Tag: Tsinghua University

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #May2024 |#西昌衛星發射中心 #XichangSatelliteLaunchCenter the advance iconic #ChangZheng3b #LongMarch3B launches  Advance#清华大学#TsinghuaUniversity #Smart Skynet 1 01 #6G #CommunicationSatellite #Satellites…..  #ASummary  

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On the 9th May 2024 in  CNSA _China National Space Administration -China – People’s Republic of China 0943 hours Hong Kong –Beijing Time China- People’s Republic of China launch the Chang Zheng Long March 3B carrier rocket successfully launched the “Smart Skynet-1” 01A and 01B double stars ignited and took off at the No. 2 station of the Xichang Launch Site, sending the double star combination to the medium-Earth transfer Orbital (MTO).  Satellite at the Xichang Satellite Launch Center

Smart Skynet 1″ 01A and 01B satellites were developed by the Eighth Academy of China Aerospace Science and Technology Corporation (Shanghai Aerospace Technology Research Institute). They are my country’s first medium-orbit broadband communication satellite group, including the technology verification satellite A and the test satellite B. Star A is equipped with a multi-beam high-speed microwave link, an inter-satellite two-way laser link and an onboard digital processing and forwarding platform; Satellite B is equipped with an inter-satellite laser link trial load, and the dual satellites in orbit mainly carry out flexible exchange of satellite-ground and inter-satellite information. Core technology verification; carry out verification of key satellite platform technologies such as normal large heat flux density heat dissipation, high-stable continuous yaw manoeuvre attitude control, and low fuel consumption orbit position maintenance correction.

The “Smart Skynet” communication satellite constellation is a medium-orbit pan-synchronous orbit space-based network solution originally proposed by Tsinghua University. It is composed of 8 medium-orbit broadband communication network satellites and is deployed in a medium-earth orbit (MEO) with an altitude of 20,000 kilometers. ), forming a communication constellation covering the world, and can be expanded to 16 satellites (two groups), 32 satellites (four groups) and other coverage networks as needed. After the constellation is completed, it can jointly build a unified space-based 6G network with low-orbit satellite Internet and high-orbit satellite Internet.

“Smart Skynet” is a medium-orbit pan-synchronous orbit space-based network solution originally proposed by Tsinghua University. It takes 8 medium-orbit broadband communication network satellites as a group, deployed at 20,000 km altitude, forming a global communications constellation, and can be expanded to 16 satellite (two sets) and 32 satellite (four sets) as needed.

After the completion of the constellation, it will realize a personalized broadband network service without blind spot coverage worldwide, and can jointly build a unified space 6G network with low-orbit satellite Internet and high-orbit satellite Internet, realizing the access of all kinds of users in the whole scene and the whole area.

Smart Skynet No.1 01 satellite as China’s first medium-orbit broadband communication satellite, including A-star for technical verification and test B-satellite, was developed by China Aerospace Science and Technology Group Co., Ltd. Shanghai Institute of Space Technology. A-satellite is equipped with multi-beam high-speed microwave link, inter-star bi-directional laser link and on-board digital processing forwarding platform. B-satellite is equipped with inter-star laser link test load. In orbit, it mainly carries out the core technology verification of star-ground and inter-stellar information flexible interaction. It carries out key technology verification of satellite platforms such as normal large heat flow density heat dissipation, high stable continuous yaw motor posture control, and low fuel consumption track position maintenance correction.

After the launch of Smart Skynet 1 01 satellite, it will carry out dynamic beam hopping on-demand service, high-speed laser link, and secure network protocol through technological innovations such as dynamic beam hopping, high-speed laser link, and secure network protocol. It will meet users’ casual access, Internet business, ground cell business, etc.

After operating in orbit, the satellite will also carry out typical scene application demonstrations such as direct connection of national and Antarctic scientific research stations and real-time return of low-orbit satellite data, laying a solid foundation for building an innovative experimental platform for space network and exploring the application model of smart skynet industry.

Chang Zheng – Long March 3B Carrier Rocket  is a medium-sized liquid launch vehicle developed by the First Academy of China Aerospace Science and Technology Corporation (China Academy of Launch Vehicle Technology). It adopts a three-stage and semi-configuration, consisting of a booster, a core first stage, a core second stage, and a core third stage. In addition to the core three-stage main power which uses hydrogen-oxygen propellant, the other stages’ main power uses dinitrogen tetroxide/uniform dimethylhydrazine propellant. The arrows currently in use are enhanced types, including Type 2 (G2), Type 3 (G3), Type 3Z and Type 5 (G5). The rocket is mainly used for medium- This “Chang Zheng – Long March 3B” Carrier rocket adopts the Ka-band space-based measurement subsystem for the first time. Compared with the previous S-band system, the transmission rate is significantly improved. Starting from this launch, the “Chang Sanjia” series of rockets entered a new round of high-density launches. to-high Earth orbit and deep space launch missions, with a medium-Earth transfer orbit capacity of more than 4.3 tons.

This launch is the second launch of the “Chang 3B” rocket in 2024, the seventh launch from the Xichang Launch Site, the 21st launch in China, and the 88th launch in the world. So far, China Aerospace has carried out 3 space launches into orbit in the first 9 days of May, with an average density higher than 1 launch/3 days.

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration

#CNSA #ChinaNationalSpaceAdministration #国家航天局 | #November2023 |#清華大學 #TsinghuaUniversity – China’s Lunar Manned Mission Lunar Rover Development Program Design inspired by China’s Intangible Chinese Cultural Heritage from the Qin Dynasty.   

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During this month November 2023 the development of the China, People’s Republic of China, CNSA- China’s National Space Administration Lunar Manned Program in which to established a Chinese lunar Manned Mission due by 2030 least .. in which The preliminary results of China, People’s Republic of China’s manned lunar rover development program were announced. The program “Wangshu Zhichao” led by Tsinghua University was selected, focusing on innovative design and single advantageous technologies for in-depth research.

The bronze chariots and horses of the Terracotta Warriors from Qin Shihuang’s Mausoleum provided inspiration for the design team. The design team developed the man-machine intelligent hybrid enhanced driving technology of the manned lunar rover, which realizes three modes of manual driving, autonomous driving and human-machine hybrid driving. The angle of the vehicle body is adjustable and it can creep when necessary….

The preliminary results of my China, People’s Republic of China’s manned lunar rover development program were announced, and the program “Wangshu Zhichao” led by Tsinghua University was selected.

Tsinghua University’s four-wheel vehicle design plan

: Tsinghua University’s design plan for a four-wheel vehicle with adjustable body angle and creeping ability

: The bronze chariots and horses unearthed from Qin Shi Huang’s Terracotta Warriors provided inspiration for the design team

Design Plan of “Wangshu Chariot”

Key design elements of “Wangshu Chariot”​​​

清華大學 Tsinghua University  is located 30 Shuangqing Rd, 蓝旗营 Haidian District, Beijing, China, 100190, China, People’s Republic of China .

Images and visuals are from their respectives also  CNSA- China’s National Space Administration

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #November2022 | #WenchangSpacecraftLaunchCenter #文昌航天發射場| #Tiangong #ChinaSpaceStation #Mengtian #ExperimentalModule  At an altitude of 400km, #Takionaut #刘洋 #LiuYang wishes #清華大學 #TsinghuaUniversity #SocialSciences a happy birthday!

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At an altitude of 400km, Takionaut Liu Yang wishes Tsinghua University- Tsinghua social sciences a happy birthday on the 6th November 2022..  400km high altitude, Takionaut Liu Yang wishes Tsinghua social science happy birthday…. the vastness of the vast sky for nine days. In the “Mengtian Experimental Module” of the space station at an altitude of 400 kilometers, Liu Yang, China’s first female astronaut, dressed in a blue Takionaut suit” and held a floating hospital flag, greeted the camera with a smile on her face: “Congratulations to Tsinghua University The tenth anniversary of the founding of the School of Social Sciences!” At the same time, the School of Social Sciences of Tsinghua University, which is thousands of miles away, is facing “Mengtian” from afar. With the blessings of Liu Yang, an alumnus of the school, she welcomes it’s tenth birthday. Tsinghua University’s Weibo video Takionaut Liu Yang sent blessings to Tsinghua

In which Tsinghua University is located 30 Shuangqing Rd, 蓝旗营 Haidian District, Beijing, China, 100190  China, People’s Republic of China .. Tsinghua University! Tsinghua University (Tsinghua University) is a famous institution of higher learning in China. It is located in the beautiful Tsinghua Garden in the northwestern suburbs of Beijing. It is an important base for high-level talent training and scientific and technological research in China.

On the 31st October 2022 CNSA –China National Space Administration    The Mengtian The launch of the Mengtian experimental module is imminent successfully launched on At 15:37 Hours on October 31, 2022, Beijing time, the Chang Zheng Long March 5B Yao-4 carrier rocket carrying the Tiangong China Space Station Mengtian Experimental Module was launched in Wenchang Spacecraft Launch Center-Hainan Province, China People’s Republic of China . The field was ignited and launched on time. About 8 minutes later, the Mengtian experimental module was successfully separated from the rocket and accurately entered the predetermined orbit. The launch mission was a complete success.

This is the 25th flight mission since the establishment of my country’s manned space project, and the 446th flight of the Long March series of carrier rockets.

The China Space Station Mengtian Experiment Module and the space station combination completed the rendezvous and docking in orbit After the space station Mengtian Experiment Module was launched into orbit, at 4:27 on November 1st Tuesday, 2022 Hong Kong SAR- Beijing time, it was successfully docked in front of the Tianhe core module To the port, the entire rendezvous and docking process lasted about 13 hours. In the follow-up, the relocation of the Mengtian experimental module will be implemented as planned. The Mengtian experimental module will form the basic configuration combination of the “T” shape of the space station with the Tianhe core module and the Wentian experimental module.

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration  

#MadeInChina #中國製造 #中國 |#清华大学#TsinghuaUniversity #January2022 | Successfully maiden launching #Tianxing Qinghang·Daxing Qinghang No. 1 two stage light Carrier Rocket engine testing …..

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Located in 30 Shuangqing Rd, 蓝旗营 Haidian District, Beijing, China – People’s Republic of China Tsinghua University is a major public research university in Beijing, and a member of the C9 League. It is also a member of Double First Class University globally..

On 24th January 2022 Monday it was the launching test maiden launching of the Tsinghua University “Tianxing” testing articles series of  test rockets On the morning of January 24, 2022, the team of Professor Wang Bing from the School of Aeronautics and Astronautics of Tsinghua University conducted a flight demonstration test of a new engine independently developed. The successful ignition and stable work test within the altitude and speed range was a complete success!

The test shows that my country- China – People’s Republic of China has mastered the independent research and development and engineering realization capabilities of the new engine, and ranks among the top in the world in the field of new aerospace power!

At 11:30 in the morning, the test mission was carried out by the “Qinghang·Daxing” two-stage rocket. After the first-stage rocket is separated, the second-stage rocket pushes the mission stage engines to a predetermined altitude and speed. The engine air intake achieves efficient air intake, the fuel supply system sprays aviation kerosene into the combustion chamber, the ignition system starts smoothly, the combustion chamber and the engine work stably, and continuous thrust is obtained. The test was a complete success.

“Through this flight mission, we have obtained the influence of the changes of working environment parameters on the operating characteristics of the engine combustion chamber under real flight conditions, fully tested the real working characteristics of the engine, and verified the feasibility of the existing technical route, which is a new technology. Moving towards engineering and productization, it provides important test data and accumulates real flight experience. This achievement will further enrich the map of my country’s aerospace industry and has great strategic significance in terms of new power.” Wang Bing said.

Aggregating maximum energy in the shortest possible time, realizing a major leap from ground test to real flight test, and promoting the process of practical engineering application, it also fully benefits from the effective attempt to transfer and transform scientific and technological achievements. The flight test mission was named “Qinghang No. 1”. The overall scientific mission and test plan was independently proposed by the School of Aeronautics and Astronautics of Tsinghua University. Wang Bing led the Spray Combustion and Propulsion Laboratory to be responsible for the overall engine design. Tian (Beijing) Technology Co., Ltd. has completed the overall manufacture and assembly of the engine, and has completely independent intellectual property rights. Beijing Lingkong Skyxing Technology Co., Ltd. is responsible for the design of the flight vehicle and the implementation of the mission. The two parties work closely together to jointly promote the smooth progress of the flight test.

The new engine flight demonstration verification test of the Spray Combustion and Propulsion Laboratory of the School of Aeronautics and Astronautics of Tsinghua University was a complete success. The test shows that my country has mastered the independent research and development and engineering realization capabilities of the new engine, and ranks among the world’s forefront in the field of new aerospace power.


The test mission was carried out by the “Qinghang Daxing” two-stage rocket. After the first-stage rocket is separated, the second-stage rocket pushes the mission stage engines to a predetermined altitude and speed. The engine air intake achieves efficient air intake, the fuel supply system sprays aviation kerosene into the combustion chamber, the ignition system starts smoothly, the combustion chamber enters the predetermined combustion state, the engine works stably, and continuous thrust is obtained. The test was a complete success.


This flight mission has obtained the influence of the changes of working environment parameters on the operating characteristics of the engine combustion chamber under real flight conditions, fully tested the real working characteristics of the engine, and verified the feasibility of the existing technical route. Productization provides important test data and accumulates real flight experience.
This achievement will further enrich the map of my country’s aerospace industry and has great strategic significance in terms of new power….

Images and visuals are from their Respectives.