China Successfully Tests Satellite Able to Capture HQ Photos of US City in Less Than 1 Min

[beijingwalker]

China Successfully Tests Satellite Able to Capture HQ Photos of US City in Less Than 1 Min
December 27 2021
Kirill Kurevlev

Because attitude control devices can induce vibrations that blur pictures, most Earth observation satellites must be steady when capturing images. But the Chinese satellite managed to maintain image stability even by actively scouring and maneuvering in orbit in order to cover a larger area with one image than conventional satellites.

A small Chinese satellite captured photographs of a vast region around a US city in 42 seconds, which is said to be much faster than many conventional commercial satellites, and the photo taken turned out to be sharp enough to identify a vehicle on the street, the South China Morning Post reported on Monday.

According to the research cited in the report, Beijing-3, a small one-ton commercial satellite launched by China in June, completed an in-depth survey of the core area of the San Francisco Bay (3,800 square kilometers or 1,470 square miles).

The resulting photo had a resolution of 50 centimeters per pixel and was obtained from a height of 500 kilometers (310 miles). And according to the researchers, the satellite's performance test revealed that it could collect photographs while rotating at up to 10 degrees per second, a pace never seen before on a satellite, the research team reportedly wrote in an article published earlier this month in the Chinese journal Spacecraft Engineering.

"China started relatively late on agile satellite technology, but achieved a large number of breakthroughs in a short period of time," Yang Fang of the DFH Satellite Company, a lead researcher in the study, is quoted in the report as saying. "The level of our technology has reached a world leading position."

According to the research, Beijing-3 is regarded as the most agile satellite in terms of speed and could be one of the most powerful Earth observation satellites ever created, despite its tiny size and low cost.

The difference this satellite makes is seen when taking into account that a lower-orbiting satellite can usually see a straight, thin strip of land underneath it. To cover a region of interest, it must circle the Earth many times or collaborate with other satellites.

But according to the report, Beijing-3's agility allowed it to complete some observation tasks previously thought to be technically impossible, such as taking images of the winding, 6,300-kilometer-long Yangtze River between the Tibetan plateau and the East China Sea in just one fly-by from north to south over China.

The satellite can reportedly organize its flight itinerary independently, monitoring up to 500 regions of interest across the world with roughly 100 revisits every day, and is equiped with AI to do so. The satellite can also detect the existence of specific targets and provide ground control with photographs of them.

Chinese Spacecraft Said to Outpass US Analogues
According to the report, the response time of Beijing-3 is 2-3 times faster than that of WorldView-4, one of the most advanced Earth observation satellites created by the US with similar technology.

Moreover, Beijing-3's scanning band is 77% broader than WorldView-4's (23km vs. 13km for the American satellite) while weighing half as much. With a resolution of 30 centimeters per pixel, WorldView-4's one-meter-wide telescope can provide slightly more detailed photos, the research team admitted. While this resolution is not enough to read a car license plate, it might be able to show the model of a military vehicle, which could be used to evaluate its performance, such as its shooting range.

However, Chinese scientists believe that they managed to solve an issue that their colleagues from the United States could not, and that is the vibration WorldView-4 encounters when shifting its position, lowering image quality to a minimum. The Chinese Beijing-3 reportedly reduces vibration by an order of magnitude in comparison.

Solar panels on the new platform are designed to keep them from swaying as the satellite spins swiftly and sharply. Any components that are suddenly exposed to the light could become overheated if an advanced cooling system is not used. To safeguard the satellite from the physical toll caused by rapid movement, critical components such as telescopes and antennas were developed employing innovative technologies such as AI control.

A satellite developed on the new platform could store one terabyte of photos and transmit data to the ground at one gigabit per second, allegedly beating the speeds of US competitors.

However, as the company behind the successful satellite development reportedly stated, China has room to grow in terms of production optimization and supply chains, as the satellite market for imaging is still dominated primarily by Western companies.

https://sputniknews.com/20211228/china-successfully-tests-satellite-able-to-capture-hq-photos-of-us-city-in-less-than-1-min---report-1091849589.html

 

[Stranagor]

China Successfully Tests Satellite Able to Capture HQ Photos of US City in Less Than 1 Min
December 27 2021
Kirill Kurevlev

Because attitude control devices can induce vibrations that blur pictures, most Earth observation satellites must be steady when capturing images. But the Chinese satellite managed to maintain image stability even by actively scouring and maneuvering in orbit in order to cover a larger area with one image than conventional satellites.

A small Chinese satellite captured photographs of a vast region around a US city in 42 seconds, which is said to be much faster than many conventional commercial satellites, and the photo taken turned out to be sharp enough to identify a vehicle on the street, the South China Morning Post reported on Monday.

According to the research cited in the report, Beijing-3, a small one-ton commercial satellite launched by China in June, completed an in-depth survey of the core area of the San Francisco Bay (3,800 square kilometers or 1,470 square miles).

The resulting photo had a resolution of 50 centimeters per pixel and was obtained from a height of 500 kilometers (310 miles). And according to the researchers, the satellite's performance test revealed that it could collect photographs while rotating at up to 10 degrees per second, a pace never seen before on a satellite, the research team reportedly wrote in an article published earlier this month in the Chinese journal Spacecraft Engineering.

"China started relatively late on agile satellite technology, but achieved a large number of breakthroughs in a short period of time," Yang Fang of the DFH Satellite Company, a lead researcher in the study, is quoted in the report as saying. "The level of our technology has reached a world leading position."

According to the research, Beijing-3 is regarded as the most agile satellite in terms of speed and could be one of the most powerful Earth observation satellites ever created, despite its tiny size and low cost.

The difference this satellite makes is seen when taking into account that a lower-orbiting satellite can usually see a straight, thin strip of land underneath it. To cover a region of interest, it must circle the Earth many times or collaborate with other satellites.

But according to the report, Beijing-3's agility allowed it to complete some observation tasks previously thought to be technically impossible, such as taking images of the winding, 6,300-kilometer-long Yangtze River between the Tibetan plateau and the East China Sea in just one fly-by from north to south over China.

The satellite can reportedly organize its flight itinerary independently, monitoring up to 500 regions of interest across the world with roughly 100 revisits every day, and is equiped with AI to do so. The satellite can also detect the existence of specific targets and provide ground control with photographs of them.

Chinese Spacecraft Said to Outpass US Analogues
According to the report, the response time of Beijing-3 is 2-3 times faster than that of WorldView-4, one of the most advanced Earth observation satellites created by the US with similar technology.

Moreover, Beijing-3's scanning band is 77% broader than WorldView-4's (23km vs. 13km for the American satellite) while weighing half as much. With a resolution of 30 centimeters per pixel, WorldView-4's one-meter-wide telescope can provide slightly more detailed photos, the research team admitted. While this resolution is not enough to read a car license plate, it might be able to show the model of a military vehicle, which could be used to evaluate its performance, such as its shooting range.

However, Chinese scientists believe that they managed to solve an issue that their colleagues from the United States could not, and that is the vibration WorldView-4 encounters when shifting its position, lowering image quality to a minimum. The Chinese Beijing-3 reportedly reduces vibration by an order of magnitude in comparison.

Solar panels on the new platform are designed to keep them from swaying as the satellite spins swiftly and sharply. Any components that are suddenly exposed to the light could become overheated if an advanced cooling system is not used. To safeguard the satellite from the physical toll caused by rapid movement, critical components such as telescopes and antennas were developed employing innovative technologies such as AI control.

A satellite developed on the new platform could store one terabyte of photos and transmit data to the ground at one gigabit per second, allegedly beating the speeds of US competitors.

However, as the company behind the successful satellite development reportedly stated, China has room to grow in terms of production optimization and supply chains, as the satellite market for imaging is still dominated primarily by Western companies.

https://sputniknews.com/20211228/china-successfully-tests-satellite-able-to-capture-hq-photos-of-us-city-in-less-than-1-min---report-1091849589.html

Good development. China can more closely and accurately observe US infrastructure development.

 

[Beidou2020]

Excellent news. Technology gap continues to close at a rapid rate.

 

[SaadH]

Good development. China can more closely and accurately observe US infrastructure development.

Nothing to see there, only infrastructure development in US is Amazon warehouses, Walmart Superstores and Billionaire mansions...

There haven't been any meaningful development in the US since the 50's

 

[Nan Yang]

Nimble Chinese satellite grabs hi-res images of US city in seconds: researchers

• The Beijing-3 small commercial satellite can take images while rotating at up to 10 degrees per second, a speed not seen on a satellite before: paper
• Coupled with AI on board, the satellite can monitor up to 500 areas of interest around the globe with nearly 100 revisits a day

Stephen Chen in Beijing
Published: 5:00am, 28 Dec, 2021

In just 42 seconds, a small Chinese satellite captured images of a large area around a US city that would be sharp enough to identify a military vehicle on the street and tell what type of weapon it might be carrying, say scientists reporting on the breakthrough.

Beijing-3, a small one-tonne commercial satellite launched by China in June performed an in-depth scan of the core area of the San Francisco Bay (3,800 square kilometres or 1,470 square miles), according to scientists involved in the project.

Most Earth observation satellites must be stable when taking images because attitude control mechanisms can produce vibrations that blur the images. But in this experiment on June 16, the Beijing-3 rolled and yawed wildly, the dramatic motion changing the angle of its camera’s line of sight to the ground when flying over North America. The movement allowed it to capture a larger area than satellites have managed until now.

China’s nimble Beijing-3 satellite does unprecedented rapid scan of San Francisco

The image, taken from an altitude of 500 kilometres (310 miles), had a resolution of 50 centimetres per pixel. The performance test over North America and other areas showed that the satellite could take images while its body was twisting at up to 10 degrees per second, a speed not seen on a satellite before.

“China started relatively late on agile satellite technology, but achieved a large number of breakthroughs in a short period of time,” said project lead scientist Yang Fang and her colleagues of the DFH Satellite Company writing in a paper published in the domestic peer-reviewed journal Spacecraft Engineering this month. “The level of our technology has reached a world leading position.”

Despite its small size and relatively low cost, Beijing-3 was deemed as the most nimble satellite and could be one of the most powerful Earth observation satellites ever built, according to Yang.

A satellite in the lower orbit could usually observe a straight, narrow strip of area underneath it. It must circle the Earth multiple times or work with other satellites to cover a region of interest.

Beijing-3’s unmatched nimbleness enabled it to carry out some observation tasks previously considered technically impossible, such as taking images of the winding, 6,300km-long Yangtze River between the Tibetan plateau and the East China Sea, in just one fly-by from north to south over China, according to Yang and colleagues.

An image taken by Beijing-3 satellite over the San Francisco Bay area. Photo: Yang Fang, Spacecraft Engineering journal

With artificial intelligence technology on board, the satellite could plan its flight schedule independently to monitor up to 500 areas of interest around the globe with nearly 100 revisits a day.

The satellite could also detect the presence of certain targets and send their targeted photos to ground control.

Beijing-3’s response time is 2-3 times faster than that of WorldView-4, the most advanced earth observation satellite developed by the United States with similar technology, according to Yang and colleagues.

Compared to WorldView-4, Beijing-3’s scanning band is 77 per cent wider (the Chinese satellite’s 23km compared with the American satellite’s 13km) at only half the weight.

However, the US satellite has a marginal lead in an area vital for some sensitive applications.

China launches Long March 2D rocket carrying Beijing-3 and three other satellites

WorldView-4’s one-metre-wide telescope could produce slightly more detailed images with a resolution of 30 centimetres per pixel. Although not sharp enough to read a car number plate, this resolution could reveal a military vehicle’s make and model to help estimate its performance, such as firing range.

But its overall performance may not be a match for Beijing-3, according to Yang.
When adjusting its position, WorldView-4 could experience vibrations, reducing image quality at the finest level.

The Chinese team said they had used a new technology to reduce vibration by an order of magnitude, even when the satellite was rotating and pitching at record speed.

The WorldView-4 satellite was built by Lockheed Martin for more than $US800 million. Launched in 2016, the satellite was expected to operate for 10-12 years to provide the finest images from space that money could buy.

It failed unexpectedly in 2019 because of a glitch in an attitude-control gyroscope.

Yang and her co-authors said the Beijing-3 satellite was built on a revolutionary platform known as CAST3000E that would give rise to a new generation of Chinese observation satellites that were small in size but high in performance.

The new platform carried solar panels with a unique structure to stop them shaking as the satellite turned quickly and sharply. An advanced cooling system could prevent overheating of any components suddenly exposed to the sun.

Critical components, such as telescopes and antennas, were also designed using new technologies, such as AI control, to protect the satellite from the physical toll caused by rapid movement.

A satellite built on the new platform could store one terabyte of images and beam data to the ground at the speed of one gigabyte per second, outperforming competing satellites from the US.

Although China had caught up with technology, the global earth observation market was still dominated by the West, said Qi Yimin, a sales manager for DFH Satellite Company in Beijing.

In China, more than 85 per cent of the high-definition satellite imaging products and nearly all low-to-medium resolution products were now produced by Chinese satellites, Qi said in a separate paper published in the same journal this month.

These images were used by more than 20,000 Chinese companies and generated over 260 billion yuan (US$41 billion) in annual revenue.

But only a small number of countries – such as Egypt, India and the Netherlands – had bought commercial satellite images from China, Qi said.

“Our country’s commercial satellites started late, the industrial chain is not yet mature, and the business is still in the initial stage of development,” Qi said in the paper.

Most Chinese satellite imaging products served government or military users.
“We will need to change our business model to develop other potential customers,” he added.

 

[Beidou2020]

Absolutely brilliant

 

[Viet]

Absolutely brilliant

Wait a second
The article says high re and more advanced than US satellites but how high and how advanced?
Geo1 can make images with 0,41m.
There are satelittes that can make high res 30cm.

 

[Trango Towers]

Didn't they laugh at Chinese tech?

Who is laughing now.

Same as Pakistanis on pdf laughing at Pakistani military industry when they say they can make SAM'S of s400 quality.

 

[Stranagor]

Wait a second
The article says high re and more advanced than US satellites but how high and how advanced?
Geo1 can make images with 0,41m.
There are satelittes that can make high res 30cm.

View attachment 803908

What is particularly advanced is the duration to capture a particular location Image and speed of data relay to ground unit. I think this much of resolution is good enough for intelligence applications.

 

[Curious_Guy]

article states 50 cm per pixel vs word 30 cm of world view 4. but in motion and at greater range

 

[Oldman1]

Good development. China can more closely and accurately observe US infrastructure development.

Same, we can also accurately observe China's infrastructure development.

 

[Stranagor]

Same, we can also accurately observe China's infrastructure development.

Parity and equality is nice. Keeps lunatics in check till they lick the dirt. That's swell.

Redirect Notice

 

[Pak_Sher]

Nothing to see there, only infrastructure development in US is Amazon warehouses, Walmart Superstores and Billionaire mansions...

There haven't been any meaningful development in the US since the 50's

Not sure how your analysis was done. US leads in all IT Domains Microsoft, Oracle, Cloud, Twitter, Cisco….. It leads in defense technology, R & D. Medical research & high tech medicine. Stealth. List is too long. Do your homework before writing on this forum.

 

[F-22Raptor]

Not sure how your analysis was done. US leads in all IT Domains Microsoft, Oracle, Cloud, Twitter, Cisco….. It leads in defense technology, R & D. Medical research & high tech medicine. Stealth. List is too long. Do your homework before writing on this forum.

What the hell is that guy on about? No meaningful development since the 50s? Personal computing, Internet, software, smartphones, social media etc. Dude seems completely lost

 

[SaadH]

Not sure how your analysis was done. US leads in all IT Domains Microsoft, Oracle, Cloud, Twitter, Cisco….. It leads in defense technology, R & D. Medical research & high tech medicine. Stealth. List is too long. Do your homework before writing on this forum.

Oh, I didn't know Chinese were planning to monitor US IT infrastructure, Tech companies, Biotech and defense industry R&D from space. Heck I didn't even think about keeping tabs on Pichai, Bezos, Nedella, Zuckerburg and their companies from space.

Here, I was thinking they'd use these new satellites to monitor new highways, high speed rail, bridges, subways, first world airports, public infrastucture, defense installations, etc.

Thanks for the edification.