Indian Space Program: News & Discussions

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ISRO has a data mine that can help save lives. More people should have access to it

ISRO operates one of the largest fleets of satellites, which help gather crucial data about the Indian geography.


By Narayan Prasad, 23 November, 2019 2:49 pm IST
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File photo of a model of ISRO's GSLV MkII at Satish Dhawan Space Center in Sriharikota | ANI Photo

Berlin: Satellites are excellent tools for access to democratised information, removing the bias in data collection and dissemination that often slips in with the involvement of human beings.

For example, satellite data has been used to independently determine the damage done by wars in Iraq and the Yemen, map poverty, etc.

The Indian Space Research Organisation (ISRO) operates one of the largest fleets of satellites, which are equipped with various types of cameras and microwave radars that help gather crucial data in various resolutions and wavelengths, be it day, night or cloudy.

The satellite data repository of ISRO is over three decades old, starting with IRS-1A to the latest Cartosat-2F.

This massive repository holds a wealth of insights for policymakers and other potential users, especially because it gives an unprecedented time series comparison where one can visualise the changes over an area of interest.

Satellite data has deep potential across a range of sectors, including natural resources management (e.g. land, water, air, etc), infrastructure monitoring, and climate change.

IBM, for example, has put out a case study on how satellite data has been used to aid 80 rescue missions in flood events.

However, despite the availability of this wealth of data, policy solutions proposed and implemented in India still do not utilise it to full potential.

The power of fusing multiple data sources

It was in recognition of satellite data’s many uses that ISRO set up Bhuvan as a national Geospatial Information Services (GIS) portal. However, it is mostly being used by governmental institutions as a visualisation tool.

A 2015 review of Bhuvan, conducted by the National Institute of Advanced Studies (NIAS), pointed out that a “national GIS cannot be a collection of whatever map/image data is available and act just as a visualisation and display tool for the Indian satellite images and data-bank/repository data and does not offer integrative/analytical GIS applications as decision support for users – governance, academia, industries or citizens”.

“Bhuvan design needs to considerably improve and reliability/robustness has to enhance with good testing and use of standards,” the NIAS added.

Policymakers in India need to realise that the scope to absorb insights from geospatial data goes much beyond. For example, SatSure, a Bengaluru-based start-up, aided in rescue efforts during the 2018 floods in Kerala by generating hotspots of the most-affected people. They did so by combining satellite data with weather data, 3D terrain models, census data and mobile traffic records.

It is important to realise that the insights generated by satellite data alone will almost always be limited when compared with those generated via multiple data sources.

In the case of Kerala floods, using satellite data with other sources helped make rescue efforts more efficient.

Required — an open-data platform for social change

Given the size and scale of agriculture and other major sectors in India, it would almost be impossible for one institution like ISRO or one department alone to have the ability to reach the last mile.

Realising as much, major space-faring nations such as the United States and even Japan and China have adopted cloud-based satellite data dissemination platforms to help entrepreneurs, NGOs, academic institutions, etc, gain open and free access to satellite data.

For example, the Bill and Melinda Gates Foundation is helping the poorest farmers in Sub-Saharan Africa by allowing them to monitor crops on a daily basis. All through satellite data.

If our society really has to tap technology for social change, policymakers in India need to revisit their current strategy and tailor a platform model that will allow seamless access to satellite data.

After the Bhuvan review, the NIAS suggested a dedicated effort to make data from India’s satellites easily, and non-discriminatorily, available to everybody. It is high time policymakers realised the cost of not heeding the recommendations.

Clapping with one hand

The power of satellite data is currently leveraged by departments such as agriculture to figure out the total amount of fertile land, barren land, crop area and yields.

These are useful to understand the state of food security as well as farmer welfare, given that Indian agriculture is still heavily monsoon dependent.

However, one could argue that the information extracted in this exercise is not being deployed in service of the larger agri-supply chain ecosystem.

For example, there is now evidence that satellites and other data sources can help conduct an independent assessment of the creditworthiness of small and marginal farmers, as well as insurance payouts.

Satellite data can be used to determine the pattern of yields in a given piece of area — for example, how much crop was harvested there over a certain period. This then can help build credit lending/risk models and facilitate the financial inclusion of small and marginal farmers.

The broader impact of adopting such a data-driven solution is the social change it creates.

Deploying satellite-drawn data for farm loans will keep a farmer applicant’s personal credentials from skewing loan applications, since creditworthiness will be assessed on the basis of harvests from his/her land.

Banks can anonymise the personal details of an applicant, which can significantly remove artificial barriers due to gender and class, reducing the transfer of human bias into intelligent data systems. Thus, the impact yardstick moves from high-level policy directives to grassroots-level social change.

Ultimately, satellites are tools that help society. Celebrating the success of placing them in orbit — without tapping their full potential — is akin to trying to clap with one hand.

Narayan Prasad is the host of the NewSpace India podcast, a bi-weekly talk show that exclusively discusses space activities in India.

ISRO has a data mine that can help save lives. More people should have access to it
 
This would be great, if it happens :

Japan-India to work on Martian Moon exploration? The way forward for Asian giants after Asteroid Sample Return Program

Published: November 25, 2019 12:28:34 PM

The only way of knowing the target asteroid is to see through the telescope and to guess the texture of the surface, the gravity and so many other things that need to be known to design spacecraft.

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Ryugu is a C Type asteroid that is rich with carbon, so there is an expectation that the sample may contain some sort of organic matter.

By Kazuto Suzuki

Hayabusa-2 has completed its work at Ryugu, a small asteroid in the asteroid belt between Mars and Jupiter, and will come back to Earth by the end of 2020. This is the second sample-return mission to collect material to see if how planets are made and if there is any sign that life comes from an asteroid. Ryugu is a C Type asteroid that is rich with carbon, so there is an expectation that the sample may contain some sort of organic matter.

The sample-return mission on an asteroid has a lot of difficulties to be successful. First, it is hard to know the detail of the asteroid beforehand. The only way of knowing the target asteroid is to see through the telescope and to guess the texture of the surface, the gravity and so many other things that need to be known to design spacecraft. In other words, the probe design has to be flexible and able to adjust to different landing scenario. Second, because of the distance, it would be difficult to communicate with the spacecraft. For Ryugu, it will take about 40 minutes to send the command and receive the radio. Thus, it would be difficult to remote control of the spacecraft. Everything has to be pre-programmed and automated with a simple command.

It is also difficult to know what is going on around the spacecraft due to the limited bandwidth and delay of transmission. Third, even though the spacecraft requires a lot of fuel to travel a long distance, but it has to be small in order to gain speed to leave the Earth’s gravity. Hayabusa found the solution to use the ion engine to carry a limited amount of fuel. The ion engine is to use an electronic propulsion system that requires a small amount of chemical propellant.

Hayabusa-2 was not possible without the first one. The first Hayabusa was quite a drama. Not only it was the first attempt to return from an asteroid with robotic sample collection, but it also faced a lot of difficulties to manoeuvre. Because of the miscalculation of the landing point, the probe bounced on the surface of the asteroid, which caused the failure of some engines. The mission was rescued by some improvisation of engineers by using the engines in a not designed way. It was like Apollo 13 mission which returned with full creation after an unexpected accident happened. The first Hayabusa attracted a lot of attention of Japanese as well as the world if it can bring back the samples from Itokawa, the asteroid.

Some Japanese cheered the probe by drawing personified spacecraft as a fragile little girl with full of wounds. The efforts of the team of engineers, headed by Prof. Kawaguchi, became three different movies. When the returning capsule reenters the Earth’s atmosphere, it sent a picture of the Earth that seemed to be a dying message as well as strong evidence that the Hayabusa mission overcame the hardship.

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Personified cartoon character of Hayabusa.

Such a dramatic ending of Hayabusa, despite the limited scientific achievement, became a national sensation. Also, robotic sampling from asteroid was the first time that Japanese space activity earned the prize of “first in human history”. The first Hayabusa, therefore, quickly became the symbol of Japanese technological success and achievement. Thus, politicians put higher priority for a follow-on program, Hayabusa-2, to secure Japan’s position as the champion of sample return missions.

Lessons from the first Hayabusa, together with political prestige and popular support, were fully reflected the design and development of Hayabusa-2, which leads to the success of Hayabusa-2 so far. It completed to collect rocks and sands with two touchdowns, and also successfully shoot a bullet to create a crater for investigating the inside of the asteroid. It scored near-perfect success on each event, which created less dramatic scenes to attract attention from politicians and people, but this is what scientific mission supposed to be.

JAXA is now preparing for the follow-on program for sample return. However, the next mission is not going to be on an asteroid but on a satellite of Mars which is called MMX (Martian Moon eXploration). Such a new project will create a golden opportunity for Japan and India to work together. India is the first country in Asia and the third in the world to successfully send a probe in Mars orbit. Japan had tried to launch Nozomi (PLANET-B) to Mars but was not able to reach. The experience and technology of India to send spacecraft to Mars would increase the reliability of the project, and Japanese experience on sample return will contribute to collect samples from Martian Moon. This project will provide a lot of data on the formation of the planet in the solar system.

The MMX is planned to be launched in 2024 and will return to Earth in 2029. There is a lot of time for both Japan and India to work together to design and plan for this mission. The experience and knowledge of both countries will supplement each other and will provide a strong base for further space cooperation.

(The author is Professor of International Political Economy, Graduate School of Public Policy, Hokkaido University. Views are personal.)

Japan-India to work on Martian Moon eXploration? The way forward for Asian giants after Asteroid Sample Return Program
 
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The 26 hours countdown for the launch of PSLV-C47 mission commenced today at 0728 Hrs (IST) from Satish Dhawan Space Centre (SDSC) SHAR, Sriharikota. The launch is scheduled at 0928 Hrs IST on November 27, 2019

More photos :

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Good God the quality of the pics.:love:
Had to resize them all to upload them. ISRO has drastically improved the quality of photo they put out. One hopes they can do the same with the launch coverage.
 
T-9 mins.

Now showing Vehicle integration video.

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Showing the Mission director at his work station launch authorisation key :

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Launch key authorised. Automatic launch sequence has taken over.
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T+4 mins.

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Second stage performance normal. Heat shield separated.

Second stage separated, third stage ignited. Performance normal.
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Third stage burn out complete. Coast stage is active.

T+9 mins

Coast complete. Third stage separated.

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PS4 fourth stage ignites. Performance normal.
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T+17 mins.

PS4 burnt out. Orbital conditions reached. Satellite separation and orbital injections begin.

Cartosat-3 is off.
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Meshbed satellite from the USA is separated.
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The Mauritius ISTRAC station has lost track, awaiting tracking from Antarctica ISTRAC station. Cartosat deploys solar panels.

Another 2 minutes to separation of nano sats.
 
Antarctica station acquires track. The 13 nano sats are released in quad pairs.

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All sats in orbit. PSLV C-47 mission sequence ends.
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ISRO Press address :

ISRO Chairman declaring mission success. 13 missions before March. 6 Launch vehicle and 7 satellites.
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VSSC Director addresses the media. Talks about the campaign.
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URSC Director talks about the Cartosat-3 sat. 0.3 m resolution, APSK modulation. 2.8 Gbit/s.
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SDSC SHAR Director. Three launch campaigns in parallel.
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Mission Director says the Cartosat-3 (my bad, not the sat but the PSLV used the) Indian designed/made microprocessor.
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The processor was the SCL fabricated Vikram 1601 processor used in navigation computer of vehicle :
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SAC Director mentions the "dual use" nature of the satellite. Focuses on the agility of the sat in space, to be used when the customer demands it.
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Spacecraft Director speaks. Cartosat-3 is generating power, ISTRAC has taken its command over.
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GOVERNMENT OF INDIA
DEPARTMENT OF SPACE
RAJYA SABHA
QUESTION NO. : 1240
TO BE ANSWERED ON THURSDAY, NOVEMBER 28, 2019
Subject : SETTING UP OF ROCKET LAUNCHING PAD IN TAMILNADU
Question by : DR. SASIKALA PUSHPA RAMASWAMY:

QUESTION :

Will the PRIME MINISTER be pleased to state :
(a) whether Government has any proposal to set up rocket launching pad at Kulasekarapattinam in the state of Tamil Nadu;
(b) if so, the details thereof; and
(c) if not, the reasons therefor?

ANSWER :

MINISTER OF STATE IN THE MINISTRY OF PERSONNEL, PG &PENSIONS AND IN THE PRIME MINISTER’S OFFICE(DR. JITENDRA SINGH) :

(a) Yes, sir.
(b) Government has proposal to set up rocket launching pad near Kulasekarapattinam in the State of Tamil Nadu.
(c) Does not arise.

https://pqars.nic.in/annex/250/AU1240.pdf


GOVERNMENT OF INDIA
DEPARTMENT OF SPACE
RAJYA SABHA
QUESTION NO. : 1241
TO BE ANSWERED ON THURSDAY, NOVEMBER 28, 2019
Subject : PROPOSAL OF ISRO TO TRANSFER SPACE-GRADE LI-ION CELL TECHNOLOGY TO BHEL
Question by : SHRI SHRISAMBHAJI CHHATRAPATI.

QUESTION :

Will the PRIME MINISTER be pleased to state:
(a) whether ISRO has transferred indigenously developed technology to produce space-grade Lithium-ion cells by BHEL;
(b) if so, the details thereof;
(c) what is the current state of progress on production of space-grade Li-ion cells by BHEL; and
(d) whether there is any plan to market these Li-ion cells in other countries also?

ANSWER :

MINISTER OF STATE IN THE MINISTRY OF PERSONNEL, PG &PENSIONS AND IN THE PRIME MINISTER’S OFFICE(DR. JITENDRA SINGH) :

(a) Yes, ISRO has transferred its indigenous technology to produce space-grade Li-Ion cells to BHEL.

(b) In March 2018, BHEL signed the Technology Transfer Agreement with ISRO for acquiring the Li-Ion Cell production technology. This production facility is primarily targeting to meet Li-Ion Cell requirements for ISRO and other strategic sectors. However, BHEL can also produce and sell Li-Ion cells for meeting other national/commercial applications by suitably modifying the space-grade cell which can lead to cost reduction.

(c) BHEL is in the process of establishing the Li-Ion production facility near Bangalore in Karnataka. Various equipments(both indigenous and imported) for establishing this facility are procured and being commissioned. ISRO has already provided all technical documentation for establishing the production plant as well as hands-on training in various production activities for BHEL staff at ISRO’s facilities.

(d) As per the Technology Transfer Agreement, space-grade Li-Ion cells manufactured by BHEL are meant for meeting the national requirements only. However, BHEL can also sell the space-grade Li-Ion cells to parties outside India after obtaining prior written consent from ISRO.

https://pqars.nic.in/annex/250/AU1241.pdf
 
Remember the experimental optical communication system put on the GSAT-29 satellite ?
I managed to dig something up on that :

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Schematic diagram of the receiver :
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Schematic diagram of the trasmitter :
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Coverage of the system :
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PSLV C48 / RISAT-2BR1 NOTAM is out. Enforcement duration 0930-1130 (UTC) on 11 December 2019

Here is the NOTAM mapped up :


That was quick. But Dr. Sivan did say "we will be back soon" at the end of his speech on 27th.

RISAT-2BR1 is at SDSC SHAR for a week now aiming for 11 December launch on PSLV C48. GSLV MkII integration activities happening in parallel. [Telugu]
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According to regional media RISAT-2BR1 spacecraft arrived at SHAR a week earlier and is going through checkout tests aiming at 11 December launch. Integration activities of PSLV-C48 began in first week of November 2019 at First Launch Pad.

On 28 November L40 stage of GSLV Mk II arrived at Sriharikota as well (Probably related to GISAT-1 launch)

Source: పీఎస్‌ఎల్‌వీ-సి48 ప్రయోగం 11న - EENADU
 
It appears one of PSLV XL strap-ons has washed up ashore near coast of Pondicherry
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A "PSOM XL" strapon has washed up ashore near Pondicherry with following markings.

FM-119
22/03/19

FM-117
XL-1

It might as well be from PSLV C47/ Cartosat-3 launch.

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