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Pakistan and Beidou

Safriz

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SUPARCO GNSS Vision

SUPARCO has cooperation agreement with China Satellite Navigation Office (CSNO)
for exchanging and promoting GNSS civil applications in Pakistan.

The BeiDou system developed by China has functions of fast positioning, bidirectional digital short-message communication and precise timing. Especially the timing has features of safety, accuracy, all weather and versatility, with one-way timing accuracy of 10 ns and two-way timing accuracy of 20 ns, so it can completely replace GPS timing.

American GPS time signals are currently being utilized by a multitude of users.Error or blockage of the time signal can wreck havoc.
In the afternoon of January 13, 2011,GPS time signals were abruptly disrupted over china and due to that their Mobile phone network came on the brink of shutting down.

Legally American Navstar GPS operators are not bound to inform anybody about any Disruption of the signal,be it intentional errors or non intentional.
For Mobile phone base stations the time synchronization of every base station is strict, otherwise it would lead to call switch fail, even to fail to establish the call.
Pakistan can avoid similar situation by switching over to more reliable and currently less accurate Beidou completely,as being a signatory for both Military and civilian use .

China will sell Beidou chip at a lower price than Navstar GPS chip lowering the cost of Navigation equipment.


BeiDou Applications in Pakistan

BeiDou/GPS Dual Mode Chip for Vehicles

For civilian use China is set to release vehicle navigation chips compatible with both GPS and Beidou.Any car navigation system with Beidou chip will work equally good on Navstar GPS and Beidou,and depending on the Firmware,can compare both signals for more accuracy and greater coverage.

Civil Aviation
Currently Position accuracy of Beidou is 10 Meters in two dimensions and the error is greater in Altitude calculation.
Thats where Beidou Augmentation comes in..Its a ground or satellite based system which calculated errors in the positioning signals and relays the error to users for centimeter accuracy in all three dimensions.
China has released documents to International civil aviation authorities and soon civil aviation industry will have Beidou receivers for Landing and takeoff.

Transportation Monitoring and Management

Surveying and Mapping

This year Pakistan started a Japanese aided program of using Satellite navigation systems for Land record keeping
Japanese-aided GIS centre inaugurated
The project is currently operating in a limited area in KPK,but with Augmentation aided beidou operating at Centimeter accuracy,such a program can be launched countrywide .


Meteorology

China will launch GNOS satellite in early 2013,and with that weather forecast will be far more accurate than it is now.The Radio occulation receives the earth limb occultaion BD/GPS signal, refracted passing through the atmosphere, retrieving the atmospheric profile of temperature, humidity, and
ionospheric profile of TEC, by very high measurement of the path bending and the phase amplitude change.
http://www.jcsda.noaa.gov/documents/meetings/2009summercoll/Cucurull_GPS.pdf

THIS IS AN ONGOING THREAD ABOUT BEIDOU>>>FEEL FREE TO ADD MORE INFO
 
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Most important thing that should've been mentioned, but apparently has been purposely neglected is navigation @ supersonic speeds, which Beidou will be providing. :enjoy:
 
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Most important thing that should've been mentioned, but apparently has been purposely neglected is navigation @ supersonic speeds, which Beidou will be providing. :enjoy:

and the exact location of SUPARCO's Beidou Augmentation ground stations and Beidou tracking Station
Wont be mentioned in this thread.
 
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Sorry to bust your bubble, but it has already been disclosed to the last minute, take a guess who did it?

and the exact location of SUPARCO's Beidou Augmentation ground stations and Beidou tracking Station
Wont be mentioned in this thread.
 
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Sorry to bust your bubble, but it has already been disclosed to the last minute, take a guess who did it?

No you are not bursting my bubble..
I started this thread and i dont wish anybody to mention that data..
If you have it,please keep it to yourself..But most welcome to contribute anything else about Beidou...
 
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All satellite navigation systems have two components..
Space segment comprising of Satellites and Ground component,which comprises of satellite tracking and monitoring stations or stations..

Here is some information about Beidou COMPASS ground segment.

The COMPASS Ground Segment consists of:

a Master Control Station: responsible for satellite constellation control and processing the measurements received by the Monitor Stations to generate the navigation message.
Upload Stations: responsible for uploading the orbital corrections and the navigation message to Compass satellites.
Monitor Stations, which collect Compass data for all the satellites in view from their locations.


Currently, the Ground Segment includes one Master Control Station, two Upload Stations and 30 Monitor Stations.

It should be noted that BeiDou-1 is based on GEO communication satellites for the Radio Determination Satellite System (RDSS) service. User position is obtained through the following steps:

the station sends a signal to a set of users through one of the GEO satellites
the user sends a signal to the GEO satellites (at least two of them)
each satellite sends the accurate time of arrival of the signal to a ground station
the ground station computes the user position and sends this information to the satellites that broadcast the position back to the user

In addition, the system supports a short message communication service that can be exchanged between the station and the users.
 
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With the system operational China is the third member of an elite group, along with the US and Russia, to develop a satellite navigation system.

The US spent 20 years and more than $20 billion on the GPS. Completed in 1994, the system has 24 navigation satellites and is widely used around the world.

Beidou has its own unique features, Ran said.

"It not only tells users where they are and what time it is but also allows users to tell others the information through short messages," Ran said, adding that this feature is being considered by other systems.

Russia's Glonass system achieved a 24-satellite constellation in 1996 but succumbed to funding problems.

The rebuilding of the Glonass system is almost finished and Russian media reported that the system resumed service earlier this month.

The European Union and the European Space Agency are building the Galileo satellite navigation system. Japan and India also intend to build independent regional navigation systems.

"Countries build their own systems because owning an independent satellite navigation system is important to economic development and national security," said Pang Zhihao, deputy editor-in-chief of the monthly publication Space International.

There have long been concerns that the US might take its dominant GPS offline in certain international emergencies.

Ran said that the Beidou system will be "helpful" to national defense.

An "independent and controllable" satellite navigation system can guarantee national economic development as well as scientific and industrial strength, he said.

China started to reduce its reliance on the GPS in 2000, when it sent an experimental pair of positioning satellites into orbit.

But Ran stressed that Beidou is "built for the world", as the compatibility of various systems enhances reliability for users.

"If you only use GPS there will be blind spots. But from demonstrations I saw recently, receivers that are compatible with Beidou will overcome these problems," he said.

He encouraged enterprises at home and abroad to join the research and development of application terminals compatible with Beidou.

The office put a test version of the system's Interface Control Document online on Tuesday, which is a technical document vital for the manufacturing and development of receivers and chips.

The prospects for the country's satellite navigation industry look bright, experts said.

Analysts estimated that around 2020 the industry's output will reach $500 billion globally, including 400 billion yuan ($63 billion) to 500 billion yuan from China.

According to the 2011 Report on Application of Geosaptial Information in China released on Monday, the number of satellite navigation application terminals in China has grown from less than 100,000 in 2000 to more than 10 million in 2009. The number is expected to reach 340 million by 2015.

An insider said a compatible receiver for car use costs 1,600 yuan to 3,000 yuan, higher than a GPS receiver.

"Chips supporting both GPS and Beidou systems have been developed, and terminals have been produced. There are no technical hurdles for the industry," said Han Shaowei, CEO of Beijing-based Unicore Communications Inc, a major navigation chip and core component provider.

Beidou application terminals have been put into use in vehicles, such as government cars in Guangdong province.

Ran said that private terminal makers in Guangdong are testing their receivers on the road, and the products seem stable.

"The price of the compatible terminals is expected to be slashed next year," he said.

Reasons for Compass

The Russian GLONASS was developed to support the Soviet Navy, and the U.S. GPS arose from the merger of previously separate Air Force and Navy satellite navigation efforts. China began researching satellite navigation and positioning technologies in the 1960s, but it was not until 1983 that a plan for satellite navigation and positioning system was developed. The “Double Star Rapid Positioning System” was the basis for the Beidou-1 two-satellite RDSS system that was formally approved for development in 1994. The impetus for the Compass systems is not fully known, but press reports attribute it to military requirements for more accurate missile targeting.

The Chinese were close observers of the role of GPS in the first Gulf War. Chinese writings on military doctrine began to talk of “war under informationalized conditions” and how information from space-based systems such as GPS was changing the nature of modern warfare. Exploiting these new information sources required not just space capabilities but changes in how military forces were organized, trained, and equipped.

Chinese security interests encompass not only China itself and nearby areas, but also the sea lanes that enable the import of raw materials and export of finished goods. In recent years, China has shown an increasing interest in “maritime domain awareness,” in which satellite navigation is used for monitoring the transit of ships in the Indian Ocean (for example, oil from the Middle East) and the South China Sea (minerals from Australia, fishing zones). Satellite navigation is a dual-use, commercial and military, interest for China, and this may have prompted support for the more advanced, independent GNSS that would become Beidou-2 or Compass.

Regardless of the cause, People’s Liberation Army officials have said that China needs it own satellite positioning system to ensure its ability to conduct independent military actions. The later 1990s saw continued Beidou-1 satellite deployments while design of the newer Beidou-2/Compass satellites began. China joined the Galileo consortium in 2003 but abandoned it in 2006 in dissatisfaction over access to technology and work share arrangements. Efforts on Compass accelerated, and the first experimental satellite of the new system was launched in 2007.

In a September 2010 interview with Chinese press, Duan Zhaoyu, vice president of BDStar Navigation, said that there are currently more than 20,000 civilian users of the Beidou-1 navigation system, 60 percent of whom use products from his company. More than 10,000 of these users are fishermen in the South China Sea. Not surprisingly, the Chinese government and military constituted the majority of users as it was also reported that as of August 2009, there were only 60,000 Beidou users in total. The number of registered terminal users amounted to only 1 percent of the system’s capacity, leaving the satellite resource seriously under-used.

The underutilization of Beidou-1 is both a challenge and an opportunity for the Compass system in both domestic and international applications. The designer of the first Chinese satellites and current Beidou chief designer, Sun Jiadong has stressed the importance of actual utilization in arguing that “satellites in the sky should be coordinated with ground applications” and “pushing China’s Beidou satellite navigation system to bring as much economic and social benefit as early and as quickly as possible.” In order to do this, “…the state should promulgate corresponding policies, regulations, and systems as soon as possible to support development of the new satellite navigation application industry. It should guide, encourage, and attract even more Chinese enterprises and public institutions to actively participate in the construction of an industrial chain for ground applications.”

Internationally, China has stressed cooperation with other GNSS systems. At the June 2010 meeting of the Asia-Pacific Economic Cooperation (APEC) organization, the Chinese presentation said that Beidou-2 (Compass) would “provide high-quality open services free of charge from direct users, and worldwide use of Beidou is encouraged,” and that Beidou-2 will “pursue solutions to realize compatibility and interoperability with other satellite navigation systems.”

Strategic Significance of Compass

Unlike Galileo, Compass is not a multinational cooperative program nor did it ever consider being a public-private partnership. Like GPS and GLONASS, Compass was created as an independent strategic effort by a national government for military and economic benefits.

Unlike the history of GPS and GLONASS, however, the Chinese government from the beginning recognized the dual-use nature of Compass signals. Like GPS today, Compass plans to deploy CDMA signals at multiple frequencies to support a full range of application, from transportation to precision positioning and timing.

Like Galileo, Compass still has to demonstrate that its signals are stable, operationally reliable, and accurately represented by published interface control documents to attract manufacturers to build the capability into their products. Galileo, Compass, and GLONASS all have the challenge of meeting the expectation of the existing installed base of billions of GPS users — whether or not they know they are reliant on GPS.

The technical management of Compass is clearer than its policy management. Compass and Beidou-1 are the responsibility of the China Aerospace Science and Technology Corporation (CASC), the administrative holding company for the China Academy of Spaceflight Technology (CAST), the primary state-owned contractor for the Chinese space program. The military plays a large role in all Chinese space activities, and in recent years there has been uncertainty as to who is the government policy leader for space. In particular, the role of the China National Space Agency (CNSA) appears to have diminished in recent years. CNSA leaders scheduled to speak at major international conferences, such as the International Astronautical Federation, have cancelled at the last minute, while PLA speakers have presented instead.

When U.S. President Barack Obama and China’s President Hu Jintao met in Beijing in 2009, their joint summit statement included a call for the NASA administrator to meet with an unspecified Chinese counterpart. Some of this may be coincidence due to other time demands such as launch schedules, but the Chinese decision-making hierarchy for space remains as opaque as it does in so many other areas.

The opaqueness of Chinese political decision-making prompts speculation as to what China’s long-term strategic intent is with respect to Compass. The advent of open Compass signals would be potentially positive for the current installed base of GPS users — providing interoperable signals that improved the availability of positioning solutions. Internationally, the Chinese presence helps secure the international use of the RNSS spectrum and could be a potential ally in suppressing commercial sales of GNSS jamming devices — some of which are manufactured in China today. The view from Russia with respect to GLONASS is likely to be similar to that of GPS; Compass is largely a complementary system.

From a European perspective, however, Compass is more problematic, both technically and commercially. The signal overlay on the Galileo PRS is a potential complication for Europe being able to deny PRS access in times of emergency.

Perhaps more importantly, the rapid pace of Compass satellite deployments means that Compass may reach an initially operational capability sooner than Galileo. This is highly probable for coverage in Asia and increasingly likely on a global basis as Galileo faces criticism over cost increases and schedule delays. While Galileo has published an open service ICD and China has not, it would be a simple matter for China to time the release of an official Compass ICD one product cycle (that is, 18 months) before the 2012 completion of Asia-Pacific coverage. This would make Compass potentially very attractive to manufacturers looking to decide what would be of most benefit to the existing installed base.

In general, China pursues its space activities as part of broad approach to what might be termed “comprehensive national power” to include military power, economic power, diplomatic influence, scientific and technological capabilities, and even political and cultural unity. This need not necessarily mean that such power will be used for aggressive purposes.

If China’s strategic intent is to ensure its own independence and a place at the global table, then it is possible that Compass will not be harmful to U.S. interests. This outcome will depend on whether China continues to work with the international community in forums such as the ITU, the ICG, APEC, and so on, maintains open markets, and does not use Compass in military efforts to force changes in the status quo regarding Taiwan, the South China Sea, or the Indian Ocean.

Since China’s strategic intentions are unclear, it makes sense for the United States to seek bilateral discussions with China on Compass and to maintain a close strategic dialog with other countries in the region, notably Japan, Australia, Korea, Russia, and India. These countries are not only militarily and economically important, but also have their own GNSS-related systems and equities to consider.

The choices for China are whether Compass will be part of its “peaceful rise” and will serve truly national interests. Those interests could be seen as harnessing the kinds of dramatic IT productivity benefits other economies have seen in GNSS applications — enhanced by open, market-driven innovation and competition.

Alternatively, it is possible to imagine China closing off its domestic market, protecting domestic state-owned enterprises, and focusing on the space and military aspects of Compass rather than market-driven civil and commercial applications.

The question for Chinese leaders is whether they should measure the success of Compass just by the success of Chinese firms at home or by the global acceptance of Compass as a reliable brand name for GNSS services and signals.

Compass is like China itself, where there are both great promise and some concerns. The signs to date for Compass are positive and will hopefully continue on the path of engagement and cooperation. The United States and the global GPS community should continue to encourage those positive signs in working with China, commercially, diplomatically, scientifically, and (perhaps especially) with more direct military-to-military contacts. All of these efforts can increase the chances that China will join the United States as another good steward of GNSS.
 
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Pakistan’s Space and Upper Atmosphere Research Commission (SUPARCO) is set to receive a new global navigation satellite system (GNSS) with the assistance of China. China, who is a strategic partner of Pakistan, will provide satellites similar to the Beidou satellite system currently being deployed as part of China’s indigenous global positioning system.
http://www.spacesafetymagazine.com/...obal-navigational-satellite-system-june-2013/

Rendition of satellite PakSat 1R to be launched by SUPARCO (Credits: Mohammad Amir Patni).
While there are not many details surrounding Pakistan’s system, it is probable that it will resemble the Beidou-1 system. The first two indigenous Beidou experimental navigation satellites were launched in 2000. The final Beidou-1 constellation consists of four geosynchronous satellites: two operational satellites and two satellites to serve as backups.

In the Beidou scenario, the two-satellite concept achieved similar accuracy to the United States’ GPS, but it did have its drawbacks. On the other hand, it did provide China with an indigenous, independent, high-accuracy military navigation system that could function in any conditions short of total war with a major military power, as well as support military communications. If this is the course that Pakistan will take, then it will no doubt utilize two of its allotted geosynchronous slots to deploy the system.

SUPARCO touts this new capability for applications in digital map production for road vehicle navigation, public safety and disaster management, mapping and resource positioning, mining and quarrying among others. However, considering the Bediou-1 system had a regional military capability, it is likely that Pakistan intends to utilize this new potential to bolster its military capability in the region, including against its ongoing geopolitical disputes with neighboring India.
 
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All Beidou Satellites are Fitted with Chinese made Rubidium Atomic clock which are much cheaper than Hydrogen Masers...which can cost as much as 230,00 USD a piece...
Using a cheaper clock has a down side of Reliability..To compensate for any possible failures,all Beidou Satellites are fitted with an active and a dormant Atomic clock..Both made by different manufacturers...
Currently the Chinese made Rubidium Clocks are active,and an off the shelf Atomic clock is sitting dormant in the satellites which can be activated in case the Chinese made Clocks fail...

Beidou M1 satellite launched April 13, 2007 had developed clock error and is now unsuitable for navigational use.
Beidou G2 satellite Launched April 14, 2009 has stopped transmitting and is now uncontrollable.
http://www.weblab.dlr.de/rbrt/pdf/GPS_12_COMPASS_Preprint.pdf
 
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By 202 Bedou 1 will be completely Phased out and replaced by Beidou-2 which will have 35 satellites (16 already launched)

A 35-satellite constellation, which was mentioned several times during the ION presentations as part of China’s
plans, would incorporate 5 GEO satellites, 3 IGSO satellite
and 27 MEO spacecraft

The program will offer a free-of-charge Open Service
that, Jun Shen of BNStar Navigation System and Technology told attendees, will use the B1-C signal, an L-band signal
centered at 1,575.42 MHz.
The Open Service has a 10- to 20-meter stand-alone
accuracy now and is expected to improve to 10 meters, Yang
said. The timing accuracy, now at about 20 to 30 nanoseconds, should improve to 15 nanoseconds in the future.
An encrypted Authorized Service will also be available,
according to Yang, for key industrial users and the military.
That service would be both more accurate and more robust.
A Wide Range Differential Service and a Position
Report Service will be available to both sets of users. The
differential service will use both on-the-ground augmentation and augmentation from the constellation itself to
improve accuracy. The report service sends out a user’s
position along with a short message of up to 12 Chinese
words (as many as 24 English words.) These two-way messages cannot only be sent to a central system provider but
back and forth between users
http://oxidemems.ece.cornell.edu/papers/gnss_bestpresentation.pdf
 
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bg2_3_2.jpg


This report indicates that Beidou monitiring stations are under construction in Pakistan.
 
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Beidou has all the potential of becoming the next JF-17 of Pak-china cooperation.
The full set of technical data has been released to Pakistan Strategic Planning division for military applications and SUPARCO for civilian use.
Its a pandora box of revenue earning oppertunities as Beidou will need extensive software and Platform development and testing,and china has given an open oppertunity to Pakistan to participate in all of that.
Both sides will benifit from this cooperation.
 
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When I read thread title, I though it is about Baidu search engine.
 
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