APT images reception » History » Version 18
Version 17 (SCHNEIDER, Joris, 03/24/2017 03:56 PM) → Version 18/35 (SCHNEIDER, Joris, 03/24/2017 04:02 PM)
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h1. APT images reception
Now we know that our antenna is receiving correctly the APT signals, we want to decode this signal and to display the weather images. At first, we used a specific software WXtoImg which demodulate directly the APT signal and do automatically all the processing to display APT images. And then we did all the demodualtion and processing by ourself using LabView. But before, we will see how we were able to track NOAA satellites and to know when were the best passes over our city.
h2. WXTrack
WXTrack is a software that was available in our laboratory. It allows to track any NOAA satellites and to get many information about the passes above a city, the duration of the pass, etc. The software interface looks like this:
p=.
!{width:90%}WXtrack.jpg!
We can see many information on the bottom part,about the next pass, the time and the duration, the current position, altitude and range of the satellite. We can also get the maximum elevation angle during one pass which is important for the quality of received signal. Indeed, the more the elevation angle is high, the better the quality is, as the satellite is closer to our antenna when the elevation is high.
Thanks to this software we were able to know when we can had the signals with the best quality.
h2. WXtoImg
h3. Tracking
We used mainly this software to decode the signal but by tunning some parameters about the minimum elevation angle we want, the minimum duration on the visibily for example, the software can also provide a list of satellite pass like this one which is very useful. It can be an alternative to WXtrack even if it is less complete.
p=.
!{width:60%}List.jpg!
h3. Processing
The software is able to scan a signal which come from the sound card of the computer. That's why we used a radio receiver similarly to the validation step, by selecting the accurate frequency depending on the satellite above the city and we connected this receiver to the sound card thanks to an audio cable. We can see the system on this picture:
p=.
!{width:70%}WXimg1.PNG!
WXtoImg has several options in order to record and process the signal. It can be either automatically recorded when the elevation is above a given threshold or manually done. Moreover, we can allow several processing techniques to get better quality pictures. One of the most important feature of this tool is the Doppler correction. During the process, we can enable or not the use of a DPLL to correct the Doppler shift and have straight pictures. Indeed, if we don't allow that, the resulting picture will contain some bends. We can see this effect on the following picture:
p=.
!{width:70%}WXimg2.PNG!
We can observe some slight bending effect.
And here is one image that we recorded using the Doppler correction:
p=.
!{width:70%}WXimg3.PNG!
h2. LabView
+*Previous :*+[[Receiving antenna building]] +*Next :*+[[Conclusion]]
h1. APT images reception
Now we know that our antenna is receiving correctly the APT signals, we want to decode this signal and to display the weather images. At first, we used a specific software WXtoImg which demodulate directly the APT signal and do automatically all the processing to display APT images. And then we did all the demodualtion and processing by ourself using LabView. But before, we will see how we were able to track NOAA satellites and to know when were the best passes over our city.
h2. WXTrack
WXTrack is a software that was available in our laboratory. It allows to track any NOAA satellites and to get many information about the passes above a city, the duration of the pass, etc. The software interface looks like this:
p=.
!{width:90%}WXtrack.jpg!
We can see many information on the bottom part,about the next pass, the time and the duration, the current position, altitude and range of the satellite. We can also get the maximum elevation angle during one pass which is important for the quality of received signal. Indeed, the more the elevation angle is high, the better the quality is, as the satellite is closer to our antenna when the elevation is high.
Thanks to this software we were able to know when we can had the signals with the best quality.
h2. WXtoImg
h3. Tracking
We used mainly this software to decode the signal but by tunning some parameters about the minimum elevation angle we want, the minimum duration on the visibily for example, the software can also provide a list of satellite pass like this one which is very useful. It can be an alternative to WXtrack even if it is less complete.
p=.
!{width:60%}List.jpg!
h3. Processing
The software is able to scan a signal which come from the sound card of the computer. That's why we used a radio receiver similarly to the validation step, by selecting the accurate frequency depending on the satellite above the city and we connected this receiver to the sound card thanks to an audio cable. We can see the system on this picture:
p=.
!{width:70%}WXimg1.PNG!
WXtoImg has several options in order to record and process the signal. It can be either automatically recorded when the elevation is above a given threshold or manually done. Moreover, we can allow several processing techniques to get better quality pictures. One of the most important feature of this tool is the Doppler correction. During the process, we can enable or not the use of a DPLL to correct the Doppler shift and have straight pictures. Indeed, if we don't allow that, the resulting picture will contain some bends. We can see this effect on the following picture:
p=.
!{width:70%}WXimg2.PNG!
We can observe some slight bending effect.
And here is one image that we recorded using the Doppler correction:
p=.
!{width:70%}WXimg3.PNG!
h2. LabView
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