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Indian Regional Navigation Satellite Starts Signal Transmissions

thestringshredder

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Scientists from the German Aerospace Center’s Institute of Communications and Navigation in Oberpfaffenhofen, Germany, have received signals from IRNSS-1A, the first satellite in the Indian Regional Navigation Satellite System.

Launched on July 1, 2013, the satellite reached its designated inclined geosynchronous orbit by July 18 with an inclination of 27 degrees and an equator crossing of 55 degrees east longitude. Indian Space Research Organisation (ISRO) chairperson Dr. K. Radhakrishnan announced on July 18 that testing of the satellite’s navigation payload would begin within a week.

On July 23, the German Aerospace Center scientists pointed their 30-meter dish antenna at Weilheim towards the satellite and found that it was already transmitting a signal in the L5 frequency band.

Fig1-W.jpg

FIGURE 1. Spectrum of IRNSS-1A L5 signal.

Figure 1 shows the spectrum of the received signal. Centered at 1176.45 MHz, the signal has a single symmetrical main lobe and a number of side lobes characteristic of a spread-spectrum signal. The corresponding IQ constellation diagram is shown in Figure 2. The signal structure appears to be unlike those used by the GPS, GLONASS, Galileo, or BeiDou constellations. Further analysis will be required to sleuth the signal details as ISRO, so far, has not publicly released an IRNSS interface control document (ICD). ICDs characteristically describe a satellite system’s signal structure in detail.

Fig2-W.jpg

FIGURE 2. IQ constellation diagram of IRNSS-1A L5 signal.

The German scientists caution that “this is a very early snapshot of the current signal transmission and probably both the signal power and the signal quality will change and possibly improve during the in-orbit-testing phase of the satellite’s operation.”

Link - Indian Regional Navigation Satellite Starts Signal Transmissions | idrw.org
 
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Why would german scietists test this, why not ISRO?

Anyone can receive transmissions from a satellite. Even your normal Sky Dish Set. It is more a matter of decoding the signal. Signal is always there. The Germans just received the signal. Cannot decode though. ISRO can. It is their signal!
 
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But ISRO make press confrence on this news without tasting themself.

ISRO must be carrying out it's own tests as well.

I think this is a huge way forward for our space program and we should share it's fruits with our friendly neighbors and the international community as well.
 
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Why would german scietists test this, why not ISRO?
I Guess, they are not testing but just proactively sharing the information gathered by their satellite receiving centre. As I understand from the official publications from ISRO, there is no mention of third part being involved in any kind of testing of IRNSS.


Not sure. I am sure these signals are encrypted and the encryption can be controlled by ISRO.

IRNSS would provide two types of services, namely, Standard Positioning Services (SPS) - provided to all users - and Restricted Services(RS) , encrypted one, for authorised users (military).
 
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IRNSS would provide two types of services, namely, Standard Positioning Services (SPS) - provided to all users - and Restricted Services(RS) , encrypted one, for authorised users (military).

Just like what the GPS service provides.

I guess even the SPS will have a provision of being selectively denied when needed in an emergency situation.
 
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Just like what the GPS service provides.

I guess even the SPS will have a provision of being selectively denied when needed in an emergency situation.

may be this throws some light..

IRNSS will have a network of twenty one ranging stations geographically distributed primarily across India. They provide data for the orbit determination of IRNSS satellites and monitoring of the navigation signals. The data from the ranging/monitoring stations is sent to the data processing facility at INC where it is processed to generate the navigation messages. The navigation messages are then transmitted from INC to IRNSS satellites through the spacecraft control facility at Hassan/Bhopal. The state of the art data processing and storage facilities at INC enable swift processing of data and support its systematic storage.

Welcome To ISRO :: Press Release :: May 28, 2013
 
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One question.
Isnt the satellite geostationary?
Looking towards all the time.

Then how the hell did Germans recieved the transmission.
 
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One question.
Isnt the satellite geostationary?
Looking towards all the time.

Then how the hell did Germans recieved the transmission.

This Sat has a static coverage area unlike leo sats. If the coverage area covers Germany, they can receive the signal.

fig121.jpg


From the fig., Germany is in region c that correspondence to visibility of 4 or less sats. So IRNSS-1 is one of those sats.
 
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How did Germans receive signal? I didn't know IRNSS covers Germany?

Can anyone explain?
 
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One question.
Isnt the satellite geostationary?
Looking towards all the time.

Then how the hell did Germans recieved the transmission.

Anybody can detect a signal, but only the designated stations can utilise it. Way back in 1960; when the Russians launched the first-ever Satellite Sputnik-1; a station in Bochum, Germany detected it and that is how the world got to know of it. Because the Russians had not said anything. But that was all.
Only ISRO will be able to decode and utilise the signals.
 
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