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China Outer Space Science, Technology and Explorations: News & Updates

BEIJING, June 3 (Xinhua) -- China will soon launch a space telescope, the Hard X-ray Modulation Telescope (HXMT), to observe pulsars in the galaxy of Milky Way, according to Chinese scientists.

"We are still not clear about the interior of pulsars," says Zhang Shuangnan, lead scientist of HXMT and director of the Key Laboratory of Particle Astrophysics of the Chinese Academy of Sciences.

"Current physical laws cannot describe well the substances in the state of a pulsar, since no lab on Earth can create a density as high as a pulsar. So we have to conduct more observations of pulsars," Zhang says.

A pulsar is so strange that when the first one was discovered, it was mistaken for signals from aliens. There are still many mysteries about this kind of star.

It is found to be a highly magnetized, rotating neutron star, which emits two beams of electromagnetic radiation. This radiation can be observed only when the beam of emission is pointing toward Earth. It is much the same as how a lighthouse can be seen only when the light is pointed at an observer.

A neutron star is the collapsed core of a large star. Neutron stars are the smallest and densest stars known to exist. Though they typically have a radius of 10 km, they can have a mass about twice that of the Sun.

A neutron star is so dense that one teaspoon of its material would have the mass of a mountain over 3,000 meters high on Earth, or about 900 times the mass of the Great Pyramid of Giza. Most of the basic models for these objects imply that they are composed almost entirely of neutrons.

Neutron stars have very precise intervals between pulses that range from milliseconds to seconds. They are regarded as the most accurate astronomical clock in the universe. Scientists believe they can use pulsars as "lighthouses" to help navigation in future interplanetary or interstellar travel.

British astronomers Jocelyn Bell Burnell and Antony Hewish discovered the first pulsar in 1967. They nicknamed the strange signal LGM-1, for "little green men". It was not until a second pulsating source was found in a different part of the sky that the "LGM hypothesis" was abandoned.

To date, scientists have discovered more than 2,000 pulsars. The Milky Way is thought to have around 100 million of them, a figure obtained by estimating the number of stars that have undergone supernova explosions.

With their super strong gravitational and electromagnetic fields and high density, pulsars are regarded as natural laboratories of extreme physical conditions.

For instance, the magnetic field on the surface of a neutron star is at least a million times that created in the most advanced lab. In addition, neutron stars might be particle accelerators with the highest energy in the known universe. Scientists could study many phenomena that they cannot replicate on Earth by observing neutron stars, Zhang says.

Lu Fangjun, chief designer of the payload of HXMT, says long-time monitoring of pulsars could help unravel the mystery of their energy sources.

Scientists still don't fully understand how the pulses of neutron stars and the strong magnetic fields around them are formed. China's new space telescope might yield some clues, says Song Liming, deputy chief designer of the ground application system of HXMT.

http://news.xinhuanet.com/english/2017-06/03/c_136336692.htm
 
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China's space station to help maintain co-orbital telescope
Source: Xinhua| 2017-06-07 13:37:39|Editor: MJ



BEIJING, June 7 (Xinhua) -- China will develop and launch a two-meter-caliber space telescope, which will share the same orbit with the country's future space station, said Yang Liwei, deputy director of China Manned Space Agency.

The telescope will dock with the co-orbital space station for refueling as well as maintenance and exchange, Yang revealed at the ongoing Global Space Exploration Conference (GLEX 2017) which began Tuesday in Beijing.

Used for large-scale, multi-color imaging and seamless spectroscope surveying, the space telescope is expected to provide observation data for astronomical and physical studies, said Yang, who is also China's first astronaut.

China will launch the core module of the country's manned space station in 2019 as the first step in completing the country's first space outpost.

The station, expected to begin operation by 2022 and orbit for at least 10 years, will be composed of three modules: core module, experiment module I and experiment module II. Each module will weigh more than 20 tonnes and together the three will be structured in a T shape, with the core module in the middle and an experiment module on each side.

The three modules will be equipped with advanced multipurpose facilities for scientific experiments in many fields, including space life science and biotechnology, microgravity fluid physics and combustion, and material science in space, Yang said.

With the International Space Station set to retire in 2024, the Chinese space station will offer a promising alternative, and China will be the only country with a permanent space station.

The station, orbiting 340 to 450 kilometers above the Earth's surface, will usually accommodate three crew members, with a maximum crew capacity up to six during rotations, Yang said.

The crew will be transported to the station by Shenzhou spaceships, and airtight cargo, large extravehicular payloads and experiment platform will be delivered by cargo ships, he said.

China sent its first cargo spacecraft Tianzhou-1 into space in April. Cargo ships will be sent to help maintain a space station.
 
Satellite to provide data on quakes
By Zheng Jinran | China Daily USA | Updated: 2017-06-08 07:33

China will launch its first electromagnetic earthquake monitoring satellite this year, making it a leading country in the field. The satellite will improve earthquake observation and forecasting, the top earthquake administrative authority said on Wednesday.

"China has established a seismological observation network nationwide, including 1,300 plus observation stations," said Zheng Guoguang, head of the China Earthquake Administration, at a conference showing technological improvements over the years.

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The new satellite will be China's first space-based platform for earthquake monitoring. It is designed to remain in orbit for five years and record the electromagnetic signatures of earthquakes above magnitude 6 in China, and quakes above magnitude 7 elsewhere in the world, according to Shen Xuhui, deputy chief of the mission.

Information collected is expected to help scientists find common factors that can be used to develop earthquake forecasting technology, he said.

Zheng also spoke about technological improvements that have helped the country improve forecasting, disaster prevention and emergency rescue.

Now, within 1 minute, more than 100 million people can receive an earthquake warning message, the administration said. Also, a mobile phone application is available that can help residents plan for possible disasters by setting up hypothetical scenarios - distance between epicenter and home, strength of temblor - and see damage assessments.

Zheng said developed countries have a significant technology gap when it comes to earthquakes, and China lags in some respects. The country will promote seismological science and technology, making it among the best in the world by 2030, he added.
 
China achieves key breakthrough in multiple launch vehicles
(Xinhua) 20:34, June 08, 2017

BEIJING, June 8 (Xinhua) -- China is working on reusable launch vehicles and has achieved progress in some key areas, a carrier rocket official said Thursday.

The processes under development include parachute-landing and propulsion-landing, said Lu Yu, director of Science and Technology Committee of the China Academy of Launch Vehicle Technology (CALT) at the Global Space Exploration Conference (GLEX 2017).

Reusable lift-body launchers will be developed in three stages -- rocket-engine partial reusable vehicle, rocket-engine full reusable vehicle and combined cycle-engine reusable vehicle, said Lu.

The Long March carrier rockets still have room for improvement, Lu said, adding that the CALT is developing a heavy-lift launch vehicle with a payload of 140 tonnes to low Earth orbit and 50 tonnes to lunar transfer orbit.

The heavy-lift carrier rocket is currently called the Long March-9, and it should be sent into space by 2030, he said.

According to Lu, a low-cost commercial medium launch vehicle, the Long March-8. is under development, and based on the Long March-8, a new high-orbit medium launch vehicle should be designed to improve the Long March series and enhance competitiveness.

Since China's space transportation system started in 1960s, a total of 17 types of launch vehicles have been developed. As of May 2017, Long March series carrier rockets have conducted 246 flights with a success rate of 96 percent, fulfilling missions including the launch of manned spacecraft, a moon rover and the BeiDou Navigation Satellite System.

Lu said that China has carried out international space transportation cooperation through piggyback- and commercial-satellite launches and in-orbit delivery.

As of present, the Long March series have finished 55 international launches, sending 64 payloads into orbit for more than 20 countries and regions.

China will also enhance cooperation by renting foreign launch sites to improve launch flexibility, building international launch sites at equatorial regions, and developing sea-based launch platforms with other countries, he said.
 
China achieves key breakthrough in multiple launch vehicles
(Xinhua) 20:34, June 08, 2017

BEIJING, June 8 (Xinhua) -- China is working on reusable launch vehicles and has achieved progress in some key areas, a carrier rocket official said Thursday.

The processes under development include parachute-landing and propulsion-landing, said Lu Yu, director of Science and Technology Committee of the China Academy of Launch Vehicle Technology (CALT) at the Global Space Exploration Conference (GLEX 2017).

Reusable lift-body launchers will be developed in three stages -- rocket-engine partial reusable vehicle, rocket-engine full reusable vehicle and combined cycle-engine reusable vehicle, said Lu.

The Long March carrier rockets still have room for improvement, Lu said, adding that the CALT is developing a heavy-lift launch vehicle with a payload of 140 tonnes to low Earth orbit and 50 tonnes to lunar transfer orbit.

The heavy-lift carrier rocket is currently called the Long March-9, and it should be sent into space by 2030, he said.

According to Lu, a low-cost commercial medium launch vehicle, the Long March-8. is under development, and based on the Long March-8, a new high-orbit medium launch vehicle should be designed to improve the Long March series and enhance competitiveness.

Since China's space transportation system started in 1960s, a total of 17 types of launch vehicles have been developed. As of May 2017, Long March series carrier rockets have conducted 246 flights with a success rate of 96 percent, fulfilling missions including the launch of manned spacecraft, a moon rover and the BeiDou Navigation Satellite System.

Lu said that China has carried out international space transportation cooperation through piggyback- and commercial-satellite launches and in-orbit delivery.

As of present, the Long March series have finished 55 international launches, sending 64 payloads into orbit for more than 20 countries and regions.

China will also enhance cooperation by renting foreign launch sites to improve launch flexibility, building international launch sites at equatorial regions, and developing sea-based launch platforms with other countries, he said.

Good going。 :-)
 
Key feature will be its horizontal take-off, instead of vertical like traditional spacecraft – and it will be able to land at an airport


PUBLISHED : Thursday, 08 June, 2017, 8:33am
UPDATED : Thursday, 08 June, 2017, 11:50am


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China has made “significant progress” in building a spacecraft that can take off and land using an airstrip the way planes do, a development that one expert says could narrow the space technology gap with the United States.

The spaceplane is being developed by the China Aerospace Science and Industry Corporation (Casic) as part of Beijing’s space programme. The aim is for it to carry both astronauts and cargo to and from space missions, Liu Shiquan, vice-president of Casic, a key defence contractor, said.

Liu revealed the plan at the Global Space Exploration Conference in Beijing on Monday.

A key feature of the spaceplane would be horizontal take-off, instead of vertical like traditional spacecraft, Liu told the official Science and Technology Daily.

China making plans to put people on the moon

That would make it similar to a normal plane, but it would be fast and powerful enough to move beyond the atmosphere and dock with other spacecraft, or a space station at near-Earth orbit – and it would be able to land at an airport.

Liu said the project team had finished almost all ground experiments and overcome key technical hurdles such as engine design and construction. He did not give a date for the first test flight.

Experts said the spaceplane, if successful, would make going to space cheaper and more environmentally friendly, while helping China to progress in the technology race with other countries.

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“This is a milestone development. It means that China may be catching up with the US in the space race, and is trying to get ahead,” said Professor Zhang Tao, a scientist at Beihang University in Beijing, who led a national project developing new materials for the defence and space industries. News of the project comes after the US Air Force landed its experimental X-37B spaceplane in Florida last month, its fourth orbital test flight. Its main objective, the US military said, was to develop reusable spacecraft technology.

Zhang, who has been briefed on the project, said the Casic spaceplane was more sophisticated. He said the X-37B was launched vertically with a rocket and launchpad, while its bulky fuselage and small wings made it technically a small, unmanned version of a space shuttle.

But the Chinese spaceplane had a “slender, more aerodynamic body” that meant it could take off by wing and share ground facilities with military or even civilian aircraft, Zhang said.

China plans ambitious space mission to hunt and ‘capture’ asteroids by 2020

The Casic spaceplane would be a bigger version of Virgin Galactic’s White Knight Two, he said. The private company’s spacecraft was designed to carry six tourists for six minutes in space, while the Chinese spaceplane aimed to take astronauts and cargo to space stations.

The project was first proposed in the 1980s but remained on the back-burner for some time. Opponents said it was too risky, too costly and too challenging. The cheaper and more traditional Shenzhou spacecraft was instead chosen for manned missions. But the People’s Liberation Army has continued to fund the project, industry insiders say. And it could become a powerful weapon for the military – used for long-distance strikes or surveillance.

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Spaceplane proposals have appeared elsewhere, but many were abandoned or making slow progress because of the technical challenges. Many test flights of White Knight Two have already been conducted but it has yet to travel above the atmosphere.
Cao Qingjie, professor of non-linear dynamics with the School of Astronautics at Harbin Institute of Technology, said the environment was quite different in space and the atmosphere, and spacecraft designed to do well in both often performed poorly. “The change of gravity alone can easily mess up flight control,” he said.

China’s space ambitions open up a world of wonder and opportunity

A researcher at Beijing Institute of Technology said the Casic spaceplane might have a hybrid engine, adding “the more complex an engine, the more likely it is to shut down in an accident”.

But Zhang said Casic’s announcement suggested most of the problems had been solved. “I expect a test flight soon,” he said.
 
China Plans to Launch Chang'e-5 Lunar Mission on Nov. 30
08:00 07.06.2017(updated 08:36 07.06.2017)

Director of the international cooperation department of China National Space Administration Xu Yansong stated that the third launch of the carrier rocket Long March 5 with the satellite Chang'e-5 will take place in the end of November, approximately on November 30.

BEIJING (Sputnik) — China plans to launch Chang'e-5 lunar mission on November 30, Director of the international cooperation department of China National Space Administration Xu Yansong told Sputnik Wednesday.

"The third launch of the carrier rocket Long March 5 with the satellite Chang'e-5 will take place in the end of November, approximately on November 30. These are our plans so far," Xu said on the sidelines of the Global Space Exploration Conference (GLEX) 2017.​

As part of its lunar program, China plans the launch of the satellite that would collect the samples of the Moon soil and return to Earth.

GLEX-2017 is carried out in Beijing on June 6-8.

The second launch of China's high power carrier rocket Long March-5 [Changzheng 5] is planned for July 2, according to Xu Yansong.

"The second launch of Long March-5 carrier rocket is planned for the late June or early July, approximately July 2," Xu said on the sidelines of the Global Space Exploration Conference (GLEX) 2017.​

Media reported that the carrier rocket was already transferred to the Wenchang Satellite Launch Center earlier in May in preparation for launching a communications satellite.

https://sputniknews.com/asia/201706071054384653-china-space-program/
How will China's lunar probe take back moon samples
New China TV
Published on Jun 9, 2017

China plans to send the Chang'e-5 lunar probe to the moon to collect samples in late 2017. The animated video explains how it will take back samples to the earth.
 
Xinhua Insight: Moon or Mars? Heated discussion on human's next stop
Source: Xinhua| 2017-06-09 20:07:24|Editor: xuxin



BEIJING, June 9 (Xinhua) -- Back in 1969, Neil Armstrong, the first person to walk on the moon, uttered his famous words: "That's one small step for (a) man, one giant leap for mankind."

The statement has inspired ever since. More than 500 astronauts have entered space in the nearly five decades that have followed, and over 10 have landed on the moon.

Buzz Aldrin, the second man to set foot on the moon and Armstrong's companion in the Apollo 11 mission, gave a presentation on his ideas for visiting Mars at the Global Space Exploration Conference (GLEX 2017), which concluded on Thursday.

WHAT IS THE NEXT STOP?

Global leaders in space exploration have now set their sights on Mars, including China.

Wu Yanhua, deputy head of the China National Space Administration (CNSA), said that the country has started an unmanned Mars probe project and plans to launch a Mars probe around 2020.

Steve Eisenhart, senior vice president of the Strategic and International Affairs of the Space Foundation of the United States, said that Aldrin has been working on his idea for close to 30 years.

According to Aldrin's plan, humans may be able to land on Mars before 2039 and set up a station there. Eisenhart and Aldrin, while not representing the U.S. government or the National Aeronautics and Space Administration (NASA), agreed that Mars is a good destination for space exploration.

However, Jan Woerner, director-general of European Space Agency (ESA), said that the moon is a good stepping-stone before going to Mars.

"If we have a goal which is too far away, there might be roads in between those inspirations," said Woerner, adding that the moon is close enough to test and develop needed technology. "It's a very good test bed -- then go deeper into our solar system."

Tian Yulong, secretary-general of the CNSA, said that China is now in discussions with the ESA on co-building a "moon village."

Tian said that a house on the moon could be constructed within a week with materials brought from Earth as well as moon surface materials using 3D printing technology.

Yasuyuki Ito, associate director-general of the Japan Aerospace Exploration Agency, said that his generation was greatly affected by the Apollo program.

"Lunar exploration is our target. At the same time, we've also been discussing a Mars goal," he added.

Pascale Ehrenfreund, chair of the executive board of the German Aerospace Center, said that bringing humans to Mars is very difficult, as is raising funds for space exploration.

"We do things in steps. And the moon is one of the important steps on our way to Mars," she said.

CHINA'S LUNAR EXPLORATION

China's Chang'e lunar program, named after a legendary goddess, includes three phases: orbiting, landing and returning with samples.

Liu Jizhong, director of the China Lunar Exploration and Space Engineering Center of the CNSA, said the Chang'e 5 lunar probe is expected to land in the Mons Rumker region and to take samples back to Earth at the end of the year.

The probe landing site, an isolated volcanic formation located on the northwest of the near side of the moon.

"China is planning and designing its future lunar exploration program. We will focus on the south pole region of the moon. The research on water and the permanent shadow area of the lunar south pole region will bring greater scientific discoveries," Liu said.

According to Wu Yansheng, general manager of China Aerospace Science and Technology Corporation (CASC), China is working on an idea for manned lunar landing.

The mission will consist of a manned spaceship, a propulsion vehicle and a lunar lander. The manned spaceship and the lunar lander will be sent into circumlunar orbit separately.

Yang Liwei, deputy director of the China Manned Space Engineering Office, said that China is in the preliminary stage of its manned lunar program and estimated that Chinese astronauts will be able to walk on the moon around 2030.

LOW-COST SPACE TRANSPORT

Without capable launch vehicles, humans are not able to go deeper into space.

China's Long March carrier rockets still have room for improvement, according to Lu Yu, director of Science and Technology Committee of the China Academy of Launch Vehicle Technology (CALT).

He said that CALT is developing a heavy-lift launch vehicle with a payload of 140 tonnes to low Earth orbit and 50 tonnes to lunar transfer orbit.

CALT has made progress in developing reusable launch vehicles, including parachute landing and propulsion landing, said Lu.

Founded by U.S. entrepreneur Elon Musk in 2002, SpaceX aims to reduce space transportation costs and enable the colonization of Mars. It has developed the Falcon launch vehicle family and invested big in reusable technology for orbital rockets.

Aerospace transportation is now focused on low-cost ways to enter space, said Wang Guoqing, a CASC official.

Wang said leaders in space exploration have set up their own range of launch vehicles and systems, and reusing launch vehicles will become important for reducing costs.

"Breakthroughs have been achieved in reusable technology after 10 years of study. However, we still face challenges as reusable aerospace launches require high reliability and safety," he added.

WIN-WIN SITUATION

Chinese and global space leaders reached an agreement on cooperation in space exploration at GLEX 2017 -- no matter whether they aim for the moon or Mars.

"China is expanding cooperation with the United Nations (UN) in space exploration and will disclose projects later this year," said Yang.

The country has previously undertaken bilateral cooperation with various countries and institutions and is looking toward multilateral projects. China will carry out joint projects with the UN Office of Outer Space Affairs (UNOOSA), including astronaut training, scientific experiments aboard space stations and multilateral application of such experiments, he added.

Liu also proposed creating an open platform for cooperation in accordance with the principle of "sharing the risks and achievements" and setting up the International Union of Planetary Scientists and the International Union of Planetary Science College Students.

"Rather than a space race, I think cooperation is always good and worldwide cooperation is even better. I hope we can breach Earth's crises by having worldwide cooperation in space," said Woerner.

"We should not try to duplicate everything, and if we join forces we can do even more with the same amount of money," he added.
 
China to establish simple ecosystem on Moon using plants, insects
(People's Daily Online) 13:53, June 13, 2017

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In the 2015 sci-fi box office smash "The Martian," an astronaut played by Matt Damon survives four years on Mars by planting potatoes on the alien planet - a scenario which Chinese scientists say is likely to be realized in 2018, albeit on a different celestial body.

According to the Chongqing Morning Post, a container filled with seeds and insect eggs will be attached to Chang’e 4, China’s second lunar lander, and will be sent to the Moon in 2018. The container, which is made from special aluminium alloy, will demonstrate the growing process of plants and animals on the Moon. It will also provide valuable data and experience for the future establishment of eco-bases on other planets.

“The container will send potatoes, arabidopsis seeds and silkworm eggs to the surface of the Moon. The eggs will hatch into silkworms, which can produce carbon dioxide, while the potatoes and seeds emit oxygen through photosynthesis. Together, they can establish a simple ecosystem on the Moon,” Zhang Yuanxun, chief designer of the container, told the Chongqing Morning Post.

According to Zhang, temperature control and energy supply are the biggest challenges for the establishment of an ecosystem on the Moon. To protect its contents from extreme temperatures, the container will be equipped with a layer of insulation and light pipes to ensure the growth of the plants and insects inside. Specially designed batteries with high energy density will also be installed on the container to provide a consistent energy supply.

The container, which is designed by Chongqing University and 28 other universities in China, has over 100 components. It is 18 centimeters long and weighs 3 kilograms.

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Home-grown BeiDou navigation system finds practical uses

2017-06-14 09:16

Global Times Editor: Li Yan

Unmanned tractors sow seeds pretty fast on an expansive cotton farm belonging to the Xinjiang Production and Construction Corps, in Northwest China, where drones fly at a constant height of 1.8 meters above wheat plants and spray fertilizer on the growing crops.:D

These marvels mark China's latest development in precision agriculture, which relies on autonomous vehicle technology supported by the country's home-grown BeiDou Navigation Satellite System (BDS).

Accurate positioning based on BDS is essential for precision agriculture, said Zhang Ruifeng, head of the publicity department at the UniStrong Science and Technology Co, which is based in Beijing and offers satellite navigation and positioning services.

The firm successfully developed the "Huinong," or "Smart Agriculture" precision system, China's first self-developed autonomous farming machinery, in 2016, with a maximum error margin of 2.5 centimeters in straight line operations.

The Huinong system has widely spread in China's major grain-producing areas including Northwest China's Xinjiang Uyghur Autonomous Region and Northeast China's Heilongjiang Province.

The performance of the smart farming system has reached a globally competitive level, it can elevate agricultural productivity by 6 percent and the cost of such applications has been reduced by 30 percent as the technology is maturing in China, said Zhang.

In the next two to three years, BeiDou's applications in the agriculture sector are expected to play a bigger role, he said.

And, the firm is discussing cooperation terms with Russian and Kazakhstani firms on BDS-supported autonomous farming vehicles, Nan Shunxian, the General Manager of the strategic cooperation department of the firm told the Global Times Monday.

Bikes and cities

Besides the agriculture sector, BDS is being widely used in wearable devices, mobile healthcare, express deliveries, bike-sharing services, disaster prevention and relief, and other fields, according to an industry whitepaper released by the Global Navigation Satellite System and Location-based Services Association of China in May.

The growth of bike-sharing businesses in Chinese cities has boosted the use of BeiDou in the transportation sector, and is expected to create a 17 billion yuan ($2.5 billion) market by 2020.

Mobike, a major bike-sharing company, uses smart locks that support both GPS and BeiDou. One of its rivals, Ofo, said in April that it will soon use BeiDou-enabled electronic locking system.

The gross value of China's satellite navigation and positioning industry reached 211.8 billion yuan in 2016, up 22.1 percent year on year, according to an industry whitepaper.

Beidou's satellite precision positioning service has also been used by the Beijing Gas Group to detect and locate any gas leaks in its massive pipelines.

Sun Jiadong, an academician of the Chinese Academy of Sciences, said BeiDou has a wide range of applications and its satellite positioning service should be developed practically.

Going out

The BDS will also go out and cover countries and regions along the "One Belt and One Road" initiative route, providing basic positioning services for the route, and at the same time, a global satellite navigation system based on BDS will come into being by 2020, Ran Chengqi, an official at Beidou Navigation Satellite System, told the Smart BDS Precise Application Summit on Monday.

The summit also announced the establishment of a 40-member Belt and Road international satellite application cooperation alliance in an attempt to promote the services of BeiDou satellites, the Xinhua News Agency reported.

The members of the alliance were not revealed.

In the second half of 2017, China will launch six to eight more BeiDou-3 satellites, accelerating its efforts toward the goal of providing navigation and positioning services to the countries and regions participating in the Belt and Road initiative in 2018 and beyond.

To date, China has already launched 22 BeiDou satellites into orbit, said Xinhua. By 2020, a flotilla of more than 32 BeiDou satellites in space will form a complete global satellite navigation system.

"By then, China's BDS, truly surpassing the Russian's Global Navigation Satellite System GLONASS, and Europe's Galileo, will become a competitive alternative to the US's GPS," Song Zhongping, a Beijing-based commentator, told the Global Times.

http://www.ecns.cn/2017/06-14/261376.shtml
 
China's space telescope to observe black holes in Milky Way
New China TV
Published on Jun 14, 2017

China will soon launch the Hard X-ray Modulation Telescope to observe black holes, pulsars and gamma-ray bursts. How will it work in the space?
 

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