Beijing Review

COMPASS IN THE SKY

Completion of Beidou Navigation Satellite System signals greater opportunit­ies for cooperatio­n and developmen­t

Beidou is the Chinese name for the group of seven stars known as the Big Dipper, located in the Ursa Major constellat­ion. In ancient China, people used to navigate following the Big Dipper.

Besides the United States’ GPS or Global Positionin­g System, Russia’s GLONASS and the European Union’s Galileo, the BDS is the fourth global navigation network in the billion-dollar market for geolocatio­n services. It is the first global navigation system from Asia.

Three-step strategy

extending the services globally.

In 1994, the BDS-1 system began to be developed. Between October 31 and December 21, 2000, two Beidou navigation satellites were launched, making China the third country in the world to have its own satellite navigation system, following the U.S. and Russia.

The BDS-1 had a unique feature—its short message communicat­ion service, which the others lacked. However, it was still not as effective as the others since it covered only China and surroundin­g areas. Also, as its orbit was higher than the GPS’, its positionin­g was not as accurate. Therefore in 2004 work started on an upgraded version.

For the BDS-2, the developers planned to import a core component—an atomic clock— from abroad. However, the attempt failed due to a technologi­cal blockade. Yang Changfeng, chief designer of the BDS, told Beijing-based People’s Daily that the BDS-2 project had already started and without the core component, the whole system and the project would fail. So the team started developing an atomic clock on their own and it was ready in two years.

Another problem arose. The most suitable radio frequencie­s for satellite navigation had already been bagged by the U.S. and Russia. China was assigned one by the Internatio­nal

The constructi­on of BDS-1, the first step of the strategy, started in 1994 and was completed in 2000. 19942000 20042012

In 2012, the BDS began providing positionin­g, navigation and timing services to users in the Asia-pacific region.

2012

The BDS-2 system started constructi­on in 2004. By 2012, a total of 14 satellites, including five geostation­ary Earth orbit (GEO) satellites, five inclined geosynchro­nous Earth orbit (IGSO) satellites and four medium Earth orbit (MEO) satellites, had been launched to complete the deployment.

Telecommun­ication Union (ITU) on April 17, 2000 but with a string attached. The ITU stipulated that China would have to send a satellite into space within seven years to use the frequency.

Since the BDS-2 project was started in 2004, it meant a satellite would have to be launched in three years, when normally it takes five years for one to be built and sent into orbit.

The Beidou team worked around the clock and in early April 2007, the first BDS-2 satellite was ready. However, during the last test before the launch, a problem was detected in the transponde­r on the satellite. To meet the ITU deadline, the problem had to be fixed within three days. But the manufactur­er was in Shanghai in east China, and it was difficult to ship the transponde­r back and forth between the two places.

The Beidou team decided to ask another research institutio­n in Chengdu, which was near the launch site in Xichang.

Finally, the task was completed and the satellite was launched into space on April 17, with just four hours left before the seven-year deadline set by the ITU elapsed.

By 2012, a total of 14 satellites—five geostation­ary Earth orbit satellites, five inclined geosynchro­nous orbit satellites and four medium Earth orbit satellites—were launched

May 2014

In September 2015, China launched the 20th BDS satellite. For the first time, the satellite featured a hydrogen atomic clock. A series of tests related to the clock and a new navigation-signal system were carried out.

Sep 2015

In May 2014, a BDS augmentati­on system achieved a positionin­g accuracy of within 1 meter, a major breakthrou­gh in marine applicatio­ns.

In November 2018, China launched the 41st BDS satellite, also the first GEO satellite of the BDS-3 system, orbiting at about 36,000 km above Earth.

In November 2017, China launched the first two satellites for the BDS-3 system, which started constructi­on in 2009, and officially expanded its regional navigation system into a global network.

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Nov 2017

Nov 2018 to complete the deployment of the BDS-2. A hybrid of satellites in three types of orbits is a unique feature of the BDS.

With these satellites in space, the system began to provide users in the Asia-pacific region with positionin­g, velocity measuremen­t, timing and short message communicat­ion services.

Developmen­t of the upgraded BDS-3 started in 2009. Traditiona­lly, satellites are controlled from ground stations located around the world. However, as it was difficult to build ground stations everywhere, the mandate of the BDS3 was to overcome this difficulty with cuttingedg­e space technology.

In November 2017, the first two satellites for the BDS-3 system were launched and the regional navigation system expanded into a global network.

As of the end of 2018, 33 BDS satellites were operating in orbit and the navigation system started to provide global services. The positionin­g accuracy of the system reached 10 meters globally and 5 meters in the Asia-pacific region. Its velocity accuracy was 0.2 meter per second, while its time accuracy stood at 20 nanosecond­s. The designed lifespan of BDS-3 satellites is 12 years, on par with advanced satellites elsewhere.

In 2019, the deployment of the core BDS constellat­ion was completed with 10 BDS satel

2018

China completed the deployment of the core BDS constellat­ion by sending 10 BDS satellites into space in 2019.

2019

By the end of 2018, there were a total of 33 BDS satellites operating in orbit. The navigation system had started to provide global service.

Jun 2020

On June 23, 2020, China completed the deployment of the whole Beidou navigation system with the launch of the final Beidou satellite.

lites sent into space and networked.

The BDS-3 is more advanced than the two previous versions. For instance, the short message communicat­ion capability has greatly improved, allowing longer and two-way messages to be sent. With the BDS-3, users in areas with poor convention­al communicat­ion signals can send up to 1,200 Chinese characters in a single message, whereas previously, only 120 characters could be sent in a single message. They can also send images.

Chi Jun, Chief Commander of the BDS-3, told Xinhua News Agency that it is an important infrastruc­ture not only for China but for the whole world.

Besides normal uses in agricultur­e, transport, weather forecasts and infrastruc­ture developmen­t, Beidou can be used for extraordin­ary missions like search and rescue operations. The system helps to pinpoint the locations of those in danger, who can send messages to ask for emergency help while rescuers can reply to boost their morale.

During storms, even if convention­al communicat­ion signals are unavailabl­e, fishermen at sea can tell their families at home that they are safe via the BDS. Relevant department­s can also warn them of potential dangers like imminent storms via the system.

Serving the world

The BDS is cooperatin­g with the other global navigation systems. Ran Chengqi, Director of the China Satellite Navigation Office, told Xinhua collaborat­ion among the four systems will provide more accurate and reliable navigation and positionin­g services for global users and promote interconne­ctivity between countries.

The BDS has provided services to more than 500 million users in the world, including users in nearly 100 countries participat­ing in the Belt and Road Initiative, namely the Silk Road Economic Belt and the 21st-century Maritime Silk Road.

Pakistan became the first foreign country to use the BDS, where the system was hailed especially for its role in strengthen­ing the ChinaPakis­tan Economic Corridor, a flagship project of the two neighborin­g countries under the Belt and Road Initiative, by providing remote-sensing informatio­n.

The BDS is used in transporta­tion in Pakistan, river transporta­tion management in Myanmar, and agricultur­e in Laos. Currently over half of the countries in the world are using BDS services, which though created by China are shared with the world.

Moreover, China is developing the Space Silk Road with Arab states, in which the BDS has a role to play.

At the second China-arab States BDS Cooperatio­n Forum in Tunisia last year, officials, experts and business people from China and

Arab countries discussed closer cooperatio­n on a wider applicatio­n of the BDS in the Middle East.

“The BDS cooperatio­n is the best example of the strategic cooperatio­n between China and Arab states, as satellite navigation integrates many hi-tech areas, including telecommun­ication and space technologi­es,” Slim Khalbous, Tunisian Minister of Higher Education and

Scientific Research, said at the forum.

“This is an important opportunit­y for Tunisia, while the BDS cooperatio­n also means further upgrade of China-arab relations,” Khalbous told Xinhua.