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Isro Successfully Puts Into Orbit 7 More Satellites, Following SCATSAT-1

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Published September 26, 2016
SOURCE: IANS

Isro_1474875511638.jpeg


India on Monday morning successfully put into orbit its own weather satellite SCATSAT-1 and seven others – five foreign and two domestic – in a copy book style.With this, India successfully completed yet another multiple satellite launch in a single rocket mission and is marching forward towards the milestone of 100 foreign satellite launches.

With this success, India has successfully launched 79 satellites for international customers.Interestingly, this was also PSLV’s longest launch spread over two hours and 15 minutes.The Indian space agency Isro also put into commercial use its multiple burn technology in its rocketPolar Satellite Launch Vehicle (PSLV). Simply put multiple burn technology is the switching off and switching on of a rocket’s engine in space mainly to deliver satellites in two different orbits.

“Today is a land mark day. Using the PSLV rocket we achieved he launch of eight satellites,” A.S.Kiran Kumar, Chairman, Indian Space Research Organisation (ISRO) said soon after the launch.

“After a long gap of two hours, the entire mission was completed successfully,” the chairman added.

Vikram Sarabhai Space Centre (VSSC) director K. Sivan said, “The mission was exciting and the longest one. The other landmark mission to be done this year will be the GSLV-Mk 3 rocket.”

Exactly at 9.12am the PSLV rocket standing 44.4 metres tall and weighing 320 tonnes tore into the morning skies with fierce orange flames at its tail.

Gathering speed every second the rocket raced towards the heavens amidst the cheers of the Isro officials and the media team assembled at the rocket port here.

At the rocket mission control room, Indian space scientists at Isro were glued to their computer screens watching the rocket escaping the earth’s gravitational pull.

Seventeen minutes into the flight the rocket’s main cargo, the 371kg SCATSAT-1 – for ocean and weather related studies – was injected into a 730 km polar sun synchronous orbit.

The remaining seven satellites were also placed in a 689 km polar orbit after a long time lag.

These seven satellites include five foreign satellites: three from Algeria (Alsat-1B 103kg, Alsat-2B 117kg, Alsat-1N 7kg), and one each from Canada (NLS-19, 8kg) and US (Pathfinder-44kg).

The two other Indian satellites are: Pratham (10kg) built by Indian Institute of Technology-Bombay (IIT-B) and Pisat (5.25 kg) from PES University, Bengaluru and its consortium.
Although SCATSAT-1 is a follow-on mission for Oceansat-2 improvements have been made in the satellite’s hardware configuration based on lessons learnt from Oceansat-2 instruments.

Also SCATSAT-1’s payload has been characterised with the objective of achieving data quality for Climate Data Records, apart from facilitating routine meteorological applications, the Isro said.

The Isro said, SCATSAT-1’s scatterometer will provide wind vector data products for weather forecasting, cyclone detection and tracking services to the users.

The satellite carries Ku-band scatterometer similar to the one flown onboard Oceansat-2.

The mission life of the satellite is five years.

According to Isro, the two Algerian satellites Alsat-1B and Alsat-2B are remote sensing satellites while Alsat-1N is a technology demonstration nano satellite for Algerian students.

On the other hand, the US satellite Pathfinder-1 is a commercial high resolution imaging micro satellite while the Canadian NLS-19 satellite is la technology demonstration nano satellite for experimentation in helping to reduce space debris and for tracking commercial aircraft.

The IIT-B’s satellite Pratham’s mission objective is to estimate the total electron count with a resolution of 1km x 1km location grid while Pisat from PES University and its consortium is a nano satellite for remote sensing applications.

After slinging SCATSAT-1 into its orbit the rocket’s fourth stage was restarted one hour 22 minutes into the flight and cut off around 20 seconds later.

Two hours and 11 minutes into the flight the fourth stage was again be restarted to be cut off one minute later.

Following that in three minutes all the seven satellites were ejected putting an end to PSLV’s longest mission till date.

The PSLV rocket is a four stage/engine rocket powered by solid and liquid fuel alternatively.

On Sunday, Sivan told IANS that the long time gap between the cutting off of the engine and its restart was not an issue.

The director said the first time the multiple burn technology was first tested by Isro while flying its PSLV rocket on December 16 2015 and in June 2016, the technology was again demonstrated.

About the challenge, Sivan said: “After cutting off the engine, its condition should be brought to such a stage that it could be restarted again. The next challenge is to controlling the engine and bringing it so as to eject the remaining satellites into a different orbit.”

He said the rocket has GPS aided navigation system so that data generated by the rocket’s inertial navigation system and the one provided by the former will be blended so as to erase and errors and to generate a precise data.
 
. . . . .
Published September 26, 2016
SOURCE: IANS

Isro_1474875511638.jpeg


India on Monday morning successfully put into orbit its own weather satellite SCATSAT-1 and seven others – five foreign and two domestic – in a copy book style.With this, India successfully completed yet another multiple satellite launch in a single rocket mission and is marching forward towards the milestone of 100 foreign satellite launches.

With this success, India has successfully launched 79 satellites for international customers.Interestingly, this was also PSLV’s longest launch spread over two hours and 15 minutes.The Indian space agency Isro also put into commercial use its multiple burn technology in its rocketPolar Satellite Launch Vehicle (PSLV). Simply put multiple burn technology is the switching off and switching on of a rocket’s engine in space mainly to deliver satellites in two different orbits.

“Today is a land mark day. Using the PSLV rocket we achieved he launch of eight satellites,” A.S.Kiran Kumar, Chairman, Indian Space Research Organisation (ISRO) said soon after the launch.

“After a long gap of two hours, the entire mission was completed successfully,” the chairman added.

Vikram Sarabhai Space Centre (VSSC) director K. Sivan said, “The mission was exciting and the longest one. The other landmark mission to be done this year will be the GSLV-Mk 3 rocket.”

Exactly at 9.12am the PSLV rocket standing 44.4 metres tall and weighing 320 tonnes tore into the morning skies with fierce orange flames at its tail.

Gathering speed every second the rocket raced towards the heavens amidst the cheers of the Isro officials and the media team assembled at the rocket port here.

At the rocket mission control room, Indian space scientists at Isro were glued to their computer screens watching the rocket escaping the earth’s gravitational pull.

Seventeen minutes into the flight the rocket’s main cargo, the 371kg SCATSAT-1 – for ocean and weather related studies – was injected into a 730 km polar sun synchronous orbit.

The remaining seven satellites were also placed in a 689 km polar orbit after a long time lag.

These seven satellites include five foreign satellites: three from Algeria (Alsat-1B 103kg, Alsat-2B 117kg, Alsat-1N 7kg), and one each from Canada (NLS-19, 8kg) and US (Pathfinder-44kg).

The two other Indian satellites are: Pratham (10kg) built by Indian Institute of Technology-Bombay (IIT-B) and Pisat (5.25 kg) from PES University, Bengaluru and its consortium.
Although SCATSAT-1 is a follow-on mission for Oceansat-2 improvements have been made in the satellite’s hardware configuration based on lessons learnt from Oceansat-2 instruments.

Also SCATSAT-1’s payload has been characterised with the objective of achieving data quality for Climate Data Records, apart from facilitating routine meteorological applications, the Isro said.

The Isro said, SCATSAT-1’s scatterometer will provide wind vector data products for weather forecasting, cyclone detection and tracking services to the users.

The satellite carries Ku-band scatterometer similar to the one flown onboard Oceansat-2.

The mission life of the satellite is five years.

According to Isro, the two Algerian satellites Alsat-1B and Alsat-2B are remote sensing satellites while Alsat-1N is a technology demonstration nano satellite for Algerian students.

On the other hand, the US satellite Pathfinder-1 is a commercial high resolution imaging micro satellite while the Canadian NLS-19 satellite is la technology demonstration nano satellite for experimentation in helping to reduce space debris and for tracking commercial aircraft.

The IIT-B’s satellite Pratham’s mission objective is to estimate the total electron count with a resolution of 1km x 1km location grid while Pisat from PES University and its consortium is a nano satellite for remote sensing applications.

After slinging SCATSAT-1 into its orbit the rocket’s fourth stage was restarted one hour 22 minutes into the flight and cut off around 20 seconds later.

Two hours and 11 minutes into the flight the fourth stage was again be restarted to be cut off one minute later.

Following that in three minutes all the seven satellites were ejected putting an end to PSLV’s longest mission till date.

The PSLV rocket is a four stage/engine rocket powered by solid and liquid fuel alternatively.

On Sunday, Sivan told IANS that the long time gap between the cutting off of the engine and its restart was not an issue.

The director said the first time the multiple burn technology was first tested by Isro while flying its PSLV rocket on December 16 2015 and in June 2016, the technology was again demonstrated.

About the challenge, Sivan said: “After cutting off the engine, its condition should be brought to such a stage that it could be restarted again. The next challenge is to controlling the engine and bringing it so as to eject the remaining satellites into a different orbit.”

He said the rocket has GPS aided navigation system so that data generated by the rocket’s inertial navigation system and the one provided by the former will be blended so as to erase and errors and to generate a precise data.

@PatriotLover ..hey dude!! u forgot to piss here
 
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Three cheers for ISRO. ISRO follow time regime strictly and it eats what it can chew unlike DRDO which starts 20 projects and is unable to complete a single one in time
 
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Kudos to ISRO.The name SCATSAT sounds obscene though.

NASA has one of theirs named similarly too:

http://www.jpl.nasa.gov/missions/iss-rapidscat/

rapidscat...quickscat o_O

Now this is interesting.... I wonder why they did it :angel:

Damn this is actually interesting. I have heard about satellite positioning and even probe missions planning to use GPS signals for augmentation (in fact an acquaintance of a friend did his masters in the viability of this)....but ISRO has just went ahead and done it.....not a damn #$@% given.

https://www.technologyreview.com/s/401315/gps-in-space/

http://digitalcommons.usu.edu/cgi/viewcontent.cgi?article=2078&context=smallsat
 
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The launch costs around 20-22 million $ way below its competitors.

I am only waiting for December 2016 GSLV MK3 launch, if it is successful then Falcon-9 has serious competition.
 
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