Tag: China Academy of Space Technology

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BeltAndRoadinitiative #October2020 |#西昌衛星發射中心 # Xichang Satellite Launch Center – Successfully launching the iconic #LongMarch2C #ChangZheng2C #CarrierRocket to deploy #遥感式卫星 #Yaogan #RemoteSensing #Satellites ….

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At 23:19 Beijing time late nearly midnight on October 26th, 2020, CNSA – China National Space Administration …. China- People’s Republic of China successfully used the Long March 2C- Chang Zheng 2C carrier rocket at the Xichang Satellite Launch Center – Sichuan Province to successfully launch Remote Sensing 30 the 07 satellites were sent to the predetermined orbit and the launch was a complete success. The mission also launched the Yaogan constellation 06 satellites. This mission is the 350th flight of the Long March series of carrier rockets…..  Launched under the name Yaogan Weixing-30 Group-7, the three satellites were orbited by a Chang Zheng-2C launch vehicle from the LC-3…

Using  the Long March 2C – Chang Zheng 2C  Carrier Rocket at the Xichang Satellite Launch Center to successfully send the “Remote Sensing 30 Group 07” satellite into the scheduled orbit.  After the rocket lifted off, the Xi’an Satellite Measurement and Control Center Lingshui and Xiamen’s measurement and control stations found and tracked targets in time. As the last station of land-based measurement and control, the Xiamen Measurement and Control Station successfully completed the measurement and control task. ….. The Chuangxin-5 satellites were developed by the Chinese Academy of Sciences Small Satellite Center. All the Yaogan Weixing-30 / Chuangxin-5 missions were launch by Long March-2C rockets from Xichang Satellite Launch Center.

The first three satellites were launch on September 29, 2017, followed by another three satellites on November 24 the same year. This second group was orbited into an orbital plane 119° west of the first three satellites.

Launching into an orbital plane 120° east of the Group-1, the Yaogan Weixing-30 Group-3 was orbited on December 25th, 2017 year, being followed by another trio on January 25, 2018 year. On July 26, 2019, the Yaogan Weixing-30 Group-5 was launched and the Group-6 on the series was launched on March 24, 2020…..The three new satellites will possibly occupy the sixth plane of the system, with the satellites spaced by 120° in their orbits.

Also on this flight was Tianqi-6, a low-orbit communication satellite operated by Guodian Gaoke for IoT communications, which is also carrying a camera for educational purposes.

The satellite is part of the “Apocalypse Constellation” that provides users with much-needed data collection and transmission services for terrestrial network coverage blind areas, which are widely used in marine, environmental protection, meteorological, forestry, geological, emergency, rescue and smart city industries to enhance China’s global data network coverage and application capabilities are of strategic importance. Also providing Remote Sensing of mainly used to carry out electromagnetic environment detection and related technical tests….

Images and visual are from Weibo

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BeltAndRoadinitiative #CLEPS #October2020 | #VonKarmanCrater #LunarMission#嫦娥 #Change4 #玉兔#Yutu2 #JadeRabbit waking up to a Lunar morning exploration 647 #EarthDays on the #VonKarman #Crater..

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As of 11th October 2020, The CNSA –China National Space Administration Belt and Road Initiative Lunar Mission on the One Hundred Kilometer diameter Von Karman Crater    Chang’e 4 lander and the “Yutu 2” lunar rover the Chang’e-4 lander and the “Yutu-2” lunar rover Chang’e 4 lander and “Yutu 2” lunar rover usher in the 23rd day…… With the sun spreading on the back of the moon again, Chang’e 4 lander and “Yutu 2” lunar rover successfully awakened and ushered in the 23rd day work period (the lander awakened at 11:56 on October 11th and the lunar rover at 18:57 on October 10). Up to now, Chang’e-4 has successfully spent 647 Earth days on the back of the moon.


 Based on the panoramic camera stitched images, DOM images and other data, during the day of this month, the “Yutu-2” lunar rover will drive toward the basalt distribution area or the impact crater area with high reflectivity, both of which are located northwest of the current detection point . In this travel route, there is a rock block with a diameter of about 30cm. The “Yutu-2” lunar rover will use an infrared imaging spectrometer to select an opportunity to perform spectral detection of the rock.
        

In addition, near the noon of the moon, it is planned to carry out the panoramic camera ring shooting, the infrared imaging spectrometer and the neutral atom detector will carry out related scientific detection work, and the lunar radar will carry out synchronous …

With the sun spreading on the back of the moon again, the Chang’e 4 lander and the “Yutu 2” lunar rover successfully awakened independently, ushering in the 23rd day of the day (the lander awakened at 11:56 on October 11, the moon The Lunar Rover  woke up at 18:57 on October 10). Up to now, Chang’e-4 has successfully spent 647 Earth days on the back of the moon.​

The purple circled area is the closest impact crater with brighter reflectivity, the red circle is the location of the rock block, the white line is the planned driving path, the purple circled area is the closest impact crater with brighter reflectivity, and the red circle is the location of the rock block. The white line is the planned driving path

Based on the panoramic camera stitched image, DOM image and other data, during the day of this month, the “Yutu-2” lunar rover will drive toward the basalt distribution area or the impact crater area with high reflectivity, both of which are located northwest of the current detection point . In this travel route, there is a rock block with a diameter of about 30cm. The “Yutu-2” lunar rover will use an infrared imaging spectrometer to select an opportunity to perform spectral detection of the rock.

Position of rock block to be detected

In addition, near the noon of the moon, it is planned to carry out the panoramic camera ring shooting, the infrared imaging spectrometer and the neutral atom detector will carry out relevant scientific detection work, and the lunar radar will carry out synchronous detection during the driving. The latest scientific results will be released in time.

随着太阳光再次铺洒月球背面,嫦娥四号着陆器和“玉兔二号”月球车成功自主唤醒,迎来第23月昼工作期(着陆器于10月11日11时56分唤醒,月球车于10月10日18时57分唤醒)。截至目前,嫦娥四号已在月球背面顺利度过647个地球日。​

紫色圆圈区域为距离最近、反射率较亮的撞击坑,红圈为岩块位置,白线条为计划行驶路径紫色圆圈区域为距离最近、反射率较亮的撞击坑,红圈为岩块位置,白线条为计划行驶路径

基于全景相机拼接影像、DOM影像等数据,在本月昼期间“玉兔二号”月球车将向玄武岩分布区域或反射率较高的撞击坑区域行驶,这两个位置均位于当前探测点西北方向。在此行进路线中,存在一枚直径约为30cm的岩块,“玉兔二号”月球车将利用红外成像光谱仪择机对该石块进行光谱探测。

拟探测岩块位置拟探测岩块位置

此外,在接近月午时,计划开展全景相机环拍,红外成像光谱仪与中性原子探测仪将开展相关科学探测工作,行驶过程中测月雷达开展同步探测。最新科学成果将及时发布。

Images and visuals are from Weibo.. ​​​​

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BeltAndRoadinitiative #October2020 | # XichangSatelliteLaunchCenter #西昌衛星發射中心Launches successfully of the advance variant Ionic #LongMarch3B #ChangZheng3B #CarrierRocket deploying #Gaofen13 the #EarthSciences #RemoteSensing #OpticalSatellite #Satellite …..

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On a very dark Autumn pasting just of midnight with Xichang Satellite launch Center –  Sichuan province local residents crowds staying up celebrating Morning 0057 hour Beijing time on October 12th, 2020, watching a celebrating launch that celebrating China National Day also the Mid-Autumn festival in China – People’s Republic of China.  In which CSNA –China National Space Administration Successfully launched the Gaofen 13 satellite using the advance variant Long March 3B carrier rocket into schedule orbit deploying the Earth Sciences – Remote Sensing Optical Satellite The Gaofen 13 this marks the ., this launch is the 349th launch of the Long March series carrier rocket. (China Aerospace Science and Technology Corporation) the advance variant of the Long March 3B is . For this mission, the Long March IIIB launch vehicle has undergone the most technological changes in recent years-16 first-flight first-use technologies have been updated, mainly involving satellite fairings, on-arrow pressurized transport systems, and three-stage rocket igniters , Laser inertial group data with amongingly with other modified systems..  

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The Gaofen 13 satellite is a high-orbit optical remote sensing satellite, which is mainly used in fields such as land surveys and crop yield estimation. This mission is the 349th flight of the Long March series of carrier rockets…. The Gaofen 13 is an optical remote sensing satellite with a ground pixel resolution of up to sub-meter level. It is mainly used in territorial census, urban planning, land right confirmation, road network design, crop yield estimation, and disaster prevention and mitigation. , Which can provide information guarantee for the construction of the “Belt and Road Initiative.”

The Gaofen13  manufacturer is CAST – China Academy of Space Technology also in collaboration with its associate agency with CHEOS- China High Resolution Earth Observation System in which is design Built on a CAST 2000 Design Heritage Earth Sciences, in which is design for Translating Gaofen is High Resolution, also known as CHEOS- China High Resolution Earth Observation System, in which provisions in the real time observational data analysis of with high resolution multi spectra equipment imaging system in analysis for assessing environmental disaster warning, emergency response also for the protection for ecological, also providing support for infrastructure construction, transportation for various purpose of the Belt And Road initiative  … one of many specifications of the Gaofen 10 Earth Sciences satellite is The high-resolution satellite is a large-scale remote sensing satellite system for the national science and technology major special arrangement of the microwave remote sensing satellite, the ground pixel resolution is up to sub-meter …

Images and visuals are from Weibo….Also from 哈库纳玛塔塔_Si

#CNSA #ChinaNationalSpaceAdministration #国家航天局 | #BeltAndRoadinitiative #September2020 | #TaiyuanSatelliteLaunchCenter #太原衛星發射中心 Launches successfully of the Ionic #LongMarch4B #ChangZheng4B #CarrierRocket deploying #Gaofen11 02 the #EarthSciences #RemoteSensing #Satellite #OpticalSatellite …..

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On a very clear moderately cloudy day of 7th September 2020 Monday on 1357 Beijing time launching on from Taiyuan Satellite Launch Center太原衛星發射中心 Shanxi Province-China- People’s Republic of China… Launching is from one of CNSA – China National Space Administration is the Chang Zheng4B –Long March 4B Carrier Rocket  in which sending an Earth Sciences- remote sensing Gaofen 11 -02 Satellite into scheduled orbit ….  In which this launch is the 345th Launched of the International iconic Long March Series Carrier Rocket Successfully..

Gaofen 11 02 is an optical remote sensing satellite with a ground pixel resolution of up to sub-meter level. It is mainly used in territorial census, urban planning, land right confirmation, road network design, crop yield estimation, and disaster prevention and mitigation. , Which can provide information guarantee for the construction of the “Belt and Road”…..

The Gaofen11 02 manufacturer is CAST – China Academy of Space Technology also in collaboration with its associate agency with CHEOS- China High Resolution Earth Observation System in which is design Built on a CAST 2000 Design Heritage Earth Sciences, in which is design for Translating Gaofen is High Resolution, also known as CHEOS- China High Resolution Earth Observation System, in which provisions in the real time observational data analysis of with high resolution multi spectra equipment imaging system in analysis for assessing environmental disaster warning, emergency response also for the protection for ecological, also providing support for infrastructure construction, transportation for various purpose of the Belt And Road initiative  … one of many specifications of the Gaofen 10 Earth Sciences satellite is The high-resolution satellite is a large-scale remote sensing satellite system for the national science and technology major special arrangement of the microwave remote sensing satellite, the ground pixel resolution is up to sub-meter …

Images and visuals are from Weibo 

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BeltAndRoadinitiative |#August2020 #ChinaSpaceConference holding in Fujian Province #China #PeoplesRepublicOfChina for #NationalScienceDay #SpaceScience … …..

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The 2020 China Space Conference will be held in Fujian Province- China – People’s Republic of China  in September  The 2020 China Space Conference, jointly sponsored by the Chinese Astronautical Society and the China Space Foundation, will be held in Fuzhou, Fujian on September 18-21. The opening ceremony of the conference and the main forum will open on the 19th “National Science Day 2020”. The forum will jointly discuss the strategic layout of China’s aerospace development in the post-epidemic era, breakthroughs in key core technologies, the development of the “Maritime Silk Road” space information industry, and global aerospace and open cooperation. The top ten scientific issues in the aerospace field in 2020 will also be released for the first time. Held a collective signing ceremony for a major aerospace project in cooperation with the military industry central enterprise and Fujian Province’s industries ….

Zhongtai Securities believes that with the successful launch of “Tianwen-1”, the aerospace boom will continue. Based on the urgent needs of national defense modernization, military expenditure growth will remain stable in 2020, and the installation of a new generation of main battle equipment is expected to accelerate. Although the current downward pressure on the economy is relatively large, the demand in the military industry is relatively independent, and the investment value is expected to be prominent, focusing on the market prospects of the aerospace and satellite sectors.

 

Among the related listed companies, China Satellite Communications the world’s sixth largest fixed satellite communications operator, the company has high-quality communications and broadcasting satellite resources, with a domestic market share of 80%.

Aerospace Science and Technology The inertial navigation products developed by the company have been successfully applied to the country’s first dynamically-tuned gyro platform inertial navigation system, and have the BeiDou navigation civilian terminal-level service qualification granted by the China Satellite Navigation and Positioning Application Management Center…..

 

Images and visuals are from weibo