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China preparing to launch Chang’e-4 relay satellite May 21
by Andrew Jones — May 14, 2018
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The far side of the Moon and distant Earth, imaged by the Chang'e-5 T1 mission service module in 2014 Credit: Chinese Academy of Sciences

HELSINKI, Finland – China is set to launch a relay satellite to the second Earth-moon Lagrange point May 21, in a necessary precursor to the planned Chang’e-4 soft-landing on the lunar far side late in the year.

Chang’e-4 is the backup to the Chang’e-3 mission which put a lander and rover on Mare Imbrium in late 2013. Following that success, the lunar craft have been repurposed for a pioneering landing on the moon’s far side.

The lunar far side does not face the Earth as the moon’s orbital period matches its rotational period, thus requiring a relay satellite to facilitate communications.

Launch of the satellite will take place at the Xichang Satellite Launch Center in the southwest of the country via a Long March 4C rocket, with the three-day launch window opening on May 21.

The relay satellite, recently named Queqiao – or Magpie Bridge, taken from a Chinese folklore tale that sees two lovers reunited once a year when a flock of magpies form a bridge across the Milky Way — will orbit around the Lagrange point around 65,000 kilometers beyond the moon, so as to be visible to both ground stations on the Earth and the lander and rover on the lunar far side at all times.

Its main function will be to relay telecommands from the ground to the Chang’e-4 lunar spacecraft and transmit data and telemetry back to Earth via S-band, while using x-band to communicate with the lander and rover.

Should launch and commissioning of the relay satellite proceed as planned, the lander and rover will be launched by a Long March 3B from Xichang around six months later, in November or December.

Ian Crawford, professor of planetary science and astrobiology at Birkbeck, University of London, told SpaceNews the mission would be a “tremendous undertaking, as it would be the first time any spacecraft has successfully landed on the far side of the moon.”

The landing is currently expected to target the Von Kármán crater within the South Pole-Aitken Basin, though a decision on the final site has not been announced by Chinese scientists.

The South Pole-Aitken Basin is, Crawford notes, a high priority scientific objective for exploration, potentially offering unique insights into the formation of the moon and history of the solar system.

Astronomy goals

The relay satellite, developed by the China Academy of Space Technology, will also carry the Netherlands-China Low-Frequency Explorer (NCLE), a low-frequency, space-based astronomy pathfinder experiment that will attempt to detect radio signals from the cosmic dark ages, before emission of light by the first stars in the universe.

Radioastronomybelow around 30 MHzcan only be carried outeffectively outside of the Earth’s ionosphere, and the satellite’s position beyond the moon will allow it to take a unique look at this largely unexplored region of the electromagnetic spectrum, with minimal interference from Earth.

Professor Heino Falckeof Radboud Universityin the Netherlands and part of the NCLE team told SpaceNewshe doesn’t want to set the bar too high for this attempt at picking up a cosmic dark ages signal. It could put an upper limit on the signal and is expected to be instructive for future low frequency astronomy space missions.

Along with its main objective, NCLE will also aim to characterize the galactic background and measure emissions from the Sun and Jupiter, as well as measure the wake of the solar wind behind the moon.

Falcke says getting the instrument ready in time and integrated on the spacecraft was a “ride on the edge,” with the call for international participation in Chang’e-4 only coming in 2015, and the Dutch team needing to develop their own antenna from scratch, due to ITAR regulations limiting exports to China.

The antenna is only expected to be deployed for use sometime in 2019, after the main Chang’e-4 mission, with the rover having a designed operation time of three months on the lunar surface.

The May launch will also carry two microsatellites, named Longjiang-1 and 2 and meaning ‘dragon river’, which were developed by the Harbin Institute of Technology (HIT) in north-eastern province of Heilongjiang.

The pair will carry synchronized receivers for low frequency astronomy and very long baseline interferometry experiments and operate in a highly elliptical lunar orbit. They will also be available for amateur radio tests, with one of the two 45-kilogram, 50x50x40-centimeter satellites also set to carry a micro optical camera developed by the King Abdulaziz City for Science and Technology (KACST) of Saudi Arabia.

The launch this month will be China’s fifth lunar mission, following two orbiters, Chang’e-1 and Chang’e-2 in 2007 and 2010 respectively, Chang’e-3 in 2013, and the 2014 Chang’e-5 T1 probe which flew a capsule around the moon and back to test re-entry for a planned lunar sample return. The full sample mission, Chang’e-5, is expected to take place in 2019.
http://spacenews.com/china-preparing-to-launch-change-4-relay-satellite-may-21/
 
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Beidou System closer to build global satellite network: experts
China Plus Published: 2018-05-23 20:27:34

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The 9th China Satellite Navigation Conference kicks off in Harbin, northeast China's Heilongjiang Province, on May 23rd, 2018. [Photo: China Plus/Li Jin]

Researchers say that China's domestically-developed Beidou Navigation Satellite System brings the country closer to achieving its goal of building a satellite network with global coverage.

The comments were made at the 9th China Satellite Navigation Conference, which kicked off on Wednesday in the northeast Chinese city of Harbin.

Experts from countries including China, the United States, and Russia attended the three-day event to exchange ideas on topics such as satellite navigation applications and location services.

Ran Chengqi, the director of China's Satellite Navigation System Management Office, says the Beidou system has been operating steadily since it began offering services in December 2012.

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Ran Chengqi, the director of China's Satellite Navigation System Management Office, speaks at the 9th China Satellite Navigation Conference kicks off in Harbin, northeast China's Heilongjiang Province, on May 23rd, 2018. [Photo: China Plus/Li Jin]

"It's been five and a half years since Beidou-2 went into operation. The system has been operating stably with no break-offs occurring. The positioning accuracy has been raised from ten meters to six meters. Two more Beidou-2 satellites will be launched in the next two years, in order to pursue further progress, while ensuring stable performance," says Ran.

Compared to Beidou-2, the third generation Beidou-3 satellites can broadcast messages of better quality, since new functions such as a satellite crosslink system and global search and rescue capability have been added.

Eight Beidou-3 satellites have been successfully launched over the past six months, and all of them are operating well in orbit.

Experts say that Beidou-3 is closer to achieve the goal of building a network of 35 satellites with global coverage by the end of 2020.

That network will provide services for global users, with the priority of serving the Belt and Road countries and regions.

"The Beidou system has helped reduce the rate of major road traffic accidents and injuries by more than half from that in 2012. The time needed by police to arrive at accident scenes has also been shortened by nearly 20%, while the time for reporting major emergencies is shortened to within one hour. Over 40,000 fishing vessels have been equipped with the Beidou system, helping rescue more than 10,000 fishermen and fisherwomen," says Ran.

Wang Li, the chairman of the China Satellite Navigation System Committee, says Beidou is aiming to become one of the world's leading satellite navigation systems.

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Wang Li, the chairman of the China Satellite Navigation System Committee, speaks at the 9th China Satellite Navigation Conference kicks off in Harbin, northeast China's Heilongjiang Province, on May 23rd, 2018. [Photo: China Plus/Li Jin]

"First, the system should provide top-notch services, featuring high accuracy, good stability, and strong reliability, so that customers will be satisfied. Secondly, it should be indigenous, meaning it must be independently developed and innovated in China, in order to form a home-grown industry. Third, it should be integrated with the world, meaning it must be in line with international standards, and we must also conduct international cooperation and provide services to the international markets," says Wang.

Earlier last November, China and the United States signed a joint statement on civil signal compatibility and interoperability between Beidou and the Global Positioning System (GPS).

David Turner, the Deputy Director of the Office of Space and Advanced Technology under the U.S. Department of State, says at the conference that the move will further promote the development of the Global Navigation Satellite System, the GNSS.

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David Turner, the Deputy Director of the Office of Space and Advanced Technology under the U.S. Department of State, speaks at the 9th China Satellite Navigation Conference kicks off in Harbin, northeast China's Heilongjiang Province, on May 23rd, 2018. [Photo: China Plus/Li Jin]

"U.S. policy encourages worldwide cooperation with other GNSS system providers, with cooperation focused on compatibility, interoperability, and transparency in the provision of civilian services. We strongly support the continued work on cooperation among our respective systems that takes place under the International Committee on GNSS, and we are very pleased that this work is benefiting all users of GNSS worldwide," says Turner.

The Global Navigation Satellite System includes China's Beidou, the U.S. based GPS, Russia's Glonass, and Europe's Galileo.

The 9th China Satellite Navigation Conference, with the theme "Location, Time and Augmentation", runs from May 23rd to 25th.
 
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Acercando Naciones » Chinese company installed in a space observatory Neuquén


CLTC Chinese company confirmed Tuesday that the station for deep space observation building in the province of Neuquén, with an investment of 300 million dollars, will be operational in 2016.

In addition, year to begin construction of the antennas, as indicated by the Asian company Federal Planning Minister Julio De Vido, who is in Beijing on an official visit.

The Chinese observation station deep space, located in Neuquén, aims to “carry out monitoring, control and data download under the Chinese program of missions to explore the moon and space,” said Federal Planning .

In a statement, the Ministry said the station “is the third in a network and the first outside Chinese territory, with an antenna 35 meters in diameter and associated facilities to its observation, making it the most modern of the three “.

The technical counterpart of Argentina, the National Commission on Space Activities (CONAE), you can access “at least 10 percent of the time available for the development of their research projects with advanced technology”, according to official information.

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Chinese media report that the neuquen space tracking station in Argentina participate in the recent moon mission of "Queqiao" - the Chang’e-4 communication relay satellite.

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Beidou system hardware, applications under development
chinadaily.com.cn | Updated: 2018-05-24 16:43
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Northeast China's Heilongjiang province, May 23, 2018. [Photo/Xinhua]
As China's Beidou Navigation Satellite System is taking shape quickly and will provide global services by 2020, related hardware and applications are currently under development, according to the ongoing ninth China Satellite Navigation Conference.

Ran Chengqi, director of the China Satellite Navigation Office, said Wednesday at the conference held in Northeast China's Harbin city that the construction of the country's third-generation Beidou system has entered a fast lane.

He said China has launched eight Beidou-3 satellites into space from November 2017 to March 2018, and 10 other Beidou-3 medium earth orbit (MEO) satellites and one geostationary orbit (GEO) satellite will be launched later this year.

In 2019 and 2020, six Beidou-3 MEO satellites, three inclined geosynchronous satellite orbit (IGSO) satellites and two GEO satellites will also be sent up, according to Ran.

Also at the conference, the Guangzhou-based company Hi-Target Surveying Instrument officially released its radio frequency chip Hengxing-1, which could be used for receiving and sending signals from Beidou-3 satellites.

This chip, of which the Hi-Target company has independent intellectual property rights, adopts a highly integrated design and is available for use in the current four navigation systems from the US, Russia, Europe and China.

It's estimated that Hengxing-1 will be put into production in the second half of 2018 and largely replace imported chips by the end of this year, according to the company.

The country's first rice quality traceability system based on the Beidou system was also unveiled at the conference, in an aim to ensure high-quality rice in Northeast China.
 
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Microwave remote sensing to be applied in China's transport information
Source: Xinhua| 2018-05-24 01:31:13|Editor: yan


BEIJING, May 23 (Xinhua) -- China's transport information will be helped by microwave remote sensing, according to the Science and Technology Daily on Wednesday.

InSAR, or microwave remote sensing, provides all-day millimeter-level monitoring of infrastructure over a large area.

A remote sensing laboratory was unveiled on Tuesday by China Transport Telecommunications and Information Center (CTTIC) and Airbus Defense and Space. The two sides will cooperate to provide more accurate transport information.

Microwave remote sensing is not influenced by weather and visibility.

According to Li Yuanting, senior engineer at the CTTIC, InSAR can monitor the area of 1,500 square kilometers and record tiny changes in the shape of Earth's surface within the area.
 
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与此次事件相关的NOTAM通告内容如下:
A1785/18 NOTAMNQ) ZLHW/QARLC/IV/NBO/E/000/999/4110N10454E143A) ZLHW B) 1805221210 C) 1805221248 E) THE FLW SEGMENT OF ATS RTE CLSD:1.B330:YABRAI VOR 'YBL' - MORIT.2.A596:YABRAI VOR 'YBL' - DENGKOU VOR 'DKO'.A1786/18 NOTAMNQ) ZLHW/QARLC/IV/NBO/E/000/999/3925N10246E027A) ZLHW B) 1805221210 C) 1805221248 E) THE SEGMENTS WI AN AREA CENTER AT YABRAI VOR 'YBL' WITH RADIUS OF 50KM CLSD.

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China's hypersonic technology lead recently made more association with the unidentified celestial image.
The May 22nd ground video shows that four "bright lines" appear successively in a few seconds. This is similar to the launching of a divided multiple intercontinental ballistic missile. However, MIRV has fired warheads, and no such record has been recorded before.
These bright lines should be reflected by the tail smoke left by the rocket engine working in the upper atmosphere.
It is speculated that there may be some small aircraft firing their respective rocket engines in the upper atmosphere and flying side by side. From this indication, it may be a new multi warhead missile flight test, or a low orbit, multi arrow launch.
Observer network military commentator believes that it can be bold to speculate that this is probably the first hypersonic full guided multi warhead test in the world.

http://user.guancha.cn/main/content?id=18068&s=syfwjxbt

5月22日的地面视频可以看到,四条“亮线”以几秒钟的间隔,先后出现。这与分导式多弹头洲际弹道导弹发射出分弹头的情形相似。不过MIRV弹头发射出弹头,在以前没有记录会出现这样的天象。
这些亮线,应该是火箭发动机在大气上层工作时留下的尾烟,在光线照射下反射出现的现象。
由此推测,可能是有若干小型飞行器在大气上层先后点燃各自的火箭发动机,并排飞行。从这个迹象来说,这有可能是一次新型多弹头导弹飞行试验,或者低轨道一箭多星发射。
观察者网军事评论员认为,可以大胆推测,这或许是全球首次高超声速全导式多弹头试验。
 
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与此次事件相关的NOTAM通告内容如下:
A1785/18 NOTAMNQ) ZLHW/QARLC/IV/NBO/E/000/999/4110N10454E143A) ZLHW B) 1805221210 C) 1805221248 E) THE FLW SEGMENT OF ATS RTE CLSD:1.B330:YABRAI VOR 'YBL' - MORIT.2.A596:YABRAI VOR 'YBL' - DENGKOU VOR 'DKO'.A1786/18 NOTAMNQ) ZLHW/QARLC/IV/NBO/E/000/999/3925N10246E027A) ZLHW B) 1805221210 C) 1805221248 E) THE SEGMENTS WI AN AREA CENTER AT YABRAI VOR 'YBL' WITH RADIUS OF 50KM CLSD.

View attachment 476441 View attachment 476442
China's hypersonic technology lead recently made more association with the unidentified celestial image.
The May 22nd ground video shows that four "bright lines" appear successively in a few seconds. This is similar to the launching of a divided multiple intercontinental ballistic missile. However, MIRV has fired warheads, and no such record has been recorded before.
These bright lines should be reflected by the tail smoke left by the rocket engine working in the upper atmosphere.
It is speculated that there may be some small aircraft firing their respective rocket engines in the upper atmosphere and flying side by side. From this indication, it may be a new multi warhead missile flight test, or a low orbit, multi arrow launch.
Observer network military commentator believes that it can be bold to speculate that this is probably the first hypersonic full guided multi warhead test in the world.

http://user.guancha.cn/main/content?id=18068&s=syfwjxbt

5月22日的地面视频可以看到,四条“亮线”以几秒钟的间隔,先后出现。这与分导式多弹头洲际弹道导弹发射出分弹头的情形相似。不过MIRV弹头发射出弹头,在以前没有记录会出现这样的天象。
这些亮线,应该是火箭发动机在大气上层工作时留下的尾烟,在光线照射下反射出现的现象。
由此推测,可能是有若干小型飞行器在大气上层先后点燃各自的火箭发动机,并排飞行。从这个迹象来说,这有可能是一次新型多弹头导弹飞行试验,或者低轨道一箭多星发射。
观察者网军事评论员认为,可以大胆推测,这或许是全球首次高超声速全导式多弹头试验。

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20180525085531714.jpg


20180525085513614.jpg


:D:D

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China launches new Earth observation satellite
Source: Xinhua| 2018-06-02 12:50:19|Editor: Yamei


JIUQUAN, June 2 (Xinhua) -- China on Saturday launched a new Earth observation satellite, Gaofen-6, which will be mainly used in agricultural resources research and disaster monitoring.

The Gaofen-6 was launched on a Long March-2D rocket at 12:13 p.m. Beijing Time from the Jiuquan Satellite Launch Center in northwest China. A scientific experiment satellite named Luojia-1 was sent into space at the same time.

It was the 276th mission of the Long March rocket series.

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Last year news about Luojia-1 satellite that was launched just now.


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China builds satellite to look at man made light at night
By Jin Zixiong
2017-02-10 12:41 GMT+8

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‍China, which has become "most lighted" nation in Asia, will this year launch the country's first remote-sensing satellite dedicated to observing artificial ground light at night, according to designers.

The Luojia-1A, a 10-kilogram mini satellite, is being developed by scientists at Wuhan University in Hubei province and will carry a highly sensitive night light camera with a 100-meter ground image resolution, Li Deren, chief scientist of the project, told China News Service on Wednesday.

Li, a professor of remote-sensing surveys at the university and an academician of the Chinese Academy of Sciences, said that the satellite will be capable of detecting large lighted structures on the ground within its designated observation area, such as bridges over the Yangtze River. He added that images taken by Luojia-1A will be clearer than those by United States-developed satellites.

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Night View of US from NASA / CFP Photo

Luojia-1A will be used to help economic planners and analysts with their research and to provide data to policymakers when they determine overseas trade measures, Li said.

Wuhan University is also working with China Aerospace Science and Industry Corp to design the Luojia-1B, a remote-sensing radar satellite, and plans to send it into orbit in 2019, the report said.

(Source: China Daily)
 
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Analysis: Why Gaofen satellites are important to China
By Gong Zhe
2018-06-02 23:05 GMT+8

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China has on Saturday launched a brand-new satellite, the Gaofen-6, to monitor farmlands, grasslands and forests.

You may see that as "just another Chinese sat." But for China, Gaofen is a critical project which not only saves an astonishing amount of money, but also frees the country from Western control on geographic data.

Maps on your phone

Fire up Google Maps in your browser, switch to satellite view and check the bottom of the screen. You will see text describing where Google bought their high-resolution satellite pictures.

It's the same case for map services in China.

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Satellite view of a part of Beijing on Google Maps, with a line of text at the bottom saying the picture source is DigitalGlobe /Screenshot from Google

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Satellite view of the Forbidden City on Baidu Maps, with a line of text at the bottom saying the picture source is from a company called Changdi Wanfang /Screenshot from Baidu

In fact, one of the largest source of satellite pictures is the US company DigitalGlobe, which owns imagery satellites that take pictures from space.

But for Chinese companies, they are aware that one day US providers might suddenly stop selling pictures to them, especially after what happened with Chinese phone-maker ZTE.

That's one of the reasons that China launched Gaofen sats: A company that provides China with domestically-made maps that are always there.

Monitoring the land

In addition to taking pictures, Gaofen sats can also see things that we can't.

Some Gaofen sats are equipped with infrared sensors that see pollutants in the air, which are too small for humans to see.

Some others, like the latest Gaofen-6, can scan the ground at multiple wavelengths and identify different kinds of crops in the same farm, which can be very useful for farmers.

When droughts or floods happen, the sat can tell people which area has suffered the most. Then the government can provide more help with better accuracy.

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Satellite pictures of the Kashgar area taken by Gaofen-3 /Picture from VCG

National security

The topic gets a little bit sensitive here, but it's easy to imagine that geo-survey satellites can also monitor military targets like rocket silos and aircraft carriers.

People are amazed by the sharp satellite pictures on Google Maps. But the satellites that took the pictures are capable of much more.

For Gaofen-2, the resolution is 0.8 meters in full color. That means a pixel on a Gaofen-2 photo represents a 0.64-square meter area on the ground.

And it can take pictures of the whole earth surface in 69 days.

That's why some media call these satellites "spy sats" and see them as important to military defense.

In conclusion, the Gaofen satellites serve many purposes and can be very useful for people.
 
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China confirms reception of data from Gaofen-6 satellite
Source: Xinhua| 2018-06-04 20:41:16|Editor: mmm


BEIJING, June 4 (Xinhua) -- The Chinese Academy of Sciences (CAS) confirmed that one of its institutes Monday successfully tracked and received imaging data from the newly-launched Earth observation satellite Gaofen-6.

The Aerospace Information Research Institute said the Miyun station of China Remote Sensing Satellite Ground Station received the first batch of observation data from the Gaofen-6 satellite. There was 40GB of data and the mission lasted six minutes.

The Gaofen-6 satellite was launched on a Long March-2D rocket on June 2 from the Jiuquan Satellite Launch Center in northwest China.

Weighing 1,064 kg and with a life of eight years, the Gaofen-6 satellite has a similar function to the Gaofen-1 satellite but with better cameras, and its high-resolution images can cover a large area of the Earth, according to the State Administration of Science, Technology and Industry for National Defence.

The Gaofen-6 can observe the nutritional content of crops, and help to estimate the yields of crops such as corn, rice, soybeans, cotton and peanuts.

Its data will also be applied in monitoring agricultural disasters such as droughts and floods, evaluation of agricultural projects and surveying of forest and wetlands.

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密云站接收的高分六号卫星2米全色高分辨率相机首轨数据快视影像。中科院遥感地球所 供图
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密云站接收的高分六号卫星16米多光谱中分辨率宽幅相机首轨数据快视影像。中科院遥感地球所 供图
 
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