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Indian Space Capabilities


Wednesday, Jun 24, 2009

TIRUCHI: Scientists of Indian origin at National Aeronautics and Space Administration (NASA) have evinced interest in moving to Indian Space Research Organisation (ISRO) after the Chandrayaan – 1 success, Mylswamy Annadurai, Project Director, Chandrayaan 1 & 2, said here.

“Scientists have begun to approach the ISRO. Their requests will be considered on a case to case basis in keeping with our requirements.”

It will be done without disturbing the equilibrium of motivation among the ISRO scientists, Mr. Annadurai said.

He was hopeful of accomplishing the Rs. 425-crore Chandrayaan – 2 project by 2012. The satellite with a payload of 2,700 kg to be launched using Geosynchronous Satellite Launch Vehicle will be engineered to send two rovers on moon surface for a duration between six months to one year for carrying out chemical analysis of samples through laser induced heating.

As of now, 150 scientists and engineers, including Russians, are working on the project. A parallel process is on for accomplishing manned mission to Moon by 2015, Mr. Annadurai said.

On its part, the ISRO was contributing to avoid possibilities for space debris by cataloguing the locations of the existing satellites prior to making launches, propelling geostationary satellites above the orbit before the end of its utility period, and increasing the lifespan of the satellites, he said, responding to another question.

The Hindu : Tamil Nadu / Tiruchi News : Indian brains at NASA want to move to ISRO
 
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Jun 24, 2009

The CRPF will soon approach the ISRO for expeditious satellite imaging and video mapping of all Naxal-infested areas, so that it can carry out special operations against the Maoists with precision.

With the government's thrust on flushing out Naxals, the paramilitary force will take the help of ISRO as also the National Technical Research Organisation (NTRO) for satellite mapping of forests and hills under control of the Left-wing militants, official sources said.

Aerial videography of the forests and hills in Chhattisgarh and Jharkhand is currently underway, they said.

The Global Information System (satellite mapping) will help in organising systematic and precise special operations.

Both NTRO and ISRO were approached by the force a couple of years back to do the job, but now the matter has gained urgency in view of spurt in Naxal violence, described as the biggest threat to internal security by Prime Minister Manmohan Singh.

CRPF to take ISRO help for precision-guided ops against Maoists

The Hindu News Update Service
 
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New Delhi: The eyes in the sky are helping security forces flush Maoists out of Lalgarh in the West Midnapore district of Bengal. The Indian Space Research Organisation (Isro) is using satellites to extensively map villages and installations under the control of the rebels to guide the troops on the ground, sources in the security establishment said.

Many of Isro's new-generation satellites can obtain high-resolution imageries, giving details till the last square metre. These visuals are helping the 1,600-strong security team comb the jungles and villages, senior officials said.

Though Isro refused to comment, a senior scientist told DNA that the satellites launched by the agency have capabilities of tracking movement on the ground.

Among the satellites that can take high-resolution images are the recently-launched RISAT-2, also termed spysat, the technology experiment satellite and the Cartosat-2A.

The security forces, drawn primarily from the Central Reserve Police Force (CRPF) and the state police, have so far freed half-a-dozen of the 22 villages and one of the 17 government offices taken over by the Maoists.

"The progress (of security operation) is slow but consistent because our men have been continuously walking for the past 60 hours without much rest. These satellite images are helping us identify the areas within the jungles that are dominated by the Maoists," a senior CRPF officer told DNA.

The forces have not yet faced much resistance in Lalgarh, but the final assault is still to begin since the Maoists are entrenched deep in the jungle. "We are trying to corner the Maoists from four different directions with the help of the local police and the Border Security Force, which is acting as a backup for our commandos," the officer said.

Isro is also providing images of Maoist-hit areas in other states such as Jharkhand, Chhattisgarh, Maharashtra and Orissa, CRPF sources said.

The rebels have a presence in 186 districts across 22 states, which account for more than 30% area of the country. They have carried out more than 900 violent attacks in the past six months, killing at least 180 security personnel. --With inputs from Nirad Mudur in Bangalore.

Satellites help troops in Lalgarh
 
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ISRO working on database to maximise use of rainwater

Bangalore (PTI): The Indian Space Research Organisation has begun work on creating a national database that would help efforts to preserve and maximise use of rain water, its Chairman G. Madhavan Nair said on Thursday.

This Web-based database can be used by all States, he said at a national conference here on "challenges and opportunities of bio-industrial watershed development for the prosperity of the farming community."

Mr. Nair stressed the need to focus on bio-industrial watershed development in addition to traditional land and water resources-based development to maximise farm income.

"Watershed approach is the only scientific solution for conservation and management of rain-fed areas", he said. "With bio-industrial concept, we can ensure prosperity of rural people and ensure food and livelihood security".

Mr. Nair said that by adding the component of agro-processing to existing components of protection of natural resources, a revolutionary change could be brought about in the situation of 'farming without profits' to 'farming with profits'.
 
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India strides to space, eyes $120 mln/year business




NEW DELHI (Reuters) - India's space agency plans to double its revenues to $120 million a year by increasing satellite launches to claim a bigger chunk of the global space business, the head of its space agency said on Friday.

Last April, India sent 10 satellites into orbit from a single rocket, signalling its intention to expand into that business. It also dispatched its first unmanned moon mission last October to join the Asian space race in the footsteps of rival China.

ISRO has signed a Memorandum of Understanding (MoU) with 26 countries for launching satellites and joint research work, including Russia, France, Germany and Italy, along with South Africa and Brazil.

"We are opening up our market further and by next March we are looking at $120 million worth business," G. Madhavan Nair, chairman of the Indian Space Research Organisation (ISRO) told Reuters in an interview on Friday.

"A mega European launcher has been delayed, so we will have more customers from Europe now," Nair said by telephone from the ISRO headquarters in the southern Indian city of Bangalore.

ISRO is also building a low-cost powerful satellite vehicle - GSLV Mark 3, which will help the agency double its capacity of sending payloads from 2.5 tonnes at the moment and would also reduce operational costs by 30 percent.

"We have matured into the space technology and today we have established ourselves as a good service provider for building satellites and launching them," the chairman said.

The space agency is planning to launch five satellites this year, including one for ocean study by July, and at least two from Europe and Africa by the end of the year.

This April, India launched an Israeli-built military spy satellite, highlighting growing defence ties between New Delhi and Tel Aviv, which is now the second biggest arms supplier to India after Russia.

ISRO, with its low-cost services, is also targetting the United States to launch their spacecraft from its own space station under a commercial agreement, Nair said.

"We are having discussions with the U.S. government and we are trying to open up the market for launching their satellites," Nair said.

The space agency is planning it first manned mission to moon by 2015 following the successful mission of Chandrayaan-1 (moon vehicle), an unmanned cuboid spacecraft it sent to the moon to map the surface and look for precious metals last year.

"We have mapped the entire surface, craters and mountains and we have some idea about where titanium, magnesium and aluminium is present," Nair said.

Link:

in.reuters.com/article/businessNews/idINIndia-40622720090626?pageNumber=1&virtualBrandChannel=0&sp=true
 
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Friday, Jun 26, 2009

  • The search for deposits of water is high on the agenda of the Lunar Reconnaissance Orbiter and the Lunar Crater Observation and Sensing Satellite. India’s Chandrayaan-1 probe, too, may join the quest.

Forty years after man first set foot on the Moon, the United States has despatched two unmanned lunar spacecraft to Earth’s natural satellite to pave the way for humans to return there. The search for deposits of water is high on the agenda of the Lunar Reconnaissance Orbiter (LRO) and the Lunar Crater Observation and Sensing Satellite (LCROSS). India’s Chandrayaan-1 probe, too, may well join the quest.

“Discovering water on the Moon would be like finding a gold mine,” said U.S. space agency NASA in a recent press document. It estimates that getting a bottle of water to the Moon would run to about $50,000 (around Rs. 24 lakh) at current launch costs. So the ability to extract water locally would be immensely useful if humans want to establish bases on the celestial body.

It is believed that water could have been brought to the Moon by comets and meteorites that have crashed on its surface over billions of years. Likewise, hydrogen ions streaming out from the Sun might have combined with oxygen from chemical compounds in the lunar soil and turned into water. The question is whether all this water has boiled off in the face of the Moon’s scorching day time temperatures and its low gravitational hold.

In a paper published in 1961, three scientists at the California Institute of Technology put forward the idea that water “may well be present in appreciable quantities in shaded areas in the form of ice.” The paper appeared in the Journal of Geophysical Research around the same time President John F. Kennedy committed the U.S. to landing a man on the Moon.

Some 30 years later, two U.S. space probes that went to the Moon, Clementine and Lunar Prospector, provided evidence that water might persist as patches of ice mixed with soil at the bottom of craters at the poles. Sunlight never reaches the bottom of some craters at the lunar poles, which therefore remain at temperatures far below the freezing point of water. So these would be ideal locations for trapping water ice on the Moon.

But the evidence has been disputed and scientists continue to argue vigorously about whether or not Earth’s nearest neighbour holds any water.

Last Friday, the LRO and the LCROSS were launched from Cape Canaveral in Florida. The two spacecraft, along with Chandrayaan-1, will undoubtedly throw a great deal of new light on the issue. The LRO entered the lunar orbit on Tuesday. Once the spacecraft is commissioned, a whole slew of instruments on it will look for signs of water ice and hydrogen in different ways.

Meanwhile, the LCROSS and the spent upper stage of the Atlas rocket that launched the two spacecraft have swung past the Moon for the first time. NASA plans to send the empty upper stage, weighing over 2,000 kg, hurtling into a crater near the lunar south pole at a speed of about 9,000 km per hour. The impact, scheduled for October 9, is expected to hurl vast quantities of soil from the bottom of the crater to a height of several km. The plume of debris will then catch the sunlight, making it possible for instruments on various spacecraft and telescopes on the ground to analyse material that has lain hidden in the crater for billions of years.

The LCROSS will separate from the upper stage some hours before the latter’s final plunge to the Moon. Following four minutes behind the upper stage, the spacecraft will fly through the debris plume created by the crash and relay the data collected by its instruments to Earth. The spacecraft too will then slam into the Moon, creating a second debris plume.

Chandrayaan-1 is busy surveying the Moon. Looking for water is one of its tasks too. In addition, the Indian lunar probe and the LRO could carry out a complicated radar-based duet.

One body of evidence that favours the presence of water ice on the Moon comes from bistatic radar observations made with the Clementine probe in 1994. In bistatic radar, the radio signal is emitted from one location and the return echo picked up at another place. In the case of Clementine, the radar on the spacecraft aimed its signal at the Moon’s south pole and the signal that bounced back was received by an antenna on the Earth.

Now with both Chandrayaan-1 and the LRO equipped with radars, for the first time, there is a chance to carry out bistatic radar observations using two satellites in the lunar orbit.

The Mini-RF radar on the LRO is a more advanced version of the U.S.-supplied Mini-SAR on the Indian spacecraft. Moreover, the radars on Chandrayaan-1 and LRO were “designed to operate cooperatively in a bistatic mode, with Chandrayaan-1 transmitting and LRO receiving,” observed Paul Spudis and others of the Mini-SAR team in a paper published in Current Science earlier this year.

Such bistatic radar observations could provide the best evidence for water ice on the Moon, Dr. Spudis told this correspondent when he was in India for the Chandrayaan-1 launch last year.

Both the U.S. and Indian scientists are known to be enthusiastic about using Chandrayaan-1 and LRO for bistatic studies. But the logistics of how to go about it must first be agreed upon by the space agencies of the two countries.

If both spacecraft are in the same orbit, their radars will be able to work together for extended periods of time, allowing larger areas to be mapped in this fashion. On the other hand, if the satellites are in different orbits, bistatic observations are only possible when the two spacecraft are so aligned that radar emissions from one can bounce off the Moon’s surface and be received by the other.

Chandrayaan-1 is currently orbiting the Moon at a height of about 200 km. The LRO, on the other hand, is intended to work at a height of just 50 km. Now that the LRO is in the Moon’s gravitational clutches, NASA plans to initially hold the spacecraft in an elliptical “commissioning orbit” of 30 km by 216 km for about 60 days. During this period, the spacecraft will be checked out and its instruments tested. One possibility is for the bistatic observations to be carried out some time during this commissioning phase or shortly afterwards.

Although a news report that appeared recently in Nature suggested that bistatic observations using LRO and Chandrayaan-1 would take place this summer, there has so far been no official word on the matter from the two space agencies.

In 1998, NASA’s Lunar Prospector spacecraft measured the energy of neutrons coming off the Moon’s surface and found indications of hydrogen at the poles. The data were consistent with deposits of hydrogen in the form of buried water ice, said William Feldman of the Los Alamos National Laboratory and his colleagues in a paper in the journal, Science.

Last year, Vincent Eke of Durham University in the U.K. and others published research that reanalysed the Lunar Prospector data. “When the Lunar Prospector made a map of the hydrogen abundance, it essentially took a blurred image,” said Dr. Eke in an email. He and his colleagues had used a sophisticated image reconstruction algorithm to undo the blurring.

“The new result that we have found is that the hydrogen, which Lunar Prospector discovered about 10 years ago, is not merely near to the lunar poles but it is actually concentrated in the permanently shadowed polar craters,” he told this correspondent in the email.

If hydrogen exists in the form of water, Dr. Eke and his colleagues estimate, the top one metre of soil in the lunar craters could be holding many billions of litres of water. The question now is: what will Chandrayaan-1, the LRO and the LCROSS find?

The Hindu : Opinion / Leader Page Articles : Searching for water on the Moon
 
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Tiruchirappalli (PTI): The Bangalore-based Indian Institute of Astrophysics was developing a payload for Indian Space Research Organisation's proposed solar mission Aditya to study the Sun's outermost region corona, a scientist of the institute said on Monday.

The payload would be included in Aditya, a mini satellite, being developed by ISRO to study emissions taking place in the Sun during solar maxim, Prof S Chatterjee told reporters here.

On the solar telescope, the country's largest, to be installed by the IIA in the Himalayan ranges to study Sun, he said it would be located in Ladakh District of Jammu and Kashmir and the exact site would be finalised shortly.

He said the IIA was also involved in development of an ultra Violet imaging instrument which would be one of the five science payloads for the country's astronomy satellite ASTROSAT, which would facilitate study of a range of astrophysical objects, proposed for launch in 2011.

The images and data generated by the instrument would lead to new vistas of research in astro-physics, he added.

Chatterjee was in the city in connection with celebration of international year of astronomy at the Anna Science Centre.
 
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Tuesday 30 June, 2009.

India is keen to expand its ongoing space cooperation with Russia to joint development of a "cheaper" reusable spacecraft, ISRO Chairman Madhavan Nair has said.

"India would like to continue strengthening space cooperation (with Russia) and also to expand it by means of development of cheap reusable spacecraft," Nair said in an interview to the government-run RIA Novosti on Tuesday.

ISRO and Russia's federal space agency Roskosmos are currently working on the joint Chandrayan-2 project for which the Russian side would provide a lunar landing craft to put a Moon-rover for the lunar research.

Under the agreement signed in 2007, the Chandrayan-2 lunar mission is planned in 2011-2012 for which ISRO is developing new powerful GSLV-Mark-III space launch vehicle, Nair said.

Russia is also helping India in its first manned space flight due in 2015.

"In December 2008 India and Russia signed an agreement on cooperation in manned space flights. Under this agreement Roskosmos is helping ISRO in preparing for the manned mission," Nair said.

According to the ISRO chief, a space capsule with two astronauts would be launched at low earth orbit of 275 kilometres on about a weeklong orbital flight.

Recalling the history of space cooperation with Moscow, Nair said it began in 1962 with the launching of Soviet meteorological rockets from Thumba rocket range in Kerala and orbiting of first Indian satellites Aryabhatta, Bhaskara-1 and Bhaskara-2 and three IRS series remote-sensing satellites aboard Russian launch vehicles.
 
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India to launch ocean monitoring satellite in August

July 1st, 2009

The Indian Space Research Organisation (ISRO) is gearing up for the launch of its second ocean monitoring satellite in August, along with six European nano satellites as piggy back luggage.

“The 952 kg OCEANSAT-2 is envisaged as in-orbit replacement to OCEANSAT-1 and will be injected by the stripped down or core alone version of ISRO’s workhorse rocket Polar Satellite Launch Vehicle (PSLV-C14) in the same polar sun-synchronous orbit of 720 km,” S. Satish, ISRO’s director (Publications and Public Relations), told IANS from Bangalore over phone.

According to him, the intended orbit, combined with the wide swath of the satellite’s footprint, will enable observation of the same area of the ocean every two days.

OCEANSAT-2 will be used for identification of potential fishing zones, sea state forecasting, coastal zone studies, weather forecasting and climate studies.

Apart from the ISRO-developed Ocean Colour Monitor (OCM) and a Ku-band pencil beam Scatterometer, the satellite will also have a Radio Occultation sounder for Atmospheric Studies (ROSA), developed by the Italian Space Agency.

The Scatterometer with a ground resolution of 50km x 50km is expected to provide accurate information on wind speed and direction.

The eight-band OCM with 360 metres spatial resolution and a swath of 1,420 km will provide information about the same area every two days.

According to Satish, the rocket will blast off from the first launch pad at ISRO’s rocket launch centre at Sriharikota in Andhra Pradesh near here.

The designed life span of OCEANSAT-2 will be five years but the actual usage may go beyond that as happened with OCEANSAT-1, which was launched in 1999 but is still working.

ISRO will not decommission OCEANSAT-1. The satellite will go into oblivion once its components start dying.

Piggy backing on OCEANSAT-2 will be six nano satellites from Europe, together weighing 25 kg.

This will be the second time that ISRO will launch a cluster of nano satellites. In 2008 ISRO - launching its cartography satellite (CARTOSAT-2A) and Indian Mini Satellite (IMS-1) - also sent up eight nano satellites and set a world record of maximum number of satellites sent up in a single launch.

After this ISRO plans to send into orbit a heavier communication satellite GSAT-4 in September or October through another rocket, the Geo Synchronous Launch Vehicle (GSLV).

GSAT-4 will carry a multi-beam Ka-band bent pipe and regenerative transponder and navigation payload in C, L1 and L5 bands. The satellite can guide civil and military aircraft.

GSAT-4 will also carry a scientific payload, TAUVEX, comprising three ultra violet band telescopes developed by Tel Aviv University and Israel space agency (ELOP) for surveying a large part of the sky in the 1400-3200 A wavelengths.


Link:
thaindian.com/newsportal/sci-tech/india-to-launch-ocean-monitoring-satellite-in-august_100211809.html
 
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Bangalore (PTI) India's indigenous Oceansat-2 satellite will be launched next month from Sriharikota spaceport on the east coast and will also carry with it a set of six nano satellites, all of European origin.

Besides Rubin 9.1 and Rubin 9.2 nano satellites from Germany, the four cubesats lined up for the mission on board India's workhorse rocket Polar Satellite Launch Vehicle are: Beesat, built by Technical University Berlin, UWE-2 (University of Wuerzburg Germany), ITU-pSat (Istanbul Technical University Turkey) and SwissCube-1 (Ecole Polytechnique Federal de Lausanne, Switzerland).

Oceansat-2 weighing around 970 kg, is an in-orbit replacement to Oceansat-1, which has completed 10 years of service, ISRO Spokesperson S. Satish said.

"It (Oceansat-2) will carry an OCM (Ocean Colour Monitor) and a Ku-band pencil beam Scatterometer. In addition, it will carry Radio Occultation Sounder for Atomospheric studies (ROSA), developed by the Italian Space Agency (ASI)," he said.

Oceansat-2 would help identify potential fishing zones, assist in coastal zone studies and significantly enhance expertise in understanding surface temperature and winds.

"Earlier, we had launched Oceansat (Oceansat-1) which essentially could look at (only) the colour of the ocean. Now, colour alone is not sufficient, we should look at the temperature and surface winds and so on," ISRO Chairman G. Madhavan Nair told PTI.

The Hindu News Update Service
 
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Kolkata, July 04, 2009

India's second lunar mission Chandrayaan-II is likely to be launched by 2013, Indian Space Research Organisation (ISRO) chairman G. Madhavan Nair said on Saturday.

"Chandrayaan-II should take place by 2013. Our first lunar mission, Chandrayaan-I, has given us a substantial understanding about entering the moon's orbit. But ensuring the safe landing of the rover on the lunar surface is still an obstacle," Nair told reporters on the sidelines of a ceremony here.

He said: "The moon doesn't have any atmosphere so utilising parachutes will not be possible. We are now exploring other alternatives."

Nair, who was in town to receive M.P. Birla Memorial Award, 2009 for exceptional achievement in the field of astronomy and space science said the biggest impediment to the proposed Chandrayaan-II project was the impact management of the rover.

He said that ISRO would also launch a geostationary satellite to cater to the India Meteorological Department (IMD) to record the changing monsoon pattern and cloud shifts.

"This satellite will be handed over to IMD within next 2-3 years. It'll help to track the reading of cloud shifts and changing monsoon patterns," he said.

Nair said that India's Mars mission was suffering due to lack of qualified manpower available.

"The Mars mission could be delayed as we don't have enough scientific ideas coming through. In India, there is a requirement for more students to take up pure sciences and undertake research activities," he said.

Chandrayaan-II to be launched by 2013- Hindustan Times
 
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ISRO eyes 25% revenue growth in 2009-10​


4 Jul 2009, 1911 hrs IST,

KOLKATA: The Indian Space Research Organisation is expecting a 25 percent growth in its revenue in 2009-10, ISRO chairman G. Madhavan Nair said
here on Saturday.

"We are expecting a 25 percent increase in the total revenue of ISRO this financial year. We had attained a revenue of Rs.10 billion in the last fiscal (2008-09)," Nair told reporters in an interactive session.

He said nearly 15-20 percent revenue of the space agency came from launching satellites on behalf of other countries.

"The budgetary allocation for carrying out space research activities in the country last year was Rs.40 billion. This year, we're waiting for the union budget," he said.

The budget will be presented in parliament on Monday.

He said that the delayed launch of satellites by the European Space Agency might lead to more countries using India's polar satellite launch vehicles (PSLVs).

Nair said the revenue might also go up by another 10 percent on account of more use of satellite services by direct-to-home (DTH) TV operators and telecom providers.

Link:
economictimes.indiatimes.com/News-by-Industry/ISRO-eyes-25-revenue-growth/articleshow/4738243.cms
 
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Space programme gets boost with 40 percent more funds​


July 6th, 2009,

Pranab Mukherjee New Delhi, July 6 (IANS) India’s space research programme will get a boost as the union budget for 2009-10 presented by Finance Minister Pranab Mukherjee Monday has given a 40 percent hike in fund allocation for the Indian Space Research Organisation (ISRO).
“The total funds allocation for ISRO for 2009-10 is Rs.4,959 crore (Rs.49.59 billion or $1.01 billion), up from Rs.3,499 crore, which is an increase of around 41 percent,” S. Satish, director (publications), told IANS from the space agency’s headquarters in Bangalore over telephone.

He said bulk of the sum will be used in ongoing projects like development of the advanced rocket geo-synchronous launch vehicle (GSLV) Mark III to launch four-tonne communication satellites apart from the existing polar satellite launch vehicles (PSLVs) and GSLVs.

The space agency has got Rs.230 crore towards its manned space mission.

Though ISRO has worked out the total cost of the mission at Rs.12,000 crore, the sum allocated this year is far more than the Rs.95 crore it got last fiscal for three projects connected with the mission.

According to Satish, Rs.155 crore has been allocated towards development of a semi-cryogenic engine that will use liquid oxygen as oxidiser and highly purified kerosene to fire rocket.

He said the funds will be used to build the necessary infrastructure at the liquid propulsion test facility at Mahendragiri in Tamil Nadu.

Link:

thaindian.com/newsportal/business/space-programme-gets-boost-with-40-percent-more-funds_100214254.html
 
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Space programme gets boost with 40 percent more funds​

July 6th, 2009

Pranab Mukherjee New Delhi, July 6 (IANS) India’s space research programme will get a boost as the union budget for 2009-10 presented by Finance Minister Pranab Mukherjee Monday has given a 40 percent hike in fund allocation for the Indian Space Research Organisation (ISRO).
“The total funds allocation for ISRO for 2009-10 is Rs.4,959 crore (Rs.49.59 billion or $1.01 billion), up from Rs.3,499 crore, which is an increase of around 41 percent,” S. Satish, director (publications), told IANS from the space agency’s headquarters in Bangalore over telephone.

He said bulk of the sum will be used in ongoing projects like development of the advanced rocket geo-synchronous launch vehicle (GSLV) Mark III to launch four-tonne communication satellites apart from the existing polar satellite launch vehicles (PSLVs) and GSLVs.

The space agency has got Rs.230 crore towards its manned space mission.

Though ISRO has worked out the total cost of the mission at Rs.12,000 crore, the sum allocated this year is far more than the Rs.95 crore it got last fiscal for three projects connected with the mission.

According to Satish, Rs.155 crore has been allocated towards development of a semi-cryogenic engine that will use liquid oxygen as oxidiser and highly purified kerosene to fire rocket.

He said the funds will be used to build the necessary infrastructure at the liquid propulsion test facility at Mahendragiri in Tamil Nadu.

Link:

thaindian.com/newsportal/business/space-programme-gets-boost-with-40-percent-more-funds_100214254.html
 
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Sky is No Limit​

The world’s most advanced navigation system, GAGAN

By Fred A. Treyz III (Fritz)

At the Paris Air Show Raytheon Company recently announced it is close to reaching an agreement with the Indian Space Research Organisation (ISRO) to deliver a Satellite-Based Augmentation System (SBAS). GAGAN is a Hindi word that means ‘Sky’, but to Raytheon, ISRO and the Airports Authority of India (AAI) GAGAN stands for the GPS-Aided GEO Augmented Navigation System. GAGAN will provide satellite-based navigation over the Indian airspace and adjoining areas in Southeast Asia.

GAGAN is based on very sophisticated SBAS technology. “GAGAN will be the most advanced air navigation system available and further reinforces India’s leadership in the forefront of air navigation,” said Andy Zogg, Raytheon Network Centric Systems Vice President of Command and Control Systems. “GAGAN will greatly improve safety, reduce congestion and enhance communications needed to meet India’s growing air traffic management needs.”
GAGAN was co-developed by Raytheon and ISRO, in conjunction with the Airports Authority of India (AAI). Raytheon will continue the work it began several years ago and expects to have the GAGAN system fully functional in 2013.

Benefits of GAGAN
• The Indian civil aviation community will have the highest confidence that pilots, air traffic controllers and passengers will experience all the advantages of the world’s most accurate, flexible and efficient air navigation system.

• Aircraft operators will know with certainty that a navigation signal-in-space certified for safety-of-flight operations will be delivered on time to support their avionics investments.

The Director General Civil Aviation, as the ICAO signatory for India, will have confidence in the integrity and protection of the navigation signal it will certify.

• The AAI, as the air navigation service provider for the Indian Flight Information Region, will have a state-of-the-art navigation system with the full understanding of its operational procedures and maintenance requirements.
Raytheon is the only company that has delivered SBAS technologies that have been certified for safety-of-flight operations. The company developed the Federal Aviation Administration’s Wide Area Augmentation System in the United States known as WAAS. The FAA certified the system in July 2003. Raytheon also was engaged with the Japan Civil Aviation Bureau’s Multi-Function Transport Satellite Augmentation System, and the system was certified in September 2007. Both systems are based on Raytheon’s proven SBAS technology

Benefits of SBAS

SBAS enhances the GPS standard positioning service by providing sufficient integrity, accuracy and availability for use in commercial aviation. SBAS provides both en-route and precision landing capabilities. SBAS provides approach capabilities at every airport runway and no additional infrastructure is needed.

Aviation Use of SBAS
In the US, over 37,000 general aviation SBAS receivers have been sold with approximately 1,000 additional units a month being purchased. More than 500 business and regional aircraft have been equipped with SBAS receivers since 2007. In 2009, SBAS avionics will be standard equipment on Cessna CJs. Southwest Airlines is in the process of equipping 200 Boeing 737s with WAAS avionics while FedEx is equipping 253 of its Cessna Caravan aircraft. Horizon Airlines has begun equipping its Bombardier Q400 fleet. Recently, helicopters have also been equipped with SBAS receivers.1

The Wide Area Augmentation System (WAAS) plays an important role in US National Airspace modernisation. It is a key technology for standardising and improving the efficiency of US airspace operations. WAAS provides capabilities, services and applications that are key components of larger, highly complex systems (e.g., Required Navigation Performance and Automatic Dependent Surveillance-Broadcast). Moreover, with a receiver cost comparable to GPS, WAAS is available to all aviation communities such as general aviation, vertical flight, cargo and regional carriers. Without WAAS, the ability to achieve future efficiencies would be greatly diminished.

For aviation, SBAS offers a huge benefit over existing navigation infrastructure. SBAS accuracy far exceeds the capabilities of existing navigation aids and provides improved safety. SBAS supports the strictest Required Navigation Performance requirements and it provides a natural evolution to new capabilities like Automatic Dependent Surveillance-Broadcast.
 
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