TeamIndus still searching for funds for Google Lunar X-Prize mission

Capitalism in space: TeamIndus, one of the five finalists in the Google Lunar X-Prize mission, is still searching for the funds it needs to pay for its launch.

Bengaluru-based aerospace start-up TeamIndus is scouting for funds and sponsors to build a spacecraft with a rover for landing and exploring the lunar surface. “The total budget of the moon mission is about Rs 450 crore, out of which we have raised more than half (Rs 225 crore) and have spent. We’re trying to accumulate the rest through sponsors and others interested in this mission,” TeamIndus Fleet Commander Rahul Narayan told reporters here on Thursday.

They have a contract to launch on India’s PSLV rocket, but have been trying to raise the funds needed to pay for it now for months. In July they had raised half the needed funds. Though this article says they have raised more than half (in Indian money: Rs 225 crore), that number remains half of the total budget listed (Rs 450 crore). From this it appears they have not yet found any additional sponsorship.

India hopes to resume launches before December

Despite an August 31 launch failure, India is still planning to resume launches before December.

On Friday, Mr Kiran Kumar [head of ISRO] was optimistic that the workhorse rocket would resume flights within a couple of months. “We have identified what the problem is, and we are going through simulations to make sure what we are concluding, is what has exactly happened (during the unsuccessful flight on August 31). The committee, which has been set up to go through the report is having detailed discussions and the report will come out very soon. After the committee gives its final report, we will resume the launches by November-December,” he said, on the sidelines of silver jubilee celebrations of Antrix Corporation Ltd, the corporate arm of ISRO.

They might not meet this goal, but that they are trying to resume launches in less than four months indicates that they are emulating the private sector and not most typical government agencies like NASA in this matter. Both NASA and ISRO have in the past sometimes taken years to recover from a launch failure. After SpaceX’s launchpad explosion in September 2016 they vowed to launch in less than four months, and managed to do it in five months. That ISRO is now trying to do the same indicates that the competition has forced them to up their game.

India’s PSLV rocket fails to release satellite

India’s PSLV rocket failed to put a navigation satellite into orbit yesterday when the payload fairing did not separate.

The PSLV has had an excellent launch record, so this failure is unfortunate and a surprise. Whether it will effect that rocket’s next launch, putting two Google Lunar X-prize contestants into space, remains unknown.

We are about to leave Torry and head home. Further posts will be on the road, assuming I can get service.

ISRO’s 104 satellite launched earned India about $7 million

Capitalism in space: India’s space agency ISRO on Wednesday revealed to that country’s parliament that its record-setting 104 satellite launch on June 23 earned about $7 million.

On June 23 this year, PSLV-C38 had launched 712-kg Cartosat-2 satellite along with 30 co-passenger satellites. Of the 30 nano satellites, while one belonged to Noorul Islam University from Tamil Nadu, the rest 29 were from 14 foreign countries. On Wednesday, the government informed the Lok Sabha that the launch of 29 foreign satellites helped Antrix Corporation Ltd (ACL), the commercial and marketing arm of Isro, earn Rs 45 crore (6.1 million euros).

Before the June 23 multiple launch, Isro made the world record when its PSLV C37 launched 104 satellites in one go on February 15 this year. However, the space agency did not reveal how much it earned from that record-breaking launch. Out of the 104 satellites, 96 were from the US, three from India and one each from Israel, Kazakhstan, the Netherlands, Switzerland and the UAE.

From an American perspective it is encouraging that U.S. companies dominated the satellite count. From India’s perspective, the profits here are only going to encourage that nation to push for more rockets and cheaper costs.

The one problem I see with this is that it is the government that is obtaining the profits, not private Indian citizens or companies. Such an arrangement will not be good for India in the long run, as it encourages the government to use its coercive power to squelch private competitors.

Has India cut its cubesat launch prices?

Capitalism in space: A complex analysis of India’s recent launch prices suggests that ISRO reduced its cubesat launch prices when it launched a record-setting 103 satellites on the most recent PSLV launch.

The key paragraph however is this:

Small-satellite owners have long complained that the PSLV, whose reliability has been established in the market, has been slow to increase its launch tempo at a time of surging cubesat production. For the moment, none of these satellite customers’ launch options provide predictable launch cadence at affordable prices.

That may be about to change as several dozen vehicles designed specifically to accommodate the growing cubesat market are preparing to enter operations. Not all are likely to succeed in establishing a foothold, but the sheer number of them is impressive:

That makes it all the more important for ISRO’s Antrix Corp., the agency’s commercial arm, to cement a reputation for launch regularity and low prices.

In other words, because a flock of new smallsat launch companies, such as Rocket Lab, Vector, and Virgin Orbit, are about to enter the market ISRO is suddenly feeling the pressure, which is why they have cut prices as well as started to up their launch rate.

Isn’t competition wonderful?

India’s PSLV rocket successfully launches 31 satellites

India today completed its fourth launch of 2017, using its PSLV rocket to successfully place 31 satellites in orbit, including 30 smallsats.

They also did in-orbit engine tests of the rocket’s fourth stage after releasing the satellites.

For 2017 India has at this moment completed as many launches as ULA, and only one less than Russia. They have four more launches tentatively scheduled, though it is likely that not all will fly this year. If they get them off, however, they will definitely move into the upper tier of launch nations.

What ISRO charges for a launch

Capitalism in space: This article, outlining the overall expenditures and earnings of India’s space agency, ISRO included this tidbit about the price it charges for launches:

Several companies like SpaceX’s Falcon 9, Russia’s Proton ULA, and Arianespace are big names in the space but ISRO’s Antrix provides competitive rates for commercial launches. ISRO, that has now become a specialist in launching satellites, cost a third of SpaceX launches. The low rates are probably because of ISRO’s location while its Indian engineers earn a fraction of the salaries that engineers would command in foreign countries. [emphasis mine]

If India does charge in the range of $20 to $30 million per launch they are in a strong position to compete with SpaceX, even after it reduces its prices because of the use of used first stages.

The first 3 of a 200 nanosat constellation delivered for launch

Capitalism in space: Sky and Space Global (SAS) has delivered the first three nanosats — of a planned 200 nanosat constellation — to India for launch.

The first three nanosats are to be launched by India on its PSLV rocket, but SAS has contracted Virgin Orbit to use its LauncherOne to put the next 197 up. They had made this first announcement last summer, saying the first three would launch in the second quarter of 2017. It appears that they are holding to that schedule.

They also said that LauncherOne would begin launching the other 197 satellites in 2018. For this I remain far more skeptical, since the track record at Virgin in getting its spacecraft off the ground on schedule has not been good.

India preparing rover for 2018 Moon landing

The competition heats up: India preparing rover for 2018 Moon landing.

Isro’s Satellite Applications Centre Director, M. Annadurai, revealed the tentative launch schedule while speaking to the press at the Satish Dhawan Space Centre, Shar, Sriharikota on Wednesday. He said a Lander and a six-wheeled Rover were being prepped to go with the Chandrayaan-II mission. The chief scientist added that a launch is likely to take place in the first quarter of 2018. According to Dr P.V. Venkita Krishnan, the director of the Isro Propulsion Complex at Mahendragiri, engineers were currently testing soft-landing engines.

India’s launch of a record 104 satellites on a single rocket has pumped up the Indian press, as there were almost 20 stories on space and that launch in their press today, almost all favorable.

This article however is from the U.S., and takes a look at the ineffective American space policy that supposedly forbids American companies from launching on Indian rockets.

The U.S. Commercial Space Launch Agreement of 2005 prohibits the launch of commercial satellites on the Indian vehicle. The reasoning is that struggling U.S. commercial launch providers needed time to establish themselves in the market and would be wiped out by India’s PSLV, which is developed by the Indian Space Organization.

Since 2015, commercial satellite owners have successfully obtained waivers to the policy.

The article notes India’s competitive prices, as well as the overall state of the smallsat industry and its dependence on bigger rockets as secondary payloads to get into space. India’s rockets, funded and subsidized by the government but also built to be inexpensive so as to attract customers, is clearly positioned to effectively compete with SpaceX, who until now charged the least.

What will our Congress do? My preference would be for them to repeal this part of the 2005 law so that American satellite companies can fly on whoever they wish. That would increase competition but it would also likely invigorate the overall launch industry because it would increase the satellite customer base for those rockets and thus create more business for everyone.

Sadly, I suspect that Congress will instead demand that the waivers to the law cease, and will thus block the use if Indian satellites by American companies. The short-sightedness of our politicians never ceases to surprise me.

Countdown begins on India’s record-setting launch of 104 satellites

The competition heats up: ISRO has begun the countdown for Wednesday’s launch of India’s PSLV rocket, carrying a record-setting 104 satellites.

he Polar Satellite Launch Vehicle would be carrying a 714 kilogram main satellite for earth observation and 103 smaller “nano satellites” which would weigh a combined 664 kilograms. Nearly all of the nano satellites are from other countries, including Israel, Kazakhstan, The Netherlands, Switzerland, United Arab Emirates and 96 from United States, said the state-run ISRO.

If successful, India will set a world record as the first country to launch the most satellites in one go, surpassing Russia which launched 39 satellites in a single mission in June 2014.

Obviously, all these different satellites got a cut-rate launch deal by sharing the launch, which helps make their launch affordable. The disadvantage here is that they do not have much flexibility in choosing their orbits, which is why there is also a market now for small rockets aimed at launching single smallsats, such as Rocket Lab’s Electron.

India considers going to Jupiter and Venus

The competition heats up: India’s space agency ISRO is considering unmanned missions to both Jupiter and Venus, while also delaying their first manned test flight four years until 2024.

More significant, the second link had this quote:

Mr Somnath said during the current fiscal, Isro planned eight PSLV flights, up from six in 2016. “Our aim is to steadily increase the launches between 12 and 20 in phases with creation of necessary infrastructure.

Like everyone else, they are getting enough business to up their launch rate. 2017 is going to be an active year in the launch market.

PSLV places multiple satellites into different orbits

The competition heats up: India’s space agency ISRO has successfully used its PSLV rocket to launch eight satellites into two different orbits.

After the successful separation of SCATSAT-1, the PSLV-C35 mission continued. Still carrying the seven co-passenger satellites, the fourth stage of PSLV coasted over the South polar region and then started ascending towards the Northern hemisphere. A safe distance between the orbiting SCATSAT-1 and PSLV-C35 fourth stage was maintained by suitably manoeuvring the stage.

At 1 hour 22 minutes and 38 seconds after lift-off as the fourth stage was in the North polar region, the two engines of PSLV fourth stage were reignited and fired for 20 seconds. As a result of this, it entered into an elliptical orbit measuring 725 km on one side of the Earth and 670 km on the other. And 50 minutes later, as the PSLV fourth stage was again coasting near the south pole, its engines were fired for another 20 seconds. This second firing made the fourth stage to enter into a circular orbit of 669 km height inclined at an angle of 98.2 degree to the equator. 37 seconds later, the Dual Launch Adapter was successfully separated from the PSLV-C35 fourth stage. 30 seconds after this event, ALSAT-1N was the first co-passenger satellite to be separated successfully. Following this, the NLS-19, PRATHAM, PISAT, ALSAT-1B, ALSAT-2B, and Pathfinder-1 were separated from the PSLV fourth stage in a predetermined sequence thereby successfully completing PSLV-C35 mission.

This launch was also the 36th successful PSLV launch in a row.

The Indian government considers privatization

The competition heats up: The Indian space agency, ISRO, is discussing with private companies ways in which it might privatize its smaller and successful rocket, the Polar Satellite Launch Vehicle (PSLV).

In order to step up the launch capacity within the country, ISRO is in the process of exploring the possibility of involving Indian industry in a greater role to meet the increased national requirements and possible commercial demand for launch services. Discussions are being held with the Indian industry towards formulating a plan and strategy to enhance the capacity as well as capability of managing the Polar Satellite Launch Vehicle (PSLV) programme on an end to end basis.

The sense I get from this ISRO announcement is that the government is taking the lead, trying to drag the private companies forward to take over. I also sense that both the private companies as well as ISRO are at the moment are somewhat uninterested in doing it. Neither impression is stated anywhere in this announcement and are merely my personal impressions, based literally on no inside information, which of course means I could be very wrong.

India launches sixth GPS satellite

The competition heats up: India has successfully launched the sixth satellite in its own GPS constellation. using its PSLV rocket.

They will complete the GPS constellation with a seventh satellite launch in April. The system however is already functioning, as it only needs a minimum of four satellites to work. Unlike the U.S. 24 satellite system, which is designed to be global, India’s system is regional with its focus centered over India itself. This is why they do not need as many satellites for it to function effectively.

India wins contract to launch private weather satellites

The competition heats up: The first two satellites in the first private weather satellite constellation will be launched on India’s PSLV rocket.

With 12 satellites on orbit, PlanetiQ will collect approximately 34,000 “occultations” per day, evenly distributed around the globe with high-density sampling over both land and water. Each occultation is a vertical profile of atmospheric data with very high vertical resolution, comprised of measurements less than every 200 meters from the Earth’s surface up into the ionosphere. The data is similar to that collected by weather balloons, but more accurate, more frequent and on a global scale.

“The world today lacks sufficient data to feed into weather models, especially the detailed vertical data that is critical to storm prediction. That’s why we see inaccurate or ambiguous forecasts for storms like Hurricane Joaquin, which can put numerous lives at risk and cost businesses millions of dollars due to inadequate preparation or risk management measures,” McCormick said. “Capturing the detailed vertical structure of the atmosphere from pole to pole, especially over the currently under-sampled oceans, is the missing link to improving forecasts of high-impact weather.”

This project is a win-win for aerospace. Not only will this weather constellation help shift ownership of weather satellites from government to private ownership, the company’s decision to use India’s PSLV rocket increases the competition in the launch industry.

Another launch success for India

The competition heats up: Using its Polar Satellite Launch Vehicle rocket (PSLV) India successfully launched a French Earth-observation satellite on Monday.

The PSLV continues to be a very reliable commercial rocket for India’s government. That this launch was also witnessed by India’s new prime minister Narendri Modi — who also endorsed his country’s space effort in a public tweet — suggests that India’s space effort has a very bright future.

India’s new prime minister to watch rocket launch.

The competition heats up: The new prime minister of India, Narendra Modi, will watch the next commercial launch of his country’s Polar Satellite Launch Vehicle (PSLV)

Modi would be called a tea party candidate in the U.S. He is very pro-capitalism and business. And though he has said he is very pro-space, I do wonder what he thinks of the commercial efforts of India’s space agency ISRO. ISRO is developing its rockets in an effort to capture international market share. It is as if NASA built the Falcon 9 and was trying to make money selling its use to private satellite companies.

I would not be surprised if Modi decides eventually to privatize this operation, taking the rocket development and commercial launches out of the hands of the government.

1 2 3