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Indian Space Capabilities

Cartosat 2C onwards
Cartosat-2 series satellite is similar to Cartosat-2C with panchromaƟc
camera and a 4-Band MulƟspectral camera operated in 'Time Delay IntegraƟon
(TDI)' mode. It provides scene specific imageries of 0.64 m spaƟal resoluƟon in
panchromaƟc camera and beƩer than 2 m in mulƟspectral camera with a swath
of 10 km. This three-axis stabilized mission provides spot images of the desired
locaƟon and has the capability of along track steering to provide stereo spot
0
imageries and across track steering upto + 26 to enhance the range of spot
imageries. Cartosat-2 series also carries two Event Monitoring Cameras Ev1 (0.5
m Monochrome) and Ev2 (0.4 m RGB) to provide video imagery of pre-selected site with sub meter
sampling to build the capability for real Ɵme monitoring of ground events.

It was not found in Cartosat-2C, read the paragraph, it was only available since feb 2017 after launch of Cartosat-2.
 
Then plz freaking give me a link with dates OK. You keep on changing your sources. So your new source now is twitter or something? LOL

If there is no date on a site, look up it's snapshot on archives.org . for this one,

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This Bengaluru startup has developed a satellite propulsion technology that can make space missions cheaper

Dennis Chemmannur Joy July 7, 2017 7 min

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Escaping our atmosphere and going into outer space has always been the privilege of a few. For a very long time, the realm of space exploration was limited to government research institutes like the National Aeronautics and Space Administration (NASA), the European Space Agency (ESA), the Japan Aerospace Exploration Agency (JAXA) and others.

In India, until recently, the state-owned Indian Space Research Organisation (Isro) was the lone player in the space race. However, with the recent success of private players like SpaceX and Blue Origin in the US, the perception that private organisations and individuals cannot participate in this expensive race is quickly changing.

Space business and space tourism are now a rage. In Bengaluru, India’s “startup hub”, many new companies are coming up in the areas of space exploration and transportation. Among this new crop of startups is Bellatrix Aerospace, which is building new-age satellite propulsion systems and launch vehicles. It has patented an electric propulsion system — the Microwave Electro-thermal Thruster (MET) — which it claims is more efficient than traditional chemical thrusters as it provides a higher ‘mileage’ and lasts longer.

Bellatrix Aerospace has patented an electric propulsion system — the Microwave Electro-thermal Thruster — which it claims is more efficient than traditional electrical thrusters as it provides a higher ‘mileage’ and lasts longer

The scope for private players in India in the area of space research is booming right now, says Yashas Karanam, director and chief operating officer at Bellatrix. “Around 10 years ago, it would have been very difficult since the ecosystem wasn’t very mature. Although Isro has been making efforts towards hand-holding private players, the stage was a very difficult one to get on. But now, the ecosystem has changed,” he says.

This changing ecosystem has encouraged many private players like Bellatrix to venture into space exploration. There’s Earth2Orbit, which claims to be the first startup to provide launch advisory and consulting services. Team Indus, another startup, secured a funding of $1 million in the first leg of Google Lunar XPRIZE — a competition that invites ideas to land a robot on the moon. Others like Astrome and Dhruva Space are in the fray too. All of them are based in Bengaluru.

Thrusting higher with the MET

Satellites usually have two types of propulsion systems: primary propulsion, which helps the satellite reach its destination once it leaves the rocket, and secondary propulsion, which helps it maintain its position and make minor corrections to its orientation. These propulsions are achieved using thrusters — chemical or electrical propulsive devices that enable satellites to manoeuver in space. Small thrusters attached to the satellite control these two propulsion systems.

“Predominantly, there are two kinds of electrical thrusters that have been traditionally researched and used — the gridded ion thruster and the Hall Effect thruster,” says Ganapathy.

Bellatrix has gone a different way with its thruster. “We have been working on a different kind of thruster called the Microwave Electro-thermal Thruster (MET), which is much more efficient than other electrical thrusters,” explains Ganapathy, about the novel satellite propulsion design. “The thrust generated by electric thrusters is very low, as little as pulling two sheets of paper. But since there is no friction in space, this is enough to move the satellite,” he adds.

In addition, MET is designed to be a zero-erosion thruster, which gives it a longer lifespan. “Electric thrusters are usually prone to erosion. Every time they are fired, a small portion of the metal gets eroded. Our thruster does not erode, allowing it to last longer,” says Ganapathy.


The company has received funding from JSW Steel and support from the Hindustan College of Engineering and Technology, Coimbatore, to develop the MET. For its innovative satellite propulsion design, it was also awarded the prestigious Technology Development Board National Award, 2017, presented by President Pranab Mukherjee.

Apart from the MET, the team is also working on other types of thrusters like the Hall Effect thruster, a nano-thruster for nano-satellites, and a green monopropellant thruster, a chemical propulsion system that is environmentally friendly.

Bringing down sky-high costs

Satellites are the backbone of modern communication that involves televisions and mobile phones powered by the internet. Putting a satellite into orbit, however, is an expensive affair and only a handful of organisations are able to afford them. Because of prohibitive costs, not many companies have tried launching their own satellites.

In India, currently Isro’s Polar Satellite Launch Vehicle (PSLV) and Geosynchronous Satellite Launch Vehicle (GSLV) are the only options to carry satellites into either a low-earth orbit or a geostationary orbit.

“When you launch a satellite, you need to pay per kilogram. Isro offers one of the lowest prices for a launch, but even that stands at around Rs 33 lakh per kg of payload, which is very expensive” — Yashas Karanam, director and COO, Bellatrix Aerospace

“When you launch a satellite, you need to pay per kilogram. Isro offers one of the lowest prices for a launch, but even that stands at around Rs 33 lakh per kg of payload, which is very expensive,” says Karanam. “So, generally, one needs to wait until a launch vehicle is completely full or look for a smaller rocket if one wants to put a satellite in space,” he adds.


An artist’s impression of Chetak, the two-staged, nano-satellite launch vehicle developed by Bellatrix Aerospace
Bellatrix Aerospace hopes to be a game-changer in this space by introducing economically viable solutions. The company says its patented electric propulsion system will bring down the cost of satellite missions significantly.

”The main advantage in electric propulsion is that it requires only around 200-250kg of fuel, as opposed to the two tonnes required for a chemical propulsion system. This reduces the total weight of the payload significantly, which means you can have more transponders on your satellites, making them more efficient, or have more satellites per launch,” reasons Ganapathy.

The thrust generated by the MET thruster for each kilowatt of input power is also much higher than other electrical thrusters. Through a combination of reduced weight, efficient thrusters and longer lifespan, Bellatrix aims to achieve a significant reduction to the cost of each satellite launch.

Bellatrix is also developing its own fleet of launch vehicles. Named Chetak, its two-staged, reusable rocket can launch smaller satellites into the low-earth orbit at a fraction of the cost charged by conventional launch service providers.

Bellatrix is also developing its own fleet of launch vehicles. Named Chetak, its two-staged, reusable rocket can launch smaller satellites into the low-earth orbit at a fraction of the cost charged by Isro.

But what makes launching a satellite so expensive? It’s the earth’s gravity. To counteract the pull of gravity, rockets are filled with a fuel which, when lit, launches them into space along with their payload, much like an enormous firework. But unlike a firework, literal ‘rocket science’ is required to carry the payload safely beyond our atmosphere.

An ecosystem boost

The space race has been gaining momentum across the world over the last 10 years. India recently cheered the successful launch of 104 satellites by Isro with the fervor usually reserved for cricket matches! Now, the public is more enthusiastic and informed about space missions and the technology powering them.

Bellatrix is one of the many players looking to capitalise on this increased awareness.

Currently, the company has moved part of its operations to the Indian Institute of Science (IISc), Bengaluru, where it has been incubated since 2017. “The IISc is helping a lot. We are getting support in terms of using lab facilities and support of faculty, apart from the mentorship gained by being incubated here,” says Karanam.

“Initiatives like ‘Make in India’ and ‘Startup India’ encourage foreign companies to set up their manufacturing units in the country, which also bring in new skills and knowledge. Isro has also been very supportive of the new breed of space-based startups” – Karanam

But how does the local ecosystem support this goal? “Initiatives like ‘Make in India’ and ‘Startup India’ encourage foreign companies to set up their manufacturing units in the country, which also bring in new skills and knowledge. Isro has also been very supportive of the new breed of space-based startups,” says Karanam, talking about the current ecosystem.

The fact that Bellatrix Aerospace was one of the first private startups to have been given a contract by Isro to further develop the MET technology stands as a testimony to this newfound optimism about space missions.
 
Professor UR Rao, ex-Isro chief and renowned space scientist, passes away

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BENGALURU: Internationally-renowned space scientist UR Rao passed away early Monday, leaving the Indian Space Research Organisation (Isro) bereft of the experience of a man who has been a part of all its launches in one capacity or another. He was 85.

Rao, who breathed his last at about 2.30am, was hospitalised earlier this year with a heart ailment.

The former Isro chief was serving as the chairman of the governing council of the physical research laboratory and the chancellor of the Indian Institute of Science and Technology at Thiruvananthapuram.

Rao has held several top positions over the years, including at foreign universities. He has won 10 international awards and many national awards.

After Satish Dhawan, he served as the chairman of Isro for about 10 years between 1984-1994.

Born in Adampur village in Udupi, Rao has continuously been associated with India's space programme working with people like MGK Menon (who recently passed away), Satish Dhawan and Vikram Sarabhai.

From Aryabhatta to the Mars Orbiter Mission, Rao has continued to work with the space agency on several of its projects. Senior scientists have told TOI that his domain expertise and ability to stay up-to-date with technological advancements is unrivaled.

In January this year, he was conferred the Padma Vibhushan. Interestingly, Rao had one said: "I thought I will get this (Padma Vibhushan) posthumously ..."

Among other positions that Rao has held, he is remembered for his tenure at the Massachusetts Institute of Technology (MIT). In May 2016, Rao became the first Indian to be given the 'Hall of Fame' award by the International Astronautical Federation (IAF). He has published more than 350 scientific and technical papers covering cosmic rays, interplanetary physics, high energy astronomy, space applications and satellite and rocket technology and authored many books.
He is also the recipient of D.Sc (Hon. Causa) Degree from over 25 universities, including the University of Bologna, the oldest University in Europe.



 
Department of Space
03-August, 2017 17:57 IST
Joint Project between NASA and ISRO

ISRO and NASA are working towards realisation of NASA-ISRO Synthetic Aperture Radar (NISAR) mission by 2021.

In NISAR mission, NASA is responsible for development of L-band SAR and ISRO is responsible for development of S-band SAR. The L & S band SAR will be integrated with ISRO’s spacecraft and launched on-board India’s GSLV. The total cost of the project includes ISRO’s work share cost of about Rs. 788.00 Cr and the cost of JPL’s work share of about USD 808 million. After the launch in 2021, the plan of action includes (i) calibration of instruments & validation of data products; (ii) development of science acquisition plan; (iii) development of data processing procedures & applications; and (iv) conduct of outreach activities in research institutes & academia.

NISAR employs a futuristic SweepSAR technique, which enables very wide swath of more than 200 km and very high resolution of the order of 5-10m. The L & S band microwave data obtained from this satellite will be useful for variety of application, which include estimating agricultural biomass over full duration of crop cycle; assessing soil moisture; monitoring of floods & oil slicks; coastal erosion, coastline changes; assessment of mangroves; surface deformation studies, ice sheet dynamics etc.

ISRO and NASA have a framework agreement for cooperation in the exploration and use of outer space for peaceful purposes signed in 2008. Under this framework agreement, ISRO and NASA have executed an implementing arrangement for cooperation in NISAR mission, which is valid until 2034 and provides scope for joint activities on science & applications of NISAR data after the launch.

This information was provided by the Union Minister of State (Independent Charge) Development of North-Eastern Region (DoNER), MoS PMO, Personnel, Public Grievances & Pensions, Atomic Energy and Space, Dr Jitendra Singh in a written reply to a question in Rajya Sabha today.
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Department of Space
03-August, 2017 17:53 IST
Desi Global Positioning System

Indian Space Research Organisation (ISRO) has deployed an indigenous regional positioning system named as “Navigation with Indian Constellation” (NavIC). It consists of seven satellites in a constellation to provide Position, Navigation and Timing (PNT) services in Indian mainland and surrounding region up to 1500 Km. It provides two types of services viz. Standard Positioning Service (SPS) and Restricted Service (RS).

A budget of Rs.1420 Crore has been approved by the Government for the realisation of the system including 7 in-orbit satellites, 2 satellites as ground spare and associated ground segment.

ISRO has established the required space segment of the NavIC system for providing signal in space enabling position, navigation and timing information and it can support commercial civil applications. Indian entrepreneurs are being enabled for providing services through NavIC receiver system and requisite information has been made available in public domain. The demonstrations for vessel tracking, vehicle tracking, messaging services for fishermen, timing applications have been conducted. Mobile-Apps for navigational alerts across maritime jurisdictions is developed and tested for the Fishermen community using first generation NavIC receivers. Various types of user receivers are being developed indigenously involving Indian industry and discussions amongst government departments, user-receiver manufacturers, system integrators and service providers are taking place for the usage of NavIC system.

While the space and ground segment of the NavIC system has been established and demonstrations of various applications/ services have been conducted, the time required for it to become fully operational depends on the service providers making the services available in the market. It may take couple of years to become fully operational in the market

This information was provided by the Union Minister of State (Independent Charge) Development of North-Eastern Region (DoNER), MoS PMO, Personnel, Public Grievances & Pensions, Atomic Energy and Space, Dr Jitendra Singh in a written reply to a question in Rajya Sabha today.
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Department of Space
19-July, 2017 16:25 IST
ISRO Missions

In this calendar year i.e. 2017, Indian Space Research Organisation (ISRO) has launched 104 satellites, in a single launch, onboard PSLV-C37 on February 15, 2017 and 31 satellites, in a single launch, on-board PSLV-C38 on June 23, 2017. These satellites include – Two Indian Cartosat-2 series satellites, two Indian Nano-Satellites, one Nano satellite from Indian University and 130 foreign satellites from 19 countries viz. Austria, Belgium, Chile, Czech Republic, France, Finland, Germany, Italy, Israel, Japan, Kazakhstan, Latvia, Lithuania, Slovakia, Switzerland, The Netherlands, UAE, UK and USA.

This information was provided by the Union Minister of State (Independent Charge) Development of North-Eastern Region (DoNER), MoS PMO, Personnel, Public Grievances & Pensions, Atomic Energy and Space, Dr Jitendra Singh in written reply to a question in Lok Sabha today.

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Department of Space
19-July, 2017 16:11 IST
Launch of GSAT-17

GSAT-17 communication satellite, with a lift-off mass of 3477 Kg, carrying communication, Data Relay Transponder (DRT), Search & Rescue Payload was successfully launched on June 29, 2017 using Ariane-5 launch vehicle from Kourou launch base of Arianespace.

GSAT-17 is presently undergoing in-orbit tests. Subsequently, it will be inducted into the INSAT/GSAT system for providing various communication services to the country in C, Extended-C and S-band.

GSAT-17 carries a Data Relay Transponder for receiving meteorological, hydrological and oceanographic data from Automatic Weather Stations, Automatic Rain Gauges and Agro Met Stations and relaying back for down linking in extended C-Band. It also carries a Search & Rescue Payload, which picks up and relays the alert signals originating from the distress beacons of maritime, aviation and land based users to help in rescue services.

This information was provided by the Union Minister of State (Independent Charge) Development of North-Eastern Region (DoNER), MoS PMO, Personnel, Public Grievances & Pensions, Atomic Energy and Space, Dr Jitendra Singh in written reply to a question in Lok Sabha today.

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