ||
- | ^ Status | Planning | + | ^ Status | on hold | |
^ Trac | [[https:// | ^ Trac | [[https:// | ||
^ Contact | [[: | ^ Contact | [[: | ||
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^Wind-force | Planning ^ | ^Wind-force | Planning ^ | ||
^Wind direction | Planning ^ | ^Wind direction | Planning ^ | ||
- | ^UV radiation | Planning | + | ^UV radiation | Running |
^Green energy power source | Planning ^ | ^Green energy power source | Planning ^ | ||
^Solarpower per day/ | ^Solarpower per day/ | ||
^Windpower per day/ | ^Windpower per day/ | ||
^Waterpower per day/month year | Planning^ | ^Waterpower per day/month year | Planning^ | ||
- | ^Communication | + | ^Powerusage |
+ | ^Communication | RF running unidirectional | ||
^Radioactivity | Planning ^ | ^Radioactivity | Planning ^ | ||
^Aires quality | Planning ^ | ^Aires quality | Planning ^ | ||
^Flame detection | Planning^ | ^Flame detection | Planning^ | ||
- | ^Barometric pressure | Planning | + | ^Barometric pressure | Running (over SPI) ^ |
^Rain quantity | Planning ^ | ^Rain quantity | Planning ^ | ||
^Lightning detection | Planning^ | ^Lightning detection | Planning^ | ||
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^Status over email by danger | Planning ^ | ^Status over email by danger | Planning ^ | ||
^SpaceApi integration | Planning ^ | ^SpaceApi integration | Planning ^ | ||
+ | ^Encryption | If possible ^ | ||
+ | ^Radiostation | Thinking about it^ | ||
^Links for the Docu | Planning ^ | ^Links for the Docu | Planning ^ | ||
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Measuring things is already pretty cool, but we also need to have something, where we can look at what we measure. So we are going to need some kind of display. For that purpose we are going to integrate an E-Ink Display with some fancy images, our actual status of our measurements and of course an forecast for the weather itself. The advantage of an E-Ink display is, it only needs an power source if it changes the page and you have always an good view on it no madder how bright the light may be. \\ | Measuring things is already pretty cool, but we also need to have something, where we can look at what we measure. So we are going to need some kind of display. For that purpose we are going to integrate an E-Ink Display with some fancy images, our actual status of our measurements and of course an forecast for the weather itself. The advantage of an E-Ink display is, it only needs an power source if it changes the page and you have always an good view on it no madder how bright the light may be. \\ | ||
\\ | \\ | ||
- | Like everything we need a good power source for our station. Naturally for the indoor part we use our regular 230V electricity network, but what about our outdoor part, there we don't have any electricity. For that purpose we are going to use solar and wind power in the day and batteries for the night which are recharged with our green energy in the day. \\ | + | Like for everything |
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- | All that's left now. is a way to get our informations from our measure point to our station. The easiest way to solve this, is to use an cable, but who knows if that's always possible, perhaps the two locations are far away or you just don't have the space for it. So we are going to use wireless communication. For indoors it's the best option to use a 2,4GHz tool, so you may use it with you wifi at home. For outdoors, there is a major problem with the temperature because there might be -20°C at night in winter and most purchasable 2,4GHz tools stop working probably at 0°C. In this case it's best to use an RF communication, | + | All that's left now. is a way to get our informations from our measure point to our station. The easiest way to solve this, is to use an cable, but who knows if that's always possible, perhaps the two locations are far away or you just don't have the space for it. So we are going to use wireless communication. For indoors it's the best option to use a 2,4GHz tool, so you may use it with you wifi at home. For outdoors, there is a major problem with the temperature because there might be -20°C at night in winter and most purchasable 2,4GHz tools, stop working probably at 0°C. In this case it's best to use an RF communication, |
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Now, if all our prototypes work, you can built your own fancy weather station for your own purpose. I hope you will enjoy building it and have success. \\ | Now, if all our prototypes work, you can built your own fancy weather station for your own purpose. I hope you will enjoy building it and have success. \\ | ||
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- | I know there are a tons of ways to get to the mark and i am not saying, my way is the best, but it works for me. If you want an documentation, | + | I know there are a tons of ways to get to the mark and i am not saying, my way is the best, but it works for me. If you want an documentation, |
+ | |||
+ | ===== Software ===== | ||
+ | |||
+ | * http:// | ||
+ | * https:// | ||
+ | * https:// | ||
+ | * http:// | ||
+ |