China's Space Activities in 2006

Information Office of the State Council of the People's Republic of China

October 2006, Beijing

Contents

Preface
I. Aims and Principles of Development
II. Progress Made in the Past Five Years
III. Development Targets and Major Tasks for the Next Five Years
IV. Development Policies and Measures
V. International Exchanges and Cooperation

Preface

Space activities around the world have been flourishing in the first few years of the 21st century. Leading countries in the area of spaceflight have formulated or readjusted their development strategies, plans and goals in this sphere. The role of space activities in a country's overall development strategy is becoming increasingly salient, and their influence on human civilization and social progress is increasing.

It has been 50 splendid years since China embarked on the road to develop its space industry, starting in 1956. For half a century, China has worked independently in this field. It has made eye-catching achievements, and ranks among the world's most advanced countries in some important fields of space technology. China is unflinching in taking the road of peaceful development, and always maintains that outer space is the common wealth of mankind. While supporting all activities that utilize outer space for peaceful purposes, China actively explores and uses outer space and continuously makes new contributions to the development of man's space programs.

China has set the strategic goal of building itself into a well-off society in an all-round way, ranking it among the countries with the best innovative capabilities in the first 20 years of the 21st century. The development of the space industry in China now faces new opportunities and higher requirements. In the new stage of development, China will adhere to the scientific outlook on development as guidance, center its work on the national strategic goals, strengthen its innovative capabilities and do its best to make the country's space industry develop faster and better.

China's space industry has made great progress since the Chinese government issued the white paper China's Space Activities in 2000. In order to give people around the world a better understanding of the development of China's space industry over the past five years and its plans for the near future, we hereby offer an expanded introduction to some related issues.

I. Aims and Principles of Development

The aims of China's space activities are: to explore outer space, and enhance understanding of the Earth and the cosmos; to utilize outer space for peaceful purposes, promote human civilization and social progress, and benefit the whole of mankind; to meet the demands of economic construction, scientific and technological development, national security and social progress; and to raise the scientific quality of the Chinese people, protect China's national interests and rights, and build up the comprehensive national strength.

When developing the space industry, China will follow the principles guiding the development of the country's scientific and technological programs, namely, making innovations independently, making leapfrogging development in key areas, shoring up the economy and leading future trends. In the new development stage, the principles of development for China's space industry are as follows:

-- Maintaining and serving the country's overall development strategy, and meeting the needs of the state and reflecting its will. China considers the development of its space industry as a strategic way to enhance its economic, scientific, technological and national defense strength, as well as a cohesive force for the unity of the Chinese people, in order to rejuvenate China. Since the space industry is an important part of the national overall development strategy, China will maintain long-term, stable development in this field.

-- Upholding independence and self-reliance policy, making innovations independently and realizing leapfrogging development. China relied completely on itself when it developed its space industry from scratch, and has made constant progress through making independent innovations. Therefore, increasing the capability for independent innovation is a strategic basis for developing the space industry. In light of the country's actual situation and needs, China will focus on certain areas while ignoring less-important ones. It will choose some limited targets, concentrate its strength on making key breakthroughs and realize leapfrogging development.

-- Maintaining comprehensive, coordinated and sustainable development, and bringing into full play the functions of space science and technology in promoting and sustaining the country's science and technology sector, as well as economic and social development. China will strengthen strategic planning, making overall plans for the development of space technology, space application and space science. It will encourage progress in space science and technology to promote the development of high technology and industry, as well as the trans-formation and upgrading of traditional industries. Meanwhile, it will protect the space environment, and develop and utilize space resources in a rational manner.

-- Adhering to the policy of opening up to the outside world, and actively engaging in international space exchanges and cooperation. China supports all activities that utilize outer space for peaceful purposes. It will strengthen exchanges and cooperation in this field with other countries on the basis of the principles of equality, mutual benefit, peaceful utilization of outer space and common development.

II. Progress Made in the Past Five Years

From 2001 to 2005, China's space industry has developed rapidly, making many achievements. A group of research and development and testing bases of the advanced world level has been built, and the system of research, design, production and testing has been further improved, markedly enhancing the country's basic capabilities in space science and technology. With breakthroughs in important key technologies, the overall level of China's space technology has been improved remarkably. Having made a historic breakthrough in manned spaceflight, China has embarked on a comprehensive lunar exploration project. Space application systems have taken shape, the range of application has been further expanded, application benefits have been noticeably enhanced, and important achievements have been made in space scientific experiments and research in this regard.

Space Technology

1. Man-made satellites. Over the past five years, China has independently developed and launched 22 different types of man-made satellites, upgrading its overall level in this field markedly. On the basis of the four satellite series initially developed, China has developed two more satellite series, to bring the total to six -- the recoverable remote-sensing satellites, "DFH" (Dongfanghong, or The East is Red) telecommunications and broadcasting satellites, "FY" (Fengyun, or Wind and Cloud) meteorological satellites, "SJ" (Shijian, or Practice) scientific research and technological experiment satellites, "ZY" (Ziyuan, or Resources) Earth resource satellites, and "Beidou" (Plough) navigation and positioning satellites. In addition, the oceanic satellite series will come into being soon. China has speeded up the implementation of the plan to establish "a constellation of small satellites for environment and disaster monitoring and forecasting." Research and development of the payload of some new, high-performance satellites have been successful, and many application satellites have begun regular operation. The Fengyun Iand Fengyun II meteorological satellites have been listed by the World Meteorological Organization in the international satellite series for meteorological services. Important breakthroughs have been made in key technologies related to the common platform for big geostationary orbit satellites. Periodical achievements have been made in the research and development of large-capacity telecommunications and broadcasting satellites. Substantial progress has been made in the research and development, and application of small satellites.

2. Launching vehicles. Over the past five years, "Long March" rockets independently developed by China have made 24 consecutive successful flights, and their major technological functions and reliability have been notably upgraded. From October 1996 to the end of 2005, "Long March" rockets made 46 consecutive successful flights. Important breakthroughs have been made in key technologies of the new-generation launching vehicles. Research and development of the 120-ton thrust liquid-oxygen/kerosene engine and the 50-ton thrust hydrogen-oxygen engine are proceeding smoothly.

3. Launching sites. The construction of three launching sites at Jiuquan, Xichang and Taiyuan, has made new progress, and their comprehensive test and launch capabilities have been enhanced. Various launching vehicles, man-made satellites, unmanned experimental spacecraft and manned spacecraft have been successfully launched from the three launching sites many times.

4. Telemetry, tracking and command (TT&C). The overall performance of the country's TT&C network has been improved and expanded. It has provided TT&C support to man-made satellites traveling in different orbits, and to unmanned experimental spacecraft and manned spacecraft during launch, operation in orbit, return and landing.

5. Manned spaceflight. On November 20 and 21, 1999, China launched and retrieved the first "Shenzhou" unmanned experimental spacecraft. It then launched three more "Shenzhou" unmanned experimental spacecrafts not long afterwards. On October 15 and 16,2003, it launched and retrieved the "Shenzhou V" manned spacecraft, China's first of its kind. Having mastered the basic technologies for manned spacecraft, China became the third country in the world to develop manned spaceflight independently. From October 12 to 17,2005, the "Shenzhou VI" manned spacecraft completed a five-day flight with two astronauts on board. This was the first time for China to have men engage in experiments in space, another major achievement in the sphere of manned spaceflight.

6. Deep-space exploration. Advance studies and engineering work of the lunar-orbiting project has been conducted, making important progress.

Space Application

1. Satellite remote-sensing. The fields and scale where satellite remote-sensing is used have been constantly expanded. Breakthroughs have been made in a large number of key application technologies; infrastructure facilities have been strengthened; the technological level and operational capabilities of the application system have been notably improved; and a national satellite remote-sensing application system has taken shape. China has built and improved the National Remote-Sensing Center, National Satellite Meteorology Center, China Resources Satellite Application Center, National Satellite Oceanic Application Center and China Remote-Sensing Satellite Ground Station, as well as satellite remote-sensing application and certification institutes of relevant state departments, provinces and cities. An optical remote-sensing satellite radiation calibration station has also been completed and put into operation. Many remote-sensing products and services are provided by using data resources obtained from observation of the Earth by both Chinese and foreign satellites of multiple wavelengths of wide scope and long duration. Satellite remote-sensing application systems have been put into regular operation in many important fields, particularly in meteorology, mining, surveying, agriculture, forestry, land mapping, water conservancy, oceanography, environmental protection, disaster mitigation, transportation, and regional and urban planning. They are playing an important role in the nationwide land resources survey, ecological construction and environmental protection, as well as in major state projects, such as the South-North Water Diversion Project, the Three Gorges Project and the Project to Transmit Natural Gas from West to East.

2. Satellite telecommunications and broadcasting. Satellite telecommunications and broadcasting technologies are developing rapidly, their application is becoming more extensive and an application industry in this field has taken initial shape. By the end of 2005, China had more than 80 international and domestic telecommunications and broadcasting Earth stations, and 34 satellite broadcasting and TV link stations. Dozens of departments and some large corporations have established altogether some 100 satellite specialized communication networks and more than 50,000 Very Small Aperture Terminals (VSAT). The development and application of satellite radio and TV broadcasting services has increased the coverage and improved the quality of the programs all over China, particularly in the vast countryside. Satellite telecommunications and broadcasting technologies play an irreplaceable role in the projects "to give every village access to broadcasting and TV" and "to give every village access to telephones." A satellite tele-education broadband network and a satellite tele-medicine network have been established. As a member of the International Maritime Satellite Organization, China has established a maritime satellite communication network covering the whole world, ranking it among the advanced countries in the application of international mobile satellite communication.

3. Satellite navigation and positioning. China has implemented several major related projects, one of which is called "industrialization of satellite navigation and positioning applications." By employing domestic and foreign navigation and positioning satellites, China has made great progress in the development, application and services of satellite navigation and positioning technologies. The range and fields where satellite navigation and positioning are applied are being continuously expanded and the size of the national market for satellite navigation and positioning doubles every two years. Satellite navigation and positioning technologies have been widely used in transportation, basic surveying and mapping, project surveys, resources investigation, earthquake monitoring, meteorological exploration, oceanic surveys, and so forth.

Space Science

1. Sun-Earth space exploration. In cooperation with the European Space Agency (ESA), China has carried out the Double Star Satellite Exploration of the Earth's Space Plan. Together with the four space exploration satellites of the ESA, China's satellites completed the world's first joint, synchronous six-point exploration of the Earth's space, obtaining important data. Advance research into exploration of the lunar and the solar systems was also conducted.

2. Micro-gravity scientific experiments and space astronomical observation. China has carried out many items of experimental research in such fields as space life science, space materials science and micro-gravity science by using the "Shenzhou" spacecraft and recoverable satellites. It has also conducted trial tests of mutant crop breeding and high-power astronomical observation in space, and scored important achievements.

3. Space environment research. China has conducted research into space environment monitoring and forecasting, and made important progress in the observation, reduction and forecasting of space debris. It now has the ability to make forecasts of the space environment on a trial basis.

III. Development Targets and Major Tasks for the Next Five Years

"The Outline of the 11th Five-Year Program for National Economic and Social Development" and "The National Guideline for Medium- and Long-term Plans for Science and Technology Development(2006-2020)" formulated by the Chinese government in 2006 put the space industry in an important position. Based on the above two documents, the Chinese government has drawn up a new development plan for China's space industry, defining development targets and major tasks for the next five years or more. According to this plan, the country will launch and continue key space projects, including manned spaceflight, lunar exploration, high-resolution Earth observation, new-generation carrier rockets, and a group of priority projects in key sectors. It will also strengthen basic research, make arrangements ahead of schedule, develop frontier space technology, and accelerate progress and innovation in space science and technology.

Development Targets

To remarkably improve the country's capabilities and reliability of carrier rockets in space; to build a long-term, stably operated Earth observation system, and a coordinated and complete national satellite remote-sensing application system; to set up a relatively complete satellite telecommunications and broadcasting system, and remarkably enhance the scale and economic efficiency of the satellite telecommunications and broadcasting industry; to establish a satellite navigation and positioning system step by step to meet the demand, and bring into being China's satellite navigation and positioning application industry; and to achieve the initial transformation of applied satellites and satellite application from experimental application type to operational service type.

To enable astronauts to engage in extravehicular activities, and achieve spacecraft rendezvous and docking; to realize the lunar-orbiting probe; and make important and original achievements in space science research.

Major Tasks

-- To develop nontoxic, pollution-free, high-performance, low-cost and powerful thrust carrier rockets of the new generation, eventually increasing the carrying capacity of near-Earth orbiters to 25 tons, and that of geostationary orbiters to 14 tons; develop in an overall way the 120-ton thrust liquid-oxygen/kerosene engine and the 50-ton thrust hydrogen-oxygen engine; and increase the reliability and adaptability of the present "Long March" carrier rockets.

-- To start and implement a high-resolution Earth observation system; develop and launch new-type sun synchronous orbit and geo-stationary-orbit meteorological satellites, oceanic satellites, Earth resources satellites, small satellites for environmental protection and disaster mitigation monitoring and forecasting; and to start research into key technologies of new-type remote-sensing satellites, including stereo mapping satellites. To form an all-weather, 24-hour, multi-spectral, differential-resolution Earth observation system for stable operation, and achieve stereoscopy and dynamic monitoring of the land, atmosphere and sea.

-- To make an overall plan for the development of a satellite remote-sensing ground system, and an application system; to integrate and improve the present satellite remote-sensing ground system, establish and improve a national satellite remote-sensing data center, and set up and improve supporting facilities for quantitative application, including a remote-sensing satellite radiation calibration station, and preliminarily materialize the common sharing of remote-sensing data to serve the public good; to set up a satellite environmental application institute and a satellite disaster-mitigation institute, forming several important application systems; and to make breakthroughs in major satellite remote-sensing application fields.

-- To develop and launch geostationary orbit telecommunications satellites and direct TV broadcasting satellites with long operating life, high reliability and large capacity; and to develop satellite technologies for live broadcast, broadband multi-media, emergency telecommunications, and telecommunications and broadcasting for public service. To continuously develop and improve the service functions of satellite telecommunications and broadcasting, and increase value-added services in the field of satellite telecommunications and broadcasting. To actively accelerate the commercialization of satellite telecommunications and broadcasting, and expand the industrial scale of telecommunications and broadcasting satellites and applications.

-- To improve the "Beidou" navigation satellite test system, and launch and implement the "Beidou" navigation satellite system project. To independently develop application technologies and products in applying satellite navigation, positioning and timing service, and set up a standard positioning service supporting system and popular application terminus related to satellite navigation and positioning, expanding the application fields and market.

-- To develop and launch new-technology test satellites, conduct more spaceflight experiments of new technologies, materials, apparatus and equipment, enhance the independent research and development level, and increase product quality and reliability.

-- To develop and launch the "breeding" satellite, and promote integration of space technology and agricultural breeding technology and expand the application of space technology in the field of agricultural science research.

-- To develop scientific satellites, including space telescope and new-type recoverable satellites; to conduct basic research in the fields of space astronomy, space physics, micro-gravity science, and space life science, and make important and original achievements in these fields; and to strengthen the ability to monitor the space environment and space debris, and initially set up a space environment monitoring and warning system.

-- To enable astronauts to engage in extravehicular operations and conduct experiments on spacecraft rendezvous and docking; and to carry out research on short-term manned and long-term autonomously orbiting space laboratories, which is of certain application scale, and carry out follow-up work of manned spaceflight.

-- To realize lunar-orbiting probe, make breakthroughs in developing basic technologies for lunar exploration, and develop and launch China's first lunar probe satellite "Chang'e I" for lunar science and lunar resources exploration; and to carry out final-period work for the lunar exploration project.

-- To increase the comprehensive experimental ability and returns of spacecraft launching sites, optimize the layout, and enhance the reliability and automation level of the facilities and equipment of the sites.

--To advance the technology and capability of TT&C network, enlarge the coverage rate of the network, and acquire the ability to satisfy the basic demand for deep-space exploration.

IV. Development Policies and Measures

The Chinese government, under the guidance of the scientific out-look on development, has made overall plans in the three fields of space technology, space application and space science to promote independent innovations in space science and technology, make space activities create more economic and social benefits, ensure the orderly, normal and healthy development of space activities, and achieve the set goals.

The major policies and measures for China's space industry at present and in the near future are as follows:

-- To make overall plans for and deploy rationally space activities. To give priority to the development of applied satellites and satellite applications, develop in a proper way manned spaceflight and deep-space exploration, and give active support to space science exploration.

-- To muster strength in implementing key space scientific and technological projects, strengthen basic research and make plans for frontier technologies in advance. To muster superior forces to make leapfrogging development in space science and technology by making breakthroughs in core technologies and resources integration. To increase the sustainable innovative ability of space science and technology through strengthening basic research in the space field and developing several frontier technologies in advance.

-- To promote space application and accelerate the industrialization of space activities. To strengthen the development of space application technologies, promote resource sharing and expand the scope of application. With emphasis on telecommunications satellites, satellite telecommunications, satellite remote-sensing, satellite navigation and carrier rockets, to vigorously construct a comprehensive chain of space industry covering satellite manufacturing, launching services, ground equipment production and operational services. To strengthen the spread, transformation and secondary development of space technology, and transform and upgrade the traditional industries.

-- To attach importance to the infrastructure construction of the space science, technology and industry. To strengthen the building of infrastructure facilities for developing, producing and experimenting with spacecraft and carrier rockets. To give support to key laboratories and engineering research centers of space science and technology, strengthen the work on informatization, intellectual property rights and standardization of space activities.

-- To promote the building of a space technology innovation system. To guide the reform, restructuring, transformation and updating of the space science, technology and industry, and accelerate the building of world-class large space corporations. To actively construct a space technology innovation system integrating production, education and research with space science and technology enterprises and national scientific research institutes at the core.

-- To improve the scientific management of space activities. To adapt to the progress of the socialist market economy, actively make innovations in the system and mechanisms of scientific management, improve the sense of quality and profit among personnel, apply system engineering and other modern management tools to promote scientific management, increase system quality, minimize system risks and enhance comprehensive benefits.

-- To strengthen legislation work. To formulate laws, regulations and space industrial policies for guiding and regulating space activities, increase the level of administration by law, and create a legislative environment favorable for the development of space activities.

-- To guarantee input of funds for space activities. The Chinese government will increase input to the space industry, and at the same time encourage the establishment of a diverse, multi-channel space funding system, so as to guarantee the sustainable and stable development of the space industry.

-- To encourage people of all walks of life to participate in space-related activities, including encouraging industrial enterprises, scientific research institutes, commercial corporations, institutions of higher learning and social organizations, under the guidance of national space policies, to give full play to their advantages, take an active part in space activities, and participate in international space-related exchanges and cooperation. To encourage satellite operation enterprises and application units to use Chinese satellites and satellite-application products.

-- To strengthen the fostering of talented people for the space industry. To spare no efforts for the education and cultivation of personnel, give attention to whetting their sense of innovation through practice. In particular, it is necessary to pay more attention to fostering a rationally structured contingent of young and highly qualified space scientists and engineers. To make efforts to publicize space knowledge and culture, and attract more outstanding personnel into the space industry.

The Chinese government continues to strengthen its administration and macro-guidance concerning space activities. The China National Space Administration (CNSA) is the country's governmental organization responsible for the management of space activities for civilian use and international space cooperation with other countries, and responsible for implementing corresponding governmental functions.

V. International Exchanges and Cooperation

The Chinese government holds that outer space is the common wealth of all mankind, and each and every country in the world enjoys equal rights to freely explore, develop and utilize outer space and celestial bodies; and that all countries' outer space activities should be beneficial to the economic development, social progress of nations, to security, subsistence and development of mankind, and to friendly cooperation between people of different countries.

International space cooperation should adhere to the fundamental principles stated in the "Declaration on International Cooperation in the Exploration and Use of Outer Space for the Benefit and in the Interest of All States, Taking into Particular Account the Needs of Developing Countries." China maintains that international space exchanges and cooperation should be strengthened on the basis of equality and mutual benefit, peaceful utilization and common development.

Fundamental Policies

The Chinese government has adopted the following policies with regard to developing international space exchanges and cooperation:

-- Adhering to the principle of independence and taking the initiative in our own hands, carrying out active and practical international cooperation in consideration of the overall, rational utilization of domestic and international markets and resources to meet the needs of the national modernization drive.

-- Supporting activities regarding the peaceful use of outer space within the framework of the United Nations. Supporting all inter- governmental activities for promoting the development of space technology, space application and space science as well as those conducted between non-governmental space organizations.

-- Attaching importance to space cooperation in the Asia-Pacific region, and supporting other regional space cooperation around the world.

-- Reinforcing space cooperation with developing countries, and valuing space cooperation with developed countries.

--Encouraging and endorsing the efforts of domestic scientific research institutes, industrial enterprises, institutions of higher learning, as well as social organizations to develop international space exchanges and cooperation in different forms and at different levels under the guidance of relevant state policies, laws and regulations.

Over the past five years, China has developed bilateral space cooperation with a host of countries. It has successively signed 16 international space cooperation agreements and memorandums with13 countries, space agencies and international organizations, and propelled multilateral cooperation in space technology and its application in the Asia-Pacific region and the process of establishing a space cooperation institution for the region. China has joined relevant activities sponsored by the United Nations and other relevant international organizations, and supported international space commercial activities. These measures have yielded positive results.

1. Bilateral cooperation: Over the past five years, China has signed cooperation agreements on the peaceful use of outer space and space project cooperation agreements with Argentina, Brazil, Canada, France, Malaysia, Pakistan, Russia, Ukraine, the ESA and the European Commission, and has established space cooperation subcommittee or joint commission mechanisms with Brazil, France, Russia and Ukraine. It has signed space cooperation memorandums with space organizations of India and Britain, and has conducted exchanges with space-related bodies of Algeria, Chile, Germany, Italy, Japan, Peru and the United States.

China continues to collaborate with Brazil on the Earth resources satellite program. Following the successful launch of the Sino-Brazilian Earth Resources Satellite 02 in October 2003, the Chinese and Brazilian governments signed supplementary protocols on the joint research and manufacturing of satellites 02B, 03 and 04, and on cooperation in a data application system, maintaining the continuity of data of Sino-Brazilian Earth resources satellites and expanding the application of such satellites' data regionwide and worldwide.

China and France have developed extensive space exchanges and cooperation. Under the mechanism of the Sino-French Joint Commission on Space Cooperation, the exchanges and cooperation between the two countries have made important progress in space science, Earth science, life science, satellite application, and satellite TT&C.

The space cooperation between China and Russia has produced marked results. Within the framework of the Space Cooperation Sub-Committee of the Committee for the Regular Sino-Russian Premiers' Meeting, a long-term cooperation plan has been determined. In addition, exchanges and cooperation in the sphere of manned spaceflight have been carried out, including astronaut training.

China has unfolded space exchanges and cooperation with Ukraine. Under the mechanism of the Sino-Ukrainian Joint Commission on Space Cooperation, the two countries have determined cooperation plans.

China and the ESA have carried out the Sino-ESA Double Star Satellite Exploration of the Earth's Space Plan. China's relevant departments and the ESA have implemented the "Dragon Program," involving cooperation in Earth observation satellites, having so far conducted 16 remote-sensing application projects in the fields of agriculture, forestry, water conservancy, meteorology, oceanography and disasters.

2. Multilateral cooperation: In October 2005, the representatives of China, Bangladesh, Indonesia, Iran, Mongolia, Pakistan, Peru and Thailand signed the Asia-Pacific Space Cooperation Organization (APSCO) Convention in Beijing, and in June 2006 Turkey signed the Convention as well. APSCO will be headquartered in Beijing. This marks a significant step toward the official establishment of APSCO.

China continues to promote the Asia-Pacific Region Multilateral Cooperation in Small Multi-Mission Satellites Project. Together with Bangladesh, Iran, the Republic of Korea, Mongolia, Pakistan and Thailand, China has started the joint research, manufacture and application of small multi-mission satellites, to be launched in 2007.

China takes a positive part in activities organized by the United Nations Committee on the Peaceful Uses of Outer Space (UN COPUOS) and its Scientific and Technical Subcommittee and Legal Subcommittee. China has acceded to the "Treaty on Principles Governing the Activities of States in the Exploration and Use of Outer Space, Including the Moon and Other Celestial Bodies," "Agreement on the Rescue and Return of Astronauts, and on the Return of Objects Launched into Outer Space," "Convention on International Liability for Damage Caused by Space Objects," and "Convention on the Registration of Objects Launched into Outer Space," and strictly fulfils its responsibilities and obligations. China actively participates in the relevant activities organized by the UN COPUOS to implement the recommendations made by the Third United Nations Conference on the Exploration and Peaceful Uses of Outer Space (UNISPACE III). In particular, China, alongside Canada and France as co-chairs, has propelled the work of the space-system-based disaster mitigation and disaster management of the Action Team (AT-7) joined by 40 member states of COPUOS and 15 international organizations, and has actively taken part in the work of an ad hoc expert group to study the possibility of creating a coordination mechanism for disaster mitigation and management. China has acceded to a disaster mitigation mechanism consisting of space organizations from different countries in the light of the Charter on Cooperation to Achieve the Coordinated Use of Space Facilities in the Event of Natural or Technological Disasters. In cooperation with the UN, China has hosted UN/ESA/China basic space science workshops and a UN/China workshop on tele-health development in Asia and the Pacific. China has also hosted, in collaboration with the Multilateral Cooperation Secretariat of the Asia-Pacific Space Cooperation Organization and the UN Economic and Social Commission for Asia and the Pacific, training courses and symposia on space technology applications, and has provided financial support for these activities. China has also taken part in a program promoting the application of space for sustainable development in Asia and the Pacific organized and implemented by the UN Economic and Social Commission for Asia and the Pacific.

China has actively participated in activities organized by the Inter-Agency Space Debris Coordination Committee, started the Space Debris Action Plan, and strengthened international exchanges and cooperation in the field of space debris research. It has participated in the relevant activities organized by the Committee on Earth Observation Satellites (CEOS), and hosted the 18th CEOS plenary and 20th anniversary activities in Beijing in November 2004. In May 2005, China officially became a member of the ad hoc inter-governmental Group on Earth Observations (GEO), and an executive committee member as well. In July 2006, China held in Beijing the 36th COSPAR (Committee on Space Research) Scientific Assembly and the 8th International Lunar Exploration Working Group(ILEWG) International Conference on the Exploration and Utilization of the Moon. In addition, China has taken part in the relevant activities of the International Telecommunications Union (ITU), World Meteorological Organization (WMO), International Astronautical Federation (IAF), and Committee on Space Research (COSPAR).

3. Commercial activities: China launched a communications satellite "APSTAR VI" into orbit in April 2005. In December 2004, China signed a commercial contract for a communications satellite with Nigeria, providing in-orbit delivery service to that country. In November 2005, China signed a commercial contract for a communications satellite with Venezuela, providing in-orbit delivery service and associated ground application facilities.

Priority Cooperation Areas

The Chinese government continuously renders support to international exchanges and cooperation in space technology, space application and space science, with priority given in the next five years to cooperation in the following areas:

-- Scientific research into space astronomy, space physics, micro-gravity science, space life science, lunar exploration and planet exploration;

-- Data sharing and services of Earth observation satellites, and application and research in the areas of resources investigation, environment monitoring, prevention and mitigation of disasters, and global climate change monitoring and forecasting;

-- Sharing of space TT&C network resources, and mutual provision of space TT&C assistance;

-- Design and manufacture of communications satellites and Earth observation satellites;

-- Manufacture of ground facilities and key components of satellite communications, remote sensing, and navigation and positioning;

-- Application of satellite communications and broadcasting in tele-education and tele-medicine, and expansion of application scope of satellite broadcasting and TV, and related services for satellite navigation and positioning;

-- Commercial satellite launching services, export of satellites and their components and parts, and construction and services of satellite ground TT&C and application facilities;

-- Exchanges and training of personnel in various fields of space activities.

Source: Spaceref

Red Dragon Rising: China's Space Program Driven by Military Ambitions

China is readying an unpiloted Shenzhou 3 spaceship for flight, a key step toward claiming a prestigious position in the heavens - becoming the third nation after Russia and the United States to attain an independent ability to launch humans into Earth orbit.

Sending people into space, and eventually to the Moon, is a piece of a much grander Chinese agenda.

China's all-purpose space schedule not only entails increasing use of satellites for weather watching, resource monitoring, and communications purposes.

A military space war-fighting strategy is also being put in place, some China-watchers claim. That line of attack calls for quick access to orbit, lofting anti-satellites, utilizing powerful ground-based lasers to blind spacecraft - all part of a technological tool kit for denying use of the "high ground" of space by an adversary.

Product quality problems

At China's Jiuquan Space Launch Center in northwestern Gansu Province, preparations are in "full swing" for flight of a Shenzhou 3 craft that now tops a Long March 2-F booster. Some reports peg the launch occurring "in the near future," while other sources suggest the craft won't be airborne until June, at the earliest.

Whatever the case, getting the automated space vehicle into orbit hasnt been easy.

Shenzhou 3 was apparently on tap for a takeoff late last year. Problems in "product quality" held up the flight, said Hu Shixiang, deputy director of the General Armament Department of the People's Liberation Army, as reported earlier this month by China New Service in Beijing.

What mission profile the Shenzhou 3 will fly is anybody's guess, except to Chinese space authorities that remain tight-lipped and distant from routine media contact.

Piloted flight early next year?

The maiden and modest voyage of a Shenzhou took place in November 1999, circuiting the Earth 14 times, parachuting to Earth in Inner Mongolia.

Shenzhou 2 flew in January 2001, and was a far more aggressive shakeout of the craft. The multi-module space vehicle performed a nearly 7-day, 108-orbit flight, then ejected a return capsule carrying biological specimens that touched down in Inner Mongolia. How much of a "soft landing" the returning module made is still being questioned by outside observers. Meanwhile, Shenzhou 2 left its orbital module above Earth, with ground controllers putting the segment through an extensive set of maneuvers.

The flight of an unpiloted Shenzhou 3 -- and its delayed liftoff -- suggest to some Western analysts that extra-special care is being taken to prepare the craft. Speculation centers on whether this test shot, if fully successful, might be a prelude to a manned Shenzhou 4 mission.

Hu, who is also deputy commander in chief of China's human space flight program, however, has been quoted as saying that a fourth unpiloted Shenzhou is slated for this year. The first piloted Shenzhou, depending on how well the automated flight series goes, might take place in early 2003, he said.

Dual pads

Charles Vick, chief of the space policy division of the Federation of American Scientists in Washington, D.C., said that a Long March 2F booster at the ready to hurl the Shenzhou 3 into space was removed from its launch pad in late July or early August of last year. The rocket was sent back to the factory, then returned later in the year, he said.

Vick said that a second, neighboring launch site to handle Long March 2F rockets is under construction. Having dual launch pads points to China's possible interest in Earth orbit rendezvous and assembly of spacecraft hardware in the future. The two launch areas are designed to work in concert, making use of the same mini-vehicle assembly building where Shenzhou-carrying boosters are prepared, he said.

"It is felt that the People's Republic of China is only racing itself. The Shenzhou 3 will launch as soon as they resolve the technical problems they have encountered since last year. It is not unusual for technical issues to hold up a new research and development program," Vick told SPACE.com.

Prestige and pride

Marcia Smith, a policy analyst for the Congressional Research Service in Washington, D.C. sees China's space program as a paced, steady-state program. "They've got goals, and continue to work at them at the pace they can support financially and technically," she said.

They are not forthcoming about their launch schedules, so pinning them down to exact plans is difficult, Smith said. "They are vague and say they'll launch a human into space by 2005. So that's a big window. But then they've also said that by 2010 they are going to have people on the Moon. And that's a very aggressive schedule," she said.

China showing an independent capability to launch humans into space will likely have an impact, but more a matter of gaining prestige and pride, Smith said. "But whether it has a global impact the way Sputnik had in 1957, I'm not sure it's going to have that level of effect," she said.

How about a China-built orbiting complex that's tended by coming-and-going Chinese astronauts?

"Whether them having a space station would pose some kind of national security issue for the rest of the world is something that I can't speculate on," Smith said.

U.S. space: access denied

But one China space watcher paints a troublesome picture.

Richard Fisher, a senior Fellow with the Jamestown Foundation in Washington, D.C., said that China's unmanned satellite program is "accelerating in an upward direction, rather quickly."

That acceleration, Fisher said, has ominous portent.

"They are preparing for a post-2005 conflict time frame. I think by 2005, or soon thereafter, an initial photo and radar satellite constellation will be in place. It will be sophisticated and large, and sufficient for Chinese needs to support a military campaign over Taiwan," he said.

Fisher said that China's piloted Shenzhou can be expected to contribute imaging or other reconnaissance data to the country's People's Liberation Army (PLA) in some form. "It will not be a purely science for science-sake undertaking," he said.

"Their manned space program is, first and foremost, a political exercise for the communist leadership," said "It is an exercise designed to prove the continuing worth of the communist government to the Chinese people," he said.

American reliance on space continues to grow, a fact not missed by China, Fisher said. In the PLA there is a very clear realization that space control, in the American sense, is something that they require as well, he said.

"China needs to be able to deny to the United States access and use of space, as they themselves exploit space to support their own forces," Fisher said.

To this end, Fisher said that researchers in China are busy at work on high-energy lasers to dazzle U.S. satellites. Another part of that nation's space arsenal are nanosatellites, tiny craft that can be used as anti-satellite weaponry. Furthermore, the Chinese have a small aircraft-shaped space shuttle, a vehicle easily modified to carry missiles sufficient for satellite interception, he said.

Full-spectrum space program

"Space is the next high ground. The Chinese understand thatand we forget that at our peril," said Dean Cheng, Research Analyst with Project Asia at The CNA Corporation in Washington, D.C.

Cheng said that China's space skills that premiered in the 1970s shouldn't be looked on as mirroring early Russian and American efforts. "There's a different force behind it," he said.

Clearly, putting up satellites has helped China's prestige in the eyes of the world. These satellites were and continue to benefit their national economy, Cheng said.

With their human spaceflight program, Cheng said, "the Chinese are pursuing a full-spectrum space program," he said, one that yields a national integrated Chinese space capability. "The manned space program for China is part of that. I'm not sure we know what that purpose isand that's worrisome," he said.

Trump the second-tier

"If you look at the overall Chinese space program, they are pursuing everything from micro and mini-satellites, all the way up through a manned space program. Space is a major Chinese technology area that they feel they must develop and exploit," Cheng said. "They understand the importance of space, politically, economically and militarily. We need to understand that this is not some third-world country firing off a one-shot deal," he stressed.

Cheng said that China would trump the second-tier space powers by having their own human space launch capability, leaving behind Japan, India, and even the European Space Agency.

"There would be a technological, political, sort of in-your-face aspect to it," Cheng said. "On the other hand, having a Shenzhou crew come back crispy-crittered would be a really bad move," Cheng added.

In the larger picture, Cheng said, China's space agenda is a force to be reckoned with, adding: "We must remember here in the United States that the new frontier may not fly only the red, white, and blue. It's the fact that now we're seeing dragons in orbit.

Source: Space.com

China's Space-Weapon Test Could Endanger Astronauts and Satellites

Feb. 1, 2007

When the Chinese government destroyed one of its weather satellites in a military test last month, it sent a chill through the U.S. military.

And engineers say it had a serious side effect -- it increased the amount of orbiting space junk by about 10 percent.

That could mean danger -- to other satellites, and even, possibly, to astronauts on the International Space Station and future space shuttle flights.

"There's a lot of stuff up there in low-Earth orbit," said T.S. Kelso, a veteran space-surveillance analyst who is now at the Center for Space Standards and Innovation in Colorado Springs, Colo. "While we can't tell them that 'five months from now, you're at risk for being hit,' it's not unreasonable to expect that it's going to affect a lot of stuff in orbit."

500 Pieces of Debris, Possibly Thousands More

The Chinese test, carried out on Jan. 11, was at once complex and very simple. An old weather satellite, passing 537 miles overhead, was targeted by a missile launched from a Chinese military base.

The missile hit the satellite with deadly precision. The missile carried no bomb because it didn't need one. The satellite was pulverized by the impact.

But what followed was chaos in space. As of today, Kelso reports that American radar is tracking at least 525 pieces of debris from the collision -- each at least the size of a baseball.

There are probably hundreds, if not thousands, of smaller ones.

The pieces are gradually spreading out in a ring around the Earth, creating a vast area where spacecraft face increased danger of being hit.

"We've already seen in the range of 500 to 600 events where some piece of debris from this one event was coming within 5 kilometers [about 3 miles] of some payload," said Kelso.

Space 'Pollution'

It's a growing problem. The U.S. Air Force was already tracking almost 14,000 objects in orbit.

Three times in the last 15 years, U.S. satellites have reportedly been disabled or damaged by collisions with space junk. NASA is worried enough about the problem that each shuttle crew now spends the entire day before landing taking pictures of its ship's heat shield tiles, just in case there's been a small but potentially fatal impact.

China's Space-Weapon Test Could Endanger Astronauts and Satellites

If a shuttle crew ever does find damage, the astronauts would have to seek safe haven on the International Space Station, and wait for a second shuttle to get them. Such an accident, NASA's administator, Michael Griffin, has said, would probably mean the end of the shuttle program.

The Chinese weather satellite, designated Fen Yung-IC, was in an orbit that took it over the North and South poles. It's an orbit that's popular for weather, reconnaissance and Earth-science satellites because it allows daily pictures of virtually every part of the planet below.

"There are about 125 or 130 satellites in that same orbit," said Theresa Hitchens, head of the Center for Defense Information, a Washington-based group that provides information on national defense and aerospace isues. "It's a highly used orbit, and it's an orbit that's already fairly polluted."

Shuttles travel in a very different path; all but one of the remaining 13 missions is scheduled for assembly of the space station, about 220 miles high. But the ring of debris from the Chinese debris has already spread out enough that the station passes through it twice on every 90-minute orbit of the earth.

How great is the danger? They don't call it "space" for nothing; there is a lot of empty void in the realm where most spacecraft orbit. NASA has said it's not worried.

But the debris from the Chinese test has added to the small chance of a big catastrophe.

"We can't see it, we can't track it," said Hitchens, "and something as small as a marble can shatter a satellite."

China's Space-Weapon Test Could Endanger Astronauts and Satellites

Source: ABC News

US hails China's 2nd manned space mission

China's second manned spacecraft Shenzhou VI blasts off into the sky Wednesday morning October 12, 2005. The craft, carrying astronauts Fei Junlong and Nie Haisheng, is expected to orbit the Earth for five days. [Xinhua]

BEIJING, Oct. 13 -- The United States congratulated China on launching its second manned space mission and welcomed any effort to make peaceful use of space.

China's second manned spacecraft Shenzhou VI blasts off into the sky Wednesday morning October 12, 2005.
China's second manned spacecraft Shenzhou VI blasts off into the sky Wednesday morning October 12, 2005. The craft, carrying astronauts Fei Junlong and Nie Haisheng, is expected to orbit the Earth for five days. [Xinhua]
"We obviously congratulate China on the successful launch of its second manned space mission," Deputy State Department spokesman Adam Ereli said.

"Furthermore we would applaud China and its success as only the third country to launch people into space.

"Our view is that the peaceful use of space is something that is appropriate and we welcome China's developments in this area."

Separately, the head of the National Aeronautics and Space Administration also hailed China's launch of its second manned space mission, saying it reaffirmed the country's place among the space "elite".

"China, once again, has demonstrated that it is among the elite number of countries capable of human space flight," NASA Administrator Michael Griffin said in a brief statement.

"We wish them well on their mission, and we look forward to the safe return of their astronauts."

China launched the spacecraft, Shenzhou VI, with two astronauts aboard, from Jiuquan Satellite Launch Center at 9:00 am (0100 GMT) Wednesday for a five-day mission.

The flight came just two years after the country's first manned space flight which carried one astronaut.

Source: Sinhuanet

China launches first manned spacecraft

2003-10-15 09:06:35

　　JIUQUAN, Gansu, Oct. 15 (Xinhuanet) -- China's first manned spacecraft, the Shenzhou-5, blasted off from the Jiuquan Satellite Launch Center in the northwestern province of Gansu at 9 a.m. Wednesday.

　　The spacecraft, atop a Long March II F rocket, was piloted by Yang Liwei, 38, a lieutenant colonel of the People's Liberation Army (PLA). Yang, a member of the PLA's Astronauts Team, was trained at home.

　　The Shenzhou mission, if successful, will make China the third nation to send a man into outer space, following the former SovietUnion and the United States.


Source: www.chinaview.cn

China Unveils New Space Science Plan

Beijing (XNA) Mar 13, 2007
The government has unveiled an ambitious blueprint for developing space science that includes the launch of the country's first astronomy satellite and more extensive international cooperation. The astronomical satellite will carry a "hard X-ray modulation telescope," which is being developed by Chinese scientists for launch in 2010, according to the Space Science Development Plan.

The plan was released by the Commission of Science, Technology and Industry for National Defense for the 11th Five-Year Plan (2006-10) over the weekend.

The project will help Chinese scientists make breakthroughs in research of black hole physics and other fields, as hard X-rays originate mostly from regions close to black holes, experts said.

The telescope would be preceded by Shijian-10, a recoverable satellite to be sent in 2009 for scientific experiments, according to the plan.

The document singles out three international cooperative projects to be implemented in the current Five-Year Plan period.

They include a joint unmanned mission to Mars with Russia, which will not only bring samples back to Earth but also land on one of the red planet's tiny moons, Ye Peijian, a leading scientist at the Chinese Research Institute of Space Technology, said last August.

China and Russia will also work on the World Satellite Observatory of Ultra-Violet.

Another international cooperation project is the Small Explorer for Solar Eruptions (SMESE), a Chinese-French mission to observe solar flares and Coronal Mass Ejections for the next Solar Maximum in about 2011.

The plan does not specify a timetable for the three projects.

It says China will focus on innovation and sustainability of space science development to better serve the national economy and security, and help build China into an "innovative country".

The government will set up a system to ensure scientific projects are chosen in an "open and fair" fashion, and "multiple sources" are encouraged to fund such projects, it says.

The release of the development blueprint coincides with the ongoing sessions of the country's top legislature and political advisory body in Beijing.

Last week, Huang Chunping and Qi Faren, both members of the National Committee of the Chinese People's Political Consultative Conference, said the country would launch a moon orbiter "some time" this year and stage a space walk in 2008.

Source: Spacedaily

China To Prioritize Three Areas In Space Program

Beijing (XNA) Mar 05, 2007
China will prioritize three areas of space technology including satellite navigation systems in the next two decades, according to a report released by the Chinese Academy of Sciences. The other two areas are remote sensing and space communications, according to the report on high technology development released by the Academy.

The result reflects a consensus among scientists after the Chinese Academy of Sciences (CAS) carried out a survey into research perspectives for China's space technology.

However, according to Mu Rongping, director of Institute of Policy and Management under CAS, the development of China's space technology is being held back by a lack of investment, insufficient human resources and inadequate infrastructure.

Mu said system precision and accuracy will be the focus of the new research.

Source: Spacedaily

US Said To Block US-China Deal On Asian Satellite Operator

Hong Kong (AFP) Apr 27, 2007
The United States has rejected a bid by a US-China venture to take private a Hong Kong-based satellite operator, invoking export approval powers dating back to the Cold War, a report said Thursday.

GE Capital Equity Investments of the United States and Beijing-controlled Citic Group had offered to take Asia Satellite Telecommunications (AsiaSat) off the market in a 295 million US dollar deal, the Financial Times reported.

Both companies each hold 34 percent of AsiaSat. The deal, which requires approvals from several governments, would have given the two companies a 50-50 percent share of AsiaSat, it said.

But the US State Department refused to give the plan the go-ahead. It was subject to the US International Traffic in Arms Regulations (ITAR), which govern the export of technologies with potential military applications.

"Under the company's current shareholder structure everything is fine but (the) State (Department) said: 'If AsiaSat goes out and changes (its structure), how we approach the company is going to change'" an unnamed source familiar with the situation was quoted as saying.

Citing several unnamed sources, the report also said the US government did not give any reasons for its decision or indicate what kind of changes it would accept.

AsiaSat operates three satellites built by US aerospace giants Boeing and Lockheed Martin.

The ruling comes after China conducted a successful anti-satellite missile test in January -- the first successful demonstration of such a capability by any country in more than 20 years -- sparking sharp US concerns.

Source: Spacedaily

China Aims To Launch Moon Probe This Year

Beijing (AFP) May 20, 2007
China aims to launch its first lunar orbiter later this year, part of a three-step plan it hopes will eventually see moon samples brought back to Earth, state media said Sunday. The launch of the Chang'e I, envisaged in the second half of 2007, would be a landmark for China's space programme, China's space agency chief Sun Laiyan was quoted as saying by the official Xinhua news agency.

"The moon probe project is the third milestone in China's space technology after satellite and manned spacecraft projects, and a first step for us in exploring deep space," he said in the report.

Sun, speaking at Beijing Jiaotong University, said China's lunar exploration programme was divided into three phases: orbiting the moon, landing on the lunar surface and coming back to Earth with samples.

The orbiter represented the first phase, with a moon rover to be used in the second phase scheduled for around 2012, Xinhua said.

The plan for the third phase was for another rover to land on the lunar surface and collect samples before returning to Earth, said Sun, who is the head of the China National Space Administration.

China would continue to research manned space missions, including a space walk and experiments to link passing spacecraft, he said.

"Space technology reflects a nation's overall power and is an important facet of the modernisation of national defence," he said.

Source: Spacedaily

More than a year before China's third manned space mission, Chinese astronauts have begun training for their first spacewalk during the Shenzhou VII space flight mission. "As it's the first time that our astronauts will leave their capsule in space, the mission requires even higher physical, technical and psychological standards, so training is more intense than ever," said Yang Liwei, the first Chinese astronaut in space, who is also deputy director of the China Astronaut Research and Training Center.

China launched its manned space program in 1999. It successfully sent Yang into orbit on the Shenzhou V spacecraft in 2003, and two years later, astronauts Fei Junlong and Nie Haisheng completed a five-day flight on the Shenzhou VI.

The Shenzhou VII is expected to carry three astronauts in 2008.Yang said the astronauts would perform work outside the capsule such as installing equipment and "tightening screws".

China has a 14-strong astronaut team. The members, including Yang himself, spend five days a week training and only go home at weekends.

Tian Liping, deputy head of astronaut selection and training, said, "We have been conducting preparatory training since 2006, and the training now mainly is on out-of-capsule activities, such the construction of the out-of-capsule space suit and dealing with the emergencies during spacewalks."

The astronauts had been training in the out-of-capsule space suit since July.

Yang, who has tried on China's self-developed out-of- capsule space suit, said, "The special equipment is really a challenge."

Tian said movement is seriously restricted in the suit, which weighed more than 110 kilograms.

"Even picking up a piece of paper while dressed in the suit in a zero-gravity environment would be a mission impossible for the astronauts if they had not undergone long training," said Tian.

As the Shenzhou VII mission is more risky than previous missions, the astronauts have also received psychological training on how to operate under severe pressure, said Tian.

Source: Spacedaily

China Prepares To Select New Taikonauts

China's first taikonaut, or Chinese astronaut, in space Yang Liwei says the country is preparing to select a new intake of well-rounded and well-educated potential spacemen from its air force. China has a 14-strong astronaut team. Yang, one of the team and also deputy director of the China Astronaut Research and Training Center, said the number of new trainees will be no more than 14. "The preparation for the selection has begun, and the selection may begin soon, but we have no plans to select woman astronauts yet," said Yang.

China began to select the first group of astronauts in the 1990s for its manned space program. The criteria cover health, education and training. Thousands of candidates participated, but only 14 remained after all the tests.

However, the successful candidates cannot be called real astronauts before completing the training that can last three to four years.

"The first group of astronauts has been trained for more than 10 years," said Shen Xingyun, head of the astronaut team.

"I believe a good astronaut should be both physically and psychologically healthy, but also should have strong faith, a perfect mastery of technology and have a well-rounded character," said Shen.

"After the intense training, the 14 astronauts perform even better than before from the physical and technical point of view," said Yang.

"We will focus more in future training on expanding their knowledge and improving their communication skills, and their performances will be considered in choosing the crew for the Shenzhou VII mission in 2008 and later space missions," said Yang.

"In previous selections, physical constitution was very important," said Yang. "However, with the improvement of our spacecraft and better understanding of space flight after the manned space missions of Shenzhou V and Shenzhou VI, we now care more about the overall quality of astronauts.

"We have met many astronauts from other countries and realize an astronaut needs to know more besides astronautics, like natura land social sciences, because an astronaut will not only undertake space missions, but also social responsibilities, like popularizing space science," said Yang.

Yang's center has been working with the Aerospace School of the Beijing-based Tsinghua University since 2006 to provide master-degree training for the astronauts.

"New courses includes the Law of Space, the History of Aviation and others on astronomy and geography," said Yang.

In addition, the center has held courses on art and literature and government spokespersons, such as Qin Gang and Liu Jianchao from the Ministry of Foreign Affairs, have been invited to pass on their skills on dealing with media and public.

China launched its manned space program in 1999 and it successfully launched astronaut Yang Liwei into orbit in 2003, becoming the third country after the Soviet Union and the United States to put a man in space.

Its second manned spacecraft, Shenzhou VI, was launched in October 2005 and completed a five-day flight with two astronauts Fei Junlong and Nie Haisheng carrying out space-based experiments.

Shenzhou VII is expected to carry three astronauts on its mission in 2008. Yang said astronauts would perform work outside the capsule such as installing equipment and "tightening screws."

Source: Spacedaily

China Trains Rescue Teams For Third Manned Space Program

Xi'an Satellite Control Center, a major Chinese institution responsible for recovering satellites and spaceships, has started training its rescue and search teams for the third manned space mission, scheduled to be launched in 2008. Yao Liang, head of the center's rescue and recovery team, said their work, which is the last step of a manned space program, includes locating the space capsule that re-enters the earth's atmosphere, rescuing astronauts and transporting the capsule from the landing site to the control center.

Yao said initial training started after the Shenzhou VI space mission in 2005 and dozens of workers are being trained for four hours per day.

"Compared to the previous two manned space missions, the up-coming Shenzhou VII space mission, which includes a space walk, is more complex. We have been organizing training in accordance with new requirements and learning to operate new equipment on the spaceship and deal with any possible hitches," Yao said.

He said the team had recruited more workers as there will be three astronauts on the next spacecraft. Two workers will be assigned to each astronaut.

China launched its manned space program in 1999. It successfully sent Yang Liwei, the country's first astronaut, into orbit on the Shenzhou V spacecraft in 2003. Yang spent about 21 hours in orbit.

Two years later, astronauts Fei Junlong and Nie Haisheng completed a Chinese record five-day flight on the Shenzhou VI. All astronauts returned to the ground safely.

The Shenzhou VII is expected to carry three astronauts in 2008.The astronauts are scheduled to perform work outside the capsule such as installing equipment and "tightening screws".

Source: Spacedaily

China reveals deadly threat to first flight

China's historic first manned space mission narrowly averted disaster when ground control lost contact with the returning space capsule, China revealed for the first time Monday, four years later.

The communication blackout as the capsule re-entered the Earth's atmosphere threatened a safe landing by astronaut Yang Liwei and forced ground control to use backup systems, Xinhua news agency reported.

"Yang lost every means to contact with the ground command and control headquarters as soon as he entered (the atmosphere), which fell in the worst case scenario prepared by the space mission team," Xinhua quoted Dong Deyi, head of China's control centre, as saying.

Yang's short mission aboard the Shenzhou V in October 2003 was hailed as a huge success for China's fledgling space programme, making the country the third to place a man in space after the former Soviet Union and the United States.

Some communication obstructions are normal during re-entry but Dong said none of China's radar could pick up a signal from the capsule.

Even after communications were re-established, signals remained weak enough to leave Yang at risk of "lethal impact" upon landing, he said.

"The echo signals from the spaceship were still volatile, which sufficiently threatened the safe landing of astronaut Yang," Dong was quoted as saying.

China's space command in the northern city of Xi'an ordered implementation of an optical guiding and tracking system instead of communications-guided landing control, he said.

This allowed headquarters to "properly control the slow-down parachute, which was vital to a soft landing," Dong said.

Two years after Yang's mission, the Shenzhou VI carried two astronauts into space on a five-day mission.

China has since announced plans for its first lunar probe this year and has targeted putting a man on the moon within 15 years.

Source: Spacedaily

China Cyber News

by Staff Writers
Beijing (AFP) Sept 6, 2007
China on Thursday denied that its military had hacked into the the websites of any foreign government, after press reports said Britain was the latest nation to fall victim to Chinese cyber attacks.

"Saying that the Chinese military has made cyber attacks on the networks of foreign governments is groundless and irresponsible and are a result of ulterior motives," foreign ministry spokeswoman Jiang Yu told journalists.

"The Chinese government has all along opposed and prohibited any cyber crimes, we have explicit laws and regulations in this regard."

Jiang was responding to news reports carried by The Times and The Independent newspapers in London that Chinese computer hackers had infiltrated British government networks.

The reports come a day after US President George W. Bush said he may bring up the issue of suspected Chinese cyber-attacks on the US defence department when he meets Chinese President Hu Jintao in Sydney on Thursday.

The Pentagon said on Tuesday that several nations and groups had been trying to break into the US military's computer system, after the Financial Times reported China's military had successfully hacked into the network in June.

Jiang on Tuesday denied that specific accusation.

German Chancellor Angela Merkel also raised similar concerns when she visited Beijing last week after press reports said China had conducted cyber espionage on government offices in Berlin.

The Times quoted an unidentified British government source as saying that China was engaged in "hostile intelligence activities."

"Instead of using the old-fashioned methods, they are focusing on electronic means to hack into systems to discover Britain's defence and foreign policy secrets, and they are technologically pretty advanced and adept at it," the source said.

Jiang said the Chinese government was willing to cooperate with the international community to investigate the alleged attacks, but so far no requests had been made.

"As far as I am aware, Chinese police have not received any requests from relevant countries on cooperative investigations," she said.

Source: Spacedaily.com

China Lunar Launch Live Broadcast

Beijing, Aug. 17 (Xinhua) China's space program is to publish the photos to be taken by the lunar orbiter "Chang'e I", which will be launched later this year, said program engineers in an online interview held by the Commission of Science Technology and Industry for National Defense. According to the current plan, the launch will be on live broadcast across the nation when the Long March 3A carrier rocket takes off, said Jin Zhiqiang, a major program engineer. Luan Enjie, head of the program, said earlier the launch date was still undecided due to factors such as weather. However, the satellite would be launched before the end of this year, Luan confirmed. Chang'e I is expected to fulfill four scientific missions, including collecting three-dimensional moon images, exploring lunar soil, analyzing chemical elements on the Moon's surface and investigating the space environment between the earth and the moon, said engineer Li Chunlai. More than 10,000 scientists and technicians spent three years developing Chang'e I and its supporting systems. The moon probe project is the third milestone in China's space technology after satellite and manned spacecraft projects.
Source: Spacedaily

Chinese Lunar Space Program News

China's lunar probe program has no purpose other than scientific achievement, and it is not competing with any other country, a senior official said on Thursday. Japan's adjustment of its lunar launch date will not influence China's launch plan, Hao Xifan, deputy director of the Lunar Exploration Center of the Commission of Science Technology and Industry for National Defense, said in an online interview yesterday.

"We will follow our own plan," he said.

On Wednesday, Japan said it would launch its lunar probe, Selena, on September 13 instead of today. It said some condensers were improperly installed, and this could affect one of its 14 projects.

In addition to China and Japan, India and Germany are also are trying to explore the Moon for the first time.

"China's Moon probe is independent and developed by ourselves. After more than three years' efforts, we have confidence in the project's success," Hao said. "But there are many things we don't know in terms of technology. We have made preparations, but the technical risks are there," he said.

All technologies used in the lunar orbiter Chang'e I (嫦娥-I) originates from China's Earth satellites. They need further testing in the lunar environment, he said.

Besides, the launching process also entails high risks.

The probe, Chang'e I, will be carried into deep space by a Long March 3-A rocket. The rocket has fired successfully in all 14 missions since 1994.

Jin Zhigang, deputy chief architect of the rocket, said any failure in the 50-odd movements of the launch could influence the fate of Chang'e I.

"The past 14 successes cannot guarantee the next launch will be successful and the carrier rocket is designed with a reliability index of 0.95, so strictly speaking, not every launch can be guaranteed a success," Jin said.

There have been 122 lunar probes, but only 59 or 48 percent were successful. The United States and the former Soviet Union both failed in their first lunar missions.

China has spent a total of 1.4 billion yuan ($184 million) on the lunar orbiter project.

Sun Zezhou, deputy chief architect of the satellite system, said Chang'e I, weighing 2,350 kg, will circle the Moon for a year.

Its top missions include obtaining three-dimensional images of the Moon's surface, and measuring the thickness of its soil by using a microwave radiometer.

The orbiter will provide first-hand knowledge about the Moon and built a sound foundation for the next phases of the program.

The program is divided into three phases - "circling the Moon", "landing on the Moon" and "back to Earth".

Following the launch of the orbiter, China will launch a Moon rover in the second phase, another rover in the third phase, which will return to Earth with soil and stone samples from the Moon.
Source: Spacedaily