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Indian Space Capabilities

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Imagery of Delhi and surrounding areas taken by cameras of remote-sensing satellite Resourcesat-2. Photo: ISRO


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Imagery of Surat and surrounding areas taken by cameras of Resourcesat-2. Photo: ISRO

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Imagery of Bareilly and its surroundings taken by the cameras of Resourcesat-2. Photo: ISRO

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Imagery of Dubai and its surroundings taken by cameras of remote-sensing satellite, Resourcesat-2. Photo: ISRO
 
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ISRO puts on hold moon mission Chandrayaan 2


The Indian Space Research Organisation (ISRO) has decided to review the entire Geosynchronous Satellite Launch Vehicle (GSLV) programme that involved two crashes last year and one in 2006.

As a result, all major launches, including the second moon mission - Chandrayaan 2 - are being rescheduled. The space agency had earlier announced that it would be using the last of the seven cryogenic engines it had sourced from Russia, but is now uncertain about it.

A meeting of the Space Commission on June 1 is expected to advice the ISRO on the future course of the GSLV, ISRO chairman Dr K. Radhakrishnan said on Saturday. "We want to make GSLV a reliable vehicle," Radhakrishnan said, adding that the reassessment of the programme is priority work considering its importance in future missions.

The derailment of the GSLV programme is going to affect the launch of Chandrayaan-2, which now stands postponed by nearly two years. It will now be launched in 2014. The next flight of GSLV with an Indian cryogenic engine is now slated for 2012. If successful, it will be used for the second moon mission in 2014.

A modified version of GSLV is the preferred vehicle for the yet-to-be cleared manned mission to moon too, for which critical technology and human safety features are being developed, scientists said. According to Radhakrishnan, the 2012-GSLV flight will be a litmus test for the space agency. "On that flight we don't want to put a high-technology satellite," he said. He informed that the launch vehicle will carry a two-tonne communication satellite called GSAT 6. If that goes well then another two-tonne satellite, GSAT 7, will be put into orbit using the GSLV.

A panel led by former ISRO chairman G. Madhavan Nair has done a failure analysis of the crash of GSLV-F06 flight on December 25 last year and identified a design problem in the shroud at the bottom of the Russian-made cryogenic stage. Cryogenic technology holds importance as it is crucial for economic and efficient launch of heavy satellites.

The Christmas day fiasco had closely followed the crash of GSLV with an Indian cryogenic phase on its test flight on April 15 last year. "The problem involved a faulty fuel pump and the precision mechanics of its motor is being tweaked by ISRO experts," Radhakrishnan said.

Earlier, the GSLV-F02 that launched INSAT-4C on July 10, 2006 was unsuccessful too. All the seven flights of GSLV so far have been reviewed by a panel led by former ISRO chairman K. Kasturirangan. The panel submitted its report in the last week of April.

A third panel that includes veteran scientists Dr APJ Abdul Kalam, Prof MGK Menon and Prof Yashpal is reviewing the two reports together and will advise ISRO accordingly, Radhakrishnan said. He added that the Russian space agency that supplied the seven cryogenic upper stages has acknowledged ISRO's concern regarding the design problem in GSLV- F06. S. Ramakrishnan, director of ISRO Liquid Propulsion Systems Centre at Valiamala, said that the problem had been noticed earlier too, though it did not cause an accident.


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Its good that finally ISRO revewing its entire GSLV programme. What we need a reliable heavy launch vehicle and it is only possible after looking into entire design of GSLV. We waited for that many years few more years wouldn't hurt.
 
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Bangalore: Launch of Indian satellite put off to May 21


Bangalore, May 16 (IANS) The launch of and Indian geo-stationary satellite (GSAT-8) on board an Ariane-V rocket from Kourou in French Guiana has been postponed by a day to May 21, the state-run Indian Space Research Organisation (ISRO) said late Monday.

"The launch postponement has been necessitated for certain additional inspection by the launch agency Arianespace. The timing of the launch will be confirmed soon," the Indian space agency said in a statement here.

The indigenously built 3.1-tonne (3,100kg) GSAT-8 has 24 Ku-band transponders for direct-to-home (DTH) services by state-run and private broadcasters.

Earlier, the European Space Agency's (ESA) informed the Indian space agency that GSAT-8 would be launched May 20 at 02:27 IST from its Kourou spaceport in South America.

Within 30 minutes after the launch, Ariane will deploy the heavy satellite in a elliptical geo-synchronous transfer orbit (GTO) and the space agency's master control facility (MCF) at Hasan in Karnataka, about 180 km from Bangalore, will take over its command and control.

The satellite will be gradually put in the 36,000km geosynchronous orbit over the subsequent days and its antenna and solar panels will be deployed. The MCF will also test and monitor the health parameters of the payloads by June 1. It will be available for DTH services from next month.

Along with GSAT-8, the space agency is sending the global position system (GPS) aided geo augmented navigation (Gagan) to improve the accuracy of the United States' GPS.
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Success of GSAT-8 and Future of India

India's advanced communication geostationary satellite, GSAT-8, was successfully launched on May 21, 2011. The satellite was put in orbit from French Guiana by the Ariane-V launch vehicle. Indian Space Research Organisation’s (ISRO) master control facility has already started acquiring signals from this satellite. It would take a few more days for this satellite to become fully operational.

GSAT-8 has 24 transponders to expand India's Ku-band relay potential. This band offers certain advantages to the user. For instance, it requires a smaller dish size of antenna and has cheaper operational cost. Also, television transmission does not get degraded during rains. Presently, India has seven communication satellites in space, which provide 151 transponders. With GSAT-8, India’s transponder capability has increased to 175. There is a need to boost this capacity further mainly because it has significant commercial utility.

GSAT-8 is also equipped with the two-channel GAGAN (GPS Aided Geo Augmented Navigation) system., which is meant for boosting GPS signals to achieve accuracy of three metres. This would assist civil aviation in a big way. GAGAN has been delayed because of the absence of suitable hardware in space. The first GAGAN transmitter was integrated into the GSAT-4, which was part of the launch mission that failed on April 15, 2010. GAGAN is expected to expand its reach up to Africa and South East Asia.

ISRO has plans for developing an autonomous regional navigation system called the Indian Regional Navigational Satellite System (IRNSS) consisting of seven satellites to cater for the requirements over the region. GAGAN would support this effort too. It is important for the Indian security establishment to factor the accuracy provided by GAGAN in their planning. At least, theoretically, if India has to conduct an operation on the lines of the US Operation Geronimo in Abottabad, GAGAN offers a better system for location identification and navigational support for flying machines.

In the case of GSAT-8, it was important to depend on France to launch this 3,100 kg made-in ISRO satellite, because India is yet to master the art of putting heavy satellites (say 2500 kg or more) into space. In December 2010, the Indian geosynchronous launch vehicle GSLV-FO6 carrying the 2,310 kg GSAT-5P satellite had failed. Earlier, in April 2010, the GSLV-D3 mission with the first Indian made cryogenic engine had also suffered failure. These twin failures were a significant blow to the Indian space programme because it demonstrated the limitations of India’s indigenously developed cryogenic technology and has raised questions about the GSLV programme. India has major ambitions in space and has achieved some significant successes in the past. However, the failures in 2010 are expected to cause significant delay in the country’s space programme, given that ISRO is expected to conduct an overall audit of its GSLV programme to identify vulnerabilities before undertaking any future launches. This appears to be a correct decision in the overall interest of the Indian space programme. However, this means that India’s second moon mission (Chandrayaan-2) is likely to get delayed further and could also impact some other programmes.

At present the principal question is: what is the future of ISRO’s indigenous cryogenic programme? How much more time would it take to test this technology again? It looks unlikely that the Russian space agency, which had provided cryogenic engines earlier, is in a position now to do the same given that it has stopped the production of these engines. This leaves ISRO with two options: continue to develop the cryogenic technology; or, continue to rely on outside support for launching satellites.

India has 30-year-old relationship with the French space agency Ariane. Since 1981, Ariane has been launching Indian satellites and could even be called as the unsung hero of India’s INSAT programme. Till date it has launched 14 satellites for India, and will launch the GSAT-10 as well in 2012.

At this point it is important for India’s strategic and technological decision makers to take note of two recent events: the success of satellite technology in Operation Geronimo to kill Osama bin Laden and the failure of India’s satellite architecture to identify the location of the accident site of the helicopter carrying the Arunachal Chief Minister. Bin Laden’s killing clearly demonstrates the relevance of satellite technology in the era of asymmetric warfare. On the other hand, India missing the signature of the crashed helicopter brings to the fore the limitations of this technology while at the same time raising questions about the quality of India’s sensor technology and satellite imagery interpretation expertise.

Presently, the security situation in India’s neighbourhood has become extremely complicated and Indian security agencies are likely to depend more on satellite technologies for the purposes of reconnaissance, communication and navigation. Each of the three Services needs dedicated satellites to cater for its requirements. ISRO was expected to launch a satellite for the Indian Navy in 2011. What is the future of this launch? Will ISRO’s plans, “to go back to the drawing board”, have any impact on India’s security preparedness? If so, does India have a Plan B in place?
 
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Build satellite service station, Kalam tells ISRO
PTI | 10:06 PM,Jun 01,2011

Bangalore, Jun 1 (PTI): Former President A P J Abdul Kalam today suggested that Indian Space Research Organisation build a space satellite service station in geo-synchronous orbit as he saw an opportunity for it in this field. Kalam, himself an aclaimed rocket scientist, said many satellites in the geo-synchronous orbit face problems relating to power and fuel after three or five years in service. He wanted ISRO to take advantage of this opportunity to service such satellites. Speaking after releasing a book titled "All About Rockets", written by S K Das, at ISRO headquarters "Antariksh Bhavan" here, Kalam also spoke about other opportunities for ISRO in the area of low cost access to space. Noting that globally, it cost USD 20,000 to launch one kg payload, he said ISRO should strive to do this for USD 2,000 using nanotechnology, single-stage and reusable techologies. Kalam also suggested that ISRO work towards building solar-powered satellites. Later, interacting with students, he said living on the Moon and Mars is a must for human beings (in some decades from now). "..because we are about six billion people (global population), going into eight billion. We need more space,more materials, more energy. So we need one more planet (to live)". He said he expects Indians to land on Moon and Mars in the 2025-2035 timeframe
 
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GSAT-12 to be launched in July second week

Special Correspondent
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GSAT-12 to be launched from Sriharikota on a PSLV C-17

Built at a cost of Rs.148 crore, it has 12 transponders
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BANGALORE: On the heels of the successful launch of its communication satellite GSAT-8, the Indian Space Research Organisation (ISRO) is gearing up to launch the next communication satellite GSAT-12 in the second week of July.

Announcing this at a news conference here on Wednesday, ISRO Chairman K. Radhakrishnan said the satellite would be launched from Sriharikota on a PSLV C-17 vehicle.

It would be moved from Bangalore to Sriharikota on Thursday for conducting various pre-launch tests. The assembling of the launch vehicle had also commenced.

GSAT-12, built at a cost of Rs.148 crore, has 12 transponders in an extended C-Band and will help users in the field of tele-medicine, tele-education, social services, etc. The launch vehicle was expected to cost about Rs.100 crore.

Dr. Radhakrishnan said the services of GSAT-8 satellite, launched on May 21, was expected to be available for users by June-end. In-orbit tests of transponders of the satellite would be held for three weeks, from Thursday. The satellite had been put on 55 degree east of geo-station orbit on Wednesday. Users of some of the decommissioned satellites would be moved to this, he said.

Referring to the recommendations made by a committee which looked into the failure of GSLV in December 2010 and another committee that examined the entire GSLV programme, Dr. Radhakrishnan said ISRO had now decided to “put all the focus” on developing indigenous cryogenic engines that powered Mark-II launch vehicles.

He said there were no major problems with respect to the design.

However, discussions had started with Russia regarding finetuning of the engine procured from them.

Special Correspondent reports:

As a fall-out of the controversial S-Band deal, ISRO's commercial arm — Antrix Corporation — is all set to get a full-time Chairman and Managing Director in a couple of weeks. Dr. Radhakrishnan said the Space Commission had cleared the recommendation of the name made by a three-member committee, comprising himself, Principal Scientific Adviser to the Government of India R. Chidambaram, and Space Commission Member (Finance) Venkatesh Bhat and had been forwarded to the Prime Minister for clearance.

He said Antrix would be strengthened by getting more full-time experts with significant experience. Its performance would be reviewed every year by the Space Commission.

Besides, an ISRO team would monitor and coordinate with it, he noted.

Noted Scientist Roddam Narasimha, who is part of the two-member panel which probed the controversial Antrix-Devas deal, said the committee had submitted its report to the Prime Minister, but refused to divulge any details.

“We have done our duty. Let the Prime Minister take a decision on the report.”
 
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The thread is ok, but what is the use of it in posting in this forum? I hvnt seen any commendable relpy from our neighbour..
But yes this is the most potent area where both Pakistan and India can jointly explore as a CBM.. Why dont we try it? We have too many differences, lets try something in common and do something productive.. Do not take it as a troll.. :pakistan::welcome:

PS: Mod, I wanted to put an Indian Flag but its not there.. Arrange for a Flag at the earliest..
 
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ISRO to flight test indigenous cryogenic stage onboard GSLV-D5

ISRO to flight test indigenous cryogenic stage onboard GSLV-D5 - Technology news

Tirunelveli: India will undertake the flight test of its indigenous cryogenic stage on board homegrown rocket GSLV-D5 which will launch GSAT-14 by the middle of 2012, a top ISRO official has said.
ISRO to flight test indigenous cryogenic stage onboard GSLV-D5


A facility for static testing of the cryogenic engine would be ready in another two months at ISRO's Liquid Propulsion's Systems centre (LPSC) at Mahendragiri in this district, Indian Space Research Organisation Chairman K Radhakrishnan said.

The new thrust chamber facility for static testing would be a big boon for the LPSC, Radhakrishnan told reporters at the LPSC yesterday after inaugurating a two-day National Conference on "Expanding Frontiers in Propulsion Technology.

The maiden flight test of the indigenous cryogenic stage by ISRO onboard Geosynchronous Satellite Launch Vehicle GSLV-D3 ended in a failure in May, 2010 after the stage developed some snag and the rocket plunged into sea minutes after liftoff.
 
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Satellite to operate GAGAN sys in position: Official
GAGAN ISRO Aviation
Posted On: Jun 26, 2011
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A file photo
NEW DELHI (PTI): The satellite to operate the GPS-Aided Geo Augmented Navigation (GAGAN) system that will offer seamless navigation to air traffic over the Indian Ocean and the Indian airspace has been positioned.

"The initial phase is now over. The satellite is now in position," Airports Authority of India Chairman V P Agarwal said here.

"We are now going through the certification stage of the Satellite-Based Augmentation System (SBAS) and we will have certification of the system by June 2013," he said at a recent workshop on aviation safety organised by the Aviation Watch journal.

Along with trials, GAGAN's certification process is being carried out with Directorate General of Civil Aviation and other bodies, with the AAI and the Indian Space Research Organisation (ISRO) developing it.

India would become the fourth country in the world to adopt this system which would enhance the accuracy and integrity of GPS signals to meet precision approach requirements in the civil aviation, official sources said.

Others using similar technologies are the US, the European Union and Japan.

Once operational, GAGAN would provide augmented information for satellite navigation to aircraft flying over Indian airspace and routes over high seas with high level of accuracy, integrity and continuity during the entire flight operations - from take-off to landing, they said.

The GAGAN transmitter is to be integrated with the Geosynchronous Satellite Launch Vehicle (GSLV) to provide an SBAS over Indian airspace.

The project is currently in the final operational phase and is scheduled to be completed by June 2013.
 
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India mulls options on human space flight programme


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India is weighing the pros and cons of going in for collaboration for its ambitious human space flight programme but a final decision would be driven by the extent of technological gains accrued to New Delhi from it.

Different models are possible in undertaking the proposed mission, first mooted nearly a decade ago, Chairman of Indian Space Research Organisation K. Radhakrishnan told PTI.

Mr. Radhakrishnan, also Secretary in the Department of Space and Chairman of Space Commission, said there is a lot of discussion globally on collaboration in human space flight programmes (not India—specific, but general in nature).

“So, then, we should decide what we have to do in this area. There are different models available,” he said.

One possibility is to have a human being (Indian) flown in Soyuz (Russian rocket) or some other system. “It’s like paying the money, getting into it, conduct a small experiment and come back. That’s one part of it,” he said.

Another model is to make a crew module indigenously and use a man-rate vehicle (rocket) of a foreign space agency, and the third option for India is to develop the rocket and associated technologies on its own and undertake the mission.

“All these things are there. The question is how much technology you will earn, what benefit you will get out of it (in case of collaboration). One has to weigh it because you (India) must have a long-term programme for it (human space flights). We are not doing for the sake of doing it (the human space flight mission) actually,” Mr. Radhakrishnan said.

“The question is when you take it (the programme) into future direction, how does it help you,” Mr. Radhakrishnan said.

All these models are possible. We are not closed on any of these options. But one has to study as to how does it lead you to the future,” he added.

Asked if ISRO would initiate discussions with US and Russian space agencies for possible collaboration, he said, “All these discussions will take place,” and added that the entire space community is generally interested in such programmes (internationally).

On whether India is open to collaboration on this programme, Mr. Radhakrishnan said “there are no hard positions on this. But one has to look at it.” “We have to weigh pros and cons. Finally, (the decision depends on) what benefit India gets in the immediate term and in the long term.” Even as it weighs options, ISRO is busy working on critical technologies needed for this complex mission.

The programme envisages the development of a fully autonomous orbital vehicle carrying two or three crew members to about 300 km low earth orbit and their safe return.

Three major areas that ISRO needs to master are, environmental control and life support (ECLS) system, crew escape system and flight suite and it’s currently working on them, under pre-project studies for which the Government sanctioned Rs 145 crore.

ISRO conducted initial studies for four years from 2002 to examine the technological challenges for the programme, then called manned space mission, and Indian capability.

In 2006, about 80 senior scientists from across the country who attended a meeting convened by ISRO, were highly appreciative of the study conducted by the space agency and unanimous in suggesting that the time is appropriate for India to undertake such a mission.

Since then, the Space department has been engaged in pre-project activities to study technical and managerial issues related to undertaking the mission with an aim to build and demonstrate the country’s capability.

At the time, the preliminary estimated cost for the proposed mission was Rs 10,000 crore spread over a period of eight years, including setting up mission-specific facilities.

Subsequently, it was scaled up to Rs 12,400 crore in 2007-08.

ISRO officials indicated then in private that the mission could take place in 2015-16 time-frame if every thing went as planned but the space agency had never committed itself on the likely dates, always maintaining that seven to eight years are needed once the project is taken up.

Even today, the project, per se, is yet to be taken up though work on various technologies is underway.

The twin-failure of the home-grown rocket, GSLV, last year -- one with indigenous cryogenic engine and stage, and another with the imported Russian one -- has certainly put the clock back by two-three years.

Asked if one could expect the human space flight only towards the end of this decade, Mr. Radhakrishnan refused to commit a time-frame.

“See, it takes its own time. You have to have that time. You have to have your vehicle (rocket),” he said.

Bangalore-headquartered ISRO said its PSLV (rocket) cannot be used for such a mission as it does not have capacity and GSLV-MK II has a limitation that it can take only two persons. GSLV-MK III which is under development certainly can take three persons with some more space left.

“When you have to take up human-rating activity, you have to decide on which vehicle. So the vehicle has to be (first) proved for unmanned flight. We are at that stage now. So, we have to decide whether GSLV—MK II or MK III that we will do this human rating,” he said.

“Then, we can have the mission. Without a vehicle, talking about a mission has not much of a challenge actually,” the ISRO Chairman said.

ISRO says it has to have a couple of good flights of GSLV before it could talk about the mission per se. “First priority is to have GSLV flight with indigenous cryogenic and meeting the mission requirements,” he said.

The next GSLV flight is scheduled only after April next year. Mr. Radhakrishnan said, the human space flight mission can take place seven years from the project’s start, which he would not be able to say right now.

“Let’s not talk about the mission, per se. But critical technologies we are working on,” he said.

He said a number of mission-specific facilities, such as one for astronauts, mission control centre and launch pad, need to be established.

The selected astronauts would have to undergo a training course for two-and-half-years.



The Hindu : Sci-Tech / Science : India mulls options on human space flight programme
 
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Sriharikota: India's latest communication satellite, G-SAT 12, was launched today from the Satish Dhawan Space Centre (SHAR) in Sriharikota in Andhra Pradesh.

The satellite was launched using the Polar Satellite Launch Vehicle (PSLV).

For the present mission, PSLV-XL, a more powerful version of the rocket, was used for the launch.

GSAT-12, weighing 1,410 kg and equipped with 12 Extended-C band transponders, will augment communication capabilities in telemedicine, tele-education and telephone and other services.

In PSLV-XL version, six extended solid strap-on motors carrying 12 tonnes of solid propellant in total are being used as against nine tonnes in a standard PSLV variant, K Radhakrishnan, chairman of the Indian Space Research Organisation (ISRO) said.

The cost of the rocket is Rs. 90 crore while the satellite, GSAT-12, costs Rs. 80 crore but both are not insured.

This is the second time such a powerful configuration had been deployed, after it was used to put Chandrayaan-I into orbit in 2008.

For the PSLV, this will be the 19th mission with the last 17 flights proving successful. This is the second PSLV launch this year after the PSLV-C16 in April when the rocket lofted Resourcesat-2 and two other micro satellites into orbit.

Two more launches of the PSLV are expected later this year.

The ISRO was forced to use the PSLV as its other launch system, the Geosynchronous Satellite Launch Vehicle (GSLV), is out of commission due to repeated failures.
 
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