Новости МКС

Автор ДмитрийК, 22.12.2005 10:58:03

« назад - далее »

0 Пользователи и 1 гость просматривают эту тему.

tnt22

ЦитироватьExpedition 60 crewmembers talks with The Weather Channel

NASA Video

Опубликовано: 31 июл. 2019 г.
https://www.youtube.com/watch?v=2hiNIX_MD_Uhttps://www.youtube.com/watch?v=2hiNIX_MD_U (21:18)

tnt22

Цитировать Luca Parmitano ‏Подлинная учетная запись @astro_luca 19 мин. назад
This medallion featuring the logo of the European Astronaut Centre flies to orbit with all @esa astronauts, an idea from @astro_alex. I took it with me – proudly – for the first time, since it was made after the #Volare mission. #MissionBeyond


tnt22

ЦитироватьNASA ScienceCasts: Cutting-edge Biomanufacturing Aboard the International Space Station

 ScienceAtNASA

Опубликовано: 30 июл. 2019 г.

Welcome to the world of 3D biomanufacturing, a cutting-edge practice on Earth that is being tested aboard the International Space Station.
https://www.youtube.com/watch?v=s9csx38k8Zohttps://www.youtube.com/watch?v=s9csx38k8Zo (3:44

tnt22

https://blogs.nasa.gov/stationreport/2019/07/31/iss-daily-summary-report-7312019/
ЦитироватьISS Daily Summary Report – 7/31/2019

73 Progress (73P) Launch and Docking:
Спойлер
73P launched today from the Baikonur Cosmodrome at 7:10 AM CT carrying food, fuel and supplies. Following a 2-orbit rendezvous, the vehicle successfully docked to the ISS Docking Compartment 1 (DC-1) Nadir Port at 10:29 AM CT. The crew then performed leak checks, opened hatches, and began cargo unloading.
[свернуть]
Biofabrication Facility (BFF):
Спойлер
The crew continued their support of the series of BFF test prints which started earlier this week. These initial test prints are designed to check out and fine tune the system and do not contain any cells. Using 3D biological printers to produce usable human organs has long been a dream of scientists and doctors around the globe. However, printing the tiny, complex structures found inside human organs, such as capillary structures, has proven difficult to accomplish in Earth's gravity environment. To overcome this challenge, Techshot designed their BFF to print organ-like tissues in microgravity, acting as a stepping stone in a long-term plan to manufacture whole human organs in space using refined biological 3D printing techniques.
[свернуть]
Combustion Integration Rack (CIR) Manifold Bottle Inspection:
Спойлер
Following yesterday's discovery of a slow leak, the fuel bottle connection was demated, inspected, cleaned, and remated to the CIR manifold. The pressure was subsequently monitored and the leak was reduced, but still present. The crew then looked for the leak source (suspected to be either the quick-disconnect or pressure relief valve) with the ultrasonic leak detector but were unable to isolate the source of the leak. The fuel bottle valve was closed and teams are discussing a forward plan. This fuel bottle will be used for the upcoming s-Flame investigation.
[свернуть]
Electrostatic Levitation Furnace (ELF) Cartridge Exchange:
Спойлер
The crew removed the current sample cartridge from the ELF and exchanged it with a new cartridge. JAXA's ELF is an experimental facility designed to levitate, melt and solidify materials by containerless processing techniques using the electrostatic levitation method. With this facility thermophysical properties of high temperature melts can be measured and solidification from deeply undercooled melts can be achieved.  ELF typically processes oxide samples, but is also capable of processing semiconductors, alloys, and metals.
[свернуть]
GRIP:
Спойлер
The crew performed a Supine science-3 session today. The GRIP experiment consists of 3 protocols: Dynamics Seated, References Seated and References Supine. They are performed in 3 separate sub-sessions. ESA's Grip investigation tests how the nervous system takes into account the forces due to gravity and inertia when manipulating objects. Results from this investigation may provide insight into potential hazards for astronauts as they manipulate objects in different gravitational environments. They also support design and control of haptic interfaces to be used in challenging environments such as space, and provide information about motor control that will be useful for the evaluation and rehabilitation of impaired upper limb control in patients with neurological diseases.
[свернуть]
Synchronized Position Hold, Engage, Reorient, Experimental Satellites – Zero Robotics (SPHERES ZR) Unit Test:
Спойлер
The crew mounted the SPHERES beacons in the appropriate locations and performed the unit test. This is part of the SPHERES Zero Robotics (ZR) 2019 Middle School Summer Program series of runs. Each Zero Robotics session consists of 3 parts:
1) The unit test looks at the ability to run the main code of the session;
2) The dry run tests various aspects of the actual competition;
3) The actual Zero Robotics science session.
The premise of this ZR session is for one SPHERES satellite to retrieve a damaged SPHERES satellite from a virtual debris field in low Earth orbit. ZR allows middle school and high school students develop code to achieve the goals of the competition. The algorithms are tested by the SPHERES team and the best designs are selected for the competition to operate the SPHERES satellites on board the ISS.
[свернуть]

tnt22

#21224
https://blogs.nasa.gov/spacestation/2019/08/01/august-brings-more-spaceship-traffic-and-a-spacewalk/
ЦитироватьAugust Brings More Spaceship Traffic and a Spacewalk

Mark Garcia
Posted Aug 1, 2019 at 11:13 am


July 31, 2019: International Space Station Configuration. Five spaceships are parked at the space station including the SpaceX Dragon cargo craft, Northrop Grumman's Cygnus space freighter, and Russia's Progress 73 resupply ship and Soyuz MS-12 and MS-13 crew ships.

The International Space Station is hosting five spaceships today as August ramps up for more orbital traffic activity. Six Expedition 60 crewmembers are also unloading U.S. and Russian cargo, activating new science experiments and stocking the station's galley.

Russia's Progress 73 (73P) cargo craft completed a fast-track delivery mission early Wednesday docking to the Pirs Docking Compartment just three hours and nineteen minutes after launching from Kazakhstan. Cosmonaut Alexander Skvortsov opened the 73P hatch shortly afterward starting its four-month stay. He and station Commander Alexey Ovchinin then began unloading nearly three tons of new consumables, fuel and supplies.

Two U.S. space freighters occupy the station's Earth-facing Harmony and Unity module ports. Harmony will open up Tuesday when Northrop Grumman's Cygnus resupply ship departs after 109 days in space. The Canadarm2 robotic arm installed the SpaceX Dragon to Unity on Saturday after its arrival and capture beginning a month of cargo operations.

NASA astronauts Christina Koch and Nick Hague are tending to mice today shipped aboard Dragon for ongoing biological research. The reusable vehicle will return the mice back to Earth at the end of the month, including other cargo, so scientists can analyze a variety of changes that only occur in microgravity.

Dragon also delivered a new commercial crew vehicle port, the International Docking Adapter-3 (IDA-3), in its unpressurized trunk. Robotics controllers will soon extract the IDA-3 before two spacewalkers install it to Unity's space-facing port a few days later.

A few days before Dragon departs, Russia will launch an unpiloted Soyuz MS-14 crew ship to the orbiting lab for a test of its upgraded 2.1a Soyuz booster. It will dock to the Poisk module for a two-week stay before parachuting back to Earth in the vast steppe of Kazakhstan.

tnt22

http://www.jaxa.jp/press/2019/07/20190729b_j.html (на яп. яз.)

Выборочно
ЦитироватьЯпонское агентство аэрокосмических исследований (Президент: Хироши Ямакава / JAXA)
И Sony Computer Science Laboratories, Inc. (Президент и главный исполнительный директор: Хироаки Китано / Sony CSL) извещают, что на Международную космическую станцию (МКС) кораблём снабжения "Аист-8", запуск которого запланирован на 11 сентября, будет доставлено экспериментальное оборудование малой спутниковой оптической связи "СОЛИСС" (Малая оптическая линия связи для Международной космической станции), предназначенное для реализации передачи данных большой емкости в реальном времени между будущими спутниками и наземными станциями. Демонстрации на орбите будут проводиться с использованием внешней испытательной платформы японского экспериментального модуля Кибо МКС.
...
Для испытаний оптической связи на большие расстояния на орбите оборудование SOLISS будет установлено на адаптере i-SEEP на внешней платформе модуля Кибо МКС, для тестирования соединения с наземной станцией будет использован лазер с длиной волны 1550 нм. Демонстрационный эксперимент планируется завершить в 2019-м финансовом году.


Рисунок 1. Система SOLISS FM.


Рисунок 2. Схема установки системы SOLISS FM на платформу модуля Кибо.
...

tnt22

https://www.nasa.gov/press-release/nasa-television-to-broadcast-space-station-departure-of-cygnus-cargo-ship
ЦитироватьAug. 1, 2019
MEDIA ADVISORY M19-078

NASA Television to Broadcast Space Station Departure of Cygnus Cargo Ship


The Canadarm2 robotic arm is positioned to grapple the Northrop Grumman Cygnus cargo craft as it approaches its capture point with the International Space Station orbiting 255 miles above the Atlantic Ocean. Highlighting the foreground is the Soyuz MS-12 crew ship docked to the Rassvet module.
Credits: NASA

More than three months after delivering several tons of supplies and scientific experiments to the International Space Station, Northrop Grumman's Cygnus cargo spacecraft, the SS Roger Chaffee, will depart the orbiting laboratory Tuesday, Aug. 6.

Live coverage of the craft's release will air on NASA Television and the agency's website beginning at noon EDT, with release scheduled for 12:15 p.m.

Expedition 60 Flight Engineers Nick Hague and Christina Koch of NASA will use the station's Canadarm2 robotic arm to release Cygnus after ground controllers remotely unbolt the craft from the Earth-facing port of the Unity module and maneuver it into release position.

Within 24 hours of its release, Cygnus will begin its secondary mission, deploying a series of CubeSats. Once at a safe distance away from station, two deployment systems – one provided by NanoRacks and the other by Hypergiant SEOPS (Satellite, Extraterrestrial Operations and Procedures) – will begin deploying the small satellites. After about a month of free-flight operations, NASA's Seeker Robotic External CubeSat Inspection Vehicle will be deployed and operations will begin to demonstrate its ability to maneuver around Cygnus and take high-resolution photos. Seeker will transmit those images to its Kenobi receiver inside Cygnus for storage and transmission to the ground at a later date.

Cygnus also will demonstrate a Control Moment Gyroscope attitude control system and perform operations for the UbiquitiLink payload during the secondary mission. Cygnus will remain in orbit until later this year to demonstrate Northrop Grumman's ability to fly two Cygnus spacecraft simultaneously and support payloads on the cargo craft for extended durations.

-end-

Last Updated: Aug. 1, 2019
Editor: Katherine Brown
Начало трансляции: 16:00 UTC / 19:00 ДМВ 06.08.2019

tnt22

ЦитироватьSpace to Ground: Fast Track: 08/02/2019

 NASA Johnson

Опубликовано: 2 авг. 2019 г.
https://www.youtube.com/watch?v=DXs5NmRyFrUhttps://www.youtube.com/watch?v=DXs5NmRyFrU (2:39)

tnt22

https://blogs.nasa.gov/stationreport/2019/08/01/iss-daily-summary-report-8012019/
ЦитироватьISS Daily Summary Report – 8/01/2019

Gravitational References for Sensimotor Performance: Reaching and Grasping (GRASP):
Спойлер
The crew performed a series of tests for the GRASP experiment which consists of 3 components including VM (visual stimulus – manual response), VV (visual stimulus – visual response), and MM (manual stimulus – manual response) series of tests. The purpose of the experiment is to better understand how the Central Nervous System (CNS) integrates information fr om different sensory modalities, encoded in different reference frames, in order to coordinate movements of the hand with objects in the environment. When reaching to grasp an object, a human subject must orient the hand so as to align it with the orientation of the object to be grasped.
[свернуть]
Japanese Experiment Module Airlock (JEMAL):
Спойлер
The JEMAL was depressurized today in preparation for the Exposed Experiment Handrail Attachment Mechanism (EXHAM) activities planned next week. Taking advantage of Kibo's unique function of having both an airlock and a robotic arm, the ExHAM facility enables space experiments to be performed in the exposed space environment, by attachment to the Japanese Experiment Module Kibo's Exposed Facility (EF).
[свернуть]
Rodent Research-17 (RR-17):
Спойлер
Today the crew restocked the rodent habitat and cleaned the access unit. RR-17 uses younger and older mice as model organisms to evaluate the physiological, cellular and molecular effects of the spaceflight environment. Some responses to spaceflight in humans and model organisms such as mice resemble accelerated aging. This investigation provides a better understanding of aging-related immune, bone, and muscle disease processes, which may lead to new therapies for use in space and on Earth.
[свернуть]
Standard Measures:
Спойлер
A saliva collection was completed in support of the Standard Measures investigation. The aim of the investigation is to ensure consistent capture of an optimized, minimal set of measures from crewmembers until the end of the ISS Program in order to characterize the adaptive responses to and risks of living in space. Ground teams perform analyses for metabolic and chemistry panels, immune function, microbiome, etc. These measures populate a data repository to enable high-level monitoring of countermeasure effectiveness and meaningful interpretation of health and performance outcomes, and support future research on planetary missions.
[свернуть]
Team Task Switching (TTS):
Спойлер
The crew performed experiment surveys in support of the TTS investigation, the objective of which is to gain knowledge about crewmembers' ability to switch tasks. Results will contribute to both the reduction of any negative consequences, and improvement of individual and team motivation and effectiveness.
[свернуть]
Thermal Amine Scrubber (TAS) Test:
Спойлер
Ground teams are conducting the final TAS Expedite the Processing of Experiments to the Space Station (EXPRESS) Rack 2 Space Station Power Control Module (SSPCM) converter imbalance today. The EXPRESS team has noted SSPCM imbalance since initial commissioning of TAS and testing has been in work to lim it the imbalance to reduce impacts to SSPCM operational life. Results of these tests will be used to adjust TAS operations in the future.
[свернуть]
Water Storage System (WSS) Water Transfer:
Спойлер
The crew transferred 4 Contingency Water Containers Iodine (CWC-I) with a total transfer of ~77 liters to the WSS storage tanks. Post transfer, the containers were disposed of as part of the larger plan to transition from CWC-I to the WSS for water storage.
[свернуть]

tnt22

https://blogs.nasa.gov/spacestation/2019/08/02/3-d-bioprinting-grip-studies-on-station-may-benefit-earth-and-space-systems/
Цитировать3-D Bioprinting, Grip Studies on Station May Benefit Earth and Space Systems

Norah Moran
Posted Aug 2, 2019 at 12:28 pm


Expedition 60 Flight Engineer Christina Koch of NASA works with the BioFabrication Facility that will soon be tested for its ability to print organ-like tissues

The Expedition 60 crewmembers are busy conducting new and advanced science experiments today aboard the International Space Station. A U.S. space freighter will begin its secondary mission after it departs the station on Tuesday.

3-D bioprinting in space may become a viable platform in the future for fabricating human organs. NASA astronaut Christina Koch activated the new BioFabrication Facility in the morning testing its ability to print cells.

Flight Engineer Nick Hague is researching the thermophysical properties of ultra-heated materials in microgravity and installed samples into the Electrostatic Levitation Furnace. He then fueled up the Bioculture System to support the Cell Science-02 bone healing and tissue regeneration study.

Hague and Koch are also training for next week's robotic release of the Cygnus space freighter after 109 days in space. Cygnus will depart the station Tuesday and eject a set of CubeSats for space research after it reaches a safe distance from the station. The commercial cargo craft will orbit Earth for a few months of systems tests and nanosatellite deployments before its fiery, but safe atmospheric destruction above the Pacific Ocean.

Flight Engineers Andrew Morgan and Luca Parmitano continued to explore how microgravity affects their ability to grip and manipulate objects. The GRIP study, from the European Space Agency, may inform the design of future spacecraft control devices and interfaces.

Commander Alexey Ovchinin and Flight Engineer Alexander Skvortsov continue configuring the new Progress 73 resupply ship and offloading its new cargo. The duo also took turns servicing Russian science hardware and life support systems.

tnt22

Цитировать Angelina‏ @SpaceGirlLina 27 июл.
Expedition 60 crewmembers Alexey Ovchinin, @astro_luca & @AstroDrewMorgan pose for a portrait inside the vestibule between the Columbus laboratory module and the Harmony module of the International Space Station.


tnt22


tnt22

Цитировать Andrew Morgan‏ Подлинная учетная запись @AstroDrewMorgan 11 ч. назад
Getting a GRIP! This experiment studies how microgravity impacts our nervous system and movement control. This helps us understand effects to astronauts on long duration missions and helps us understand disease processes of the nervous system. More info: https://go.nasa.gov/2LwyK9z


tnt22

https://ria.ru/20190805/1557175796.html
ЦитироватьОрбиту МКС скорректируют дважды 15 августа
13:13

МОСКВА, 5 авг - РИА Новости. Высоту орбиты Международной космической станции (МКС) планируется скорректировать дважды через 10 дней, сообщило НАСА.

На сайте НАСА отмечается, что коррекции орбиты станции планируются 15 августа в первой половине дня с разницей в три часа. При этом длительность каждого включения двигателей составит около 10 минут.
Предыдущая коррекция орбиты МКС была выполнена 3 июля. С использованием двигателей служебного модуля "Звезда" МКС высота орбиты станции была увеличена почти на километр.

В настоящее время на борту МКС находится экипаж из россиян Алексея Овчинина и Александра Скворцова, американцев Ника Хейга, Кристины Кук и Эндрю Моргана и итальянца Луки Пармитано.
[свернуть]

tnt22

2019-08-15 запланирована очередная коррекция орбиты МКС для приёма "Союз МС-14". По предварительным баллистическим расчётам https://spaceflight.nasa.gov/realdata/sightings/SSapplications/Post/JavaSSOP/orbit/ISS/SVPOST.html
  IMPULSIVE TIG (GMT)   M50 DVx(FPS)      LVLH DVx(FPS)      DVmag(FPS)
   IMPULSIVE TIG (MET)   M50 DVy(FPS)      LVLH DVy(FPS)      Invar Sph HA
   DT                    M50 DVz(FPS)      LVLH DVz(FPS)      Invar Sph HP
   ------------------------------------------------------------------------
   227/05:42:47.315           0.3               1.8              1.8    
   N/A                        1.7               0.0              223.7  
   000/00:09:34.629           0.4              -0.0              222.9  
   
   227/08:44:47.258           0.6               1.8              1.8    
   N/A                        1.7              -0.0              224.0  
   000/00:09:34.515           0.1              -0.0              223.6  
коррекция должна быть проведена 15 августа 2019 дважды:
- в 05:42:47.315 UTC (227/05:42:47.315) импульсом длительностью 575 с (00:09:34.629);
- в 08:44:47.258 UTC (227/08:44:47.258) импульсом длительностью 575 с (00:09:34.515).

tnt22

https://www.interfax.ru/world/671630
Цитировать15:03, 5 августа 2019
Первый космонавт из ОАЭ угостит экипаж МКС национальными блюдами

Он повезет на орбиту мадрубу, салуну и балалит

Москва. 5 августа. INTERFAX.RU - В гостевой набор космического питания для первого космонавта из Объединенных Арабских Эмиратов войдут три традиционных блюда - мадруба с курицей, салуна с жарким из ягнятины с овощами и вермишель с омлетом балалит. Меню разработали в "Главкосмосе", сообщила эта компания.

Полет астронавта будет недолгим, гостевой рацион ему дадут, чтобы продемонстрировать экипажу МКС особенности национальной кухни ОАЭ, добавил представитель "Главкосмоса".

Балалит и салуну поместят в алюминиевые банки, мадрубу - в тубы, их можно будет есть сразу после вскрытия. Ранее сообщалось, что вместе с астронавтом на МКС отправят семь наборов, в которых будет в общей сложности больше 200 стограммовых банок и ста туб с национальной едой.

Создать такое меню компании предложили в Космическом центре Мухаммеда Бин Рашида, в работе участвуют сотрудники Института медико-биологических проблем РАН и "Лаборатории космического питания".

Руководство центра Мухаммеда Бин Рашида договорилось с "Роскосмосом" об отправке на МКС гражданина ОАЭ в 2018 году. К полету готовятся Хазаа аль-Мансури и Султан ан-Нияди. В сентябре 2019 года на МКС полетит один из них.

Всего будет изготовлено более 274 стограммовых банок с салуной и балалетом и 137 туб объемом 165 миллилитров для мадрубы. Из них сформируют девять наборов, семь из которых отправятся на МКС.

tnt22

Цитировать MBR Space Centre‏ Подлинная учетная запись @MBRSpaceCentre 3 ч. назад
For the first time in history, Emirati food including madrooba, saloona, and balaleet will be available onboard the International Space Station for the first Emirati astronaut.





triage

#21237
Кто бы объяснил к словам РИА "спец паек" будет изготовлен к середине августа - "Бендер" в ".... экспресс" курьером устроился? а то на чем доставят?

tnt22

ЦитироватьKristen Facciol‏ @kfacciol 8 мин. назад
One week until we kick off #RRM3 setup and execution! Cue happy dance!


tnt22

https://blogs.nasa.gov/stationreport/2019/08/02/iss-daily-summary-report-8022019/
ЦитироватьISS Daily Summary Report – 8/02/2019

BioFabrication Facility (BFF) Test Print:
Спойлер
Today the crew installed the test print cassette, performed a syringe swap, then removed the test print cassette following the BFF printing ops. This was done in support of the first test print using cells in the BFF. During the ground-commanded BFF operations, there was an accidental release of the "ink" material inside the printing volume. The teams are considering a cleanup plan. Using 3D biological printers to produce usable human organs has long been a dream of scientists and doctors around the globe. However, printing the tiny, complex structures found inside human organs, such as capillary structures, has proven difficult to accomplish in Earth's gravity environment. To overcome this challenge, Techshot designed their BFF to print organ-like tissues in microgravity, acting as a stepping stone in a long-term plan to manufacture whole human organs in space using refined biological 3D printing techniques.
[свернуть]
Cell Science-02 (CS-02):
Спойлер
The crew replaced the used gas supply with a new gas supply in the CS-02/Bioculture System. There were some initial difficulties installing the new unit due to possible cable interference, but this was resolved and the unit was successfully installed. The ground team subsequently reported seeing good telemetry from the new unit. The CS-02 investigation uses osteoblast progenitor cells isolated from mouse bones to investigate the effects of microgravity on osteoblast cellular processes at the molecular and biochemical level. CS-02 uses a computational biology omics approach to investigate how osteoblasts respond to treatment with two known osteo-inductive factors.
[свернуть]
Electrostatic Levitation Furnace (ELF) Controller Installation:
Спойлер
The crew performed a sample cartridge controller installation. JAXA's ELF is an experimental facility designed to levitate, melt and solidify materials by containerless processing techniques using the electrostatic levitation method. With this facility thermophysical properties of high temperature melts can be measured and solidification from deeply undercooled melts can be achieved. ELF typically processes oxide samples, but is also capable of processing semiconductors, alloys, and metals.
[свернуть]
Gravitational References for Sensimotor Performance: Reaching and Grasping (GRASP):
Спойлер
Today the crew completed the GRASP Free-floating science sessions. The GRIP experiment consists of 3 protocols: Dynamics Seated, References Seated and References Supine. They are performed in 3 separate sub-sessions. ESA's Grip investigation tests how the nervous system takes into account the forces due to gravity and inertia when manipulating objects. Results from this investigation may provide insight into potential hazards for astronauts as they manipulate objects in different gravitational environments. They also support design and control of haptic interfaces to be used in challenging environments such as space, and provide information about motor control that will be useful for the evaluation and rehabilitation of impaired upper limb control in patients with neurological diseases.
[свернуть]
Nanoracks Mod-82 photos:
Спойлер
The crew removed the NanoRacks Module-82 from NanoRacks Frame 3 and took pictures of contents of module. The United Arab Emirates (UAE) Palm Tree Growth Experiment examines germination of palm tree seeds in order to determine the best conditions for generating tissue samples for research. A process for growing healthy plant tissue in microgravity could be adapted for testing other indigenous plants of scientific, commercial or educational interest in the UAE. The investigation also observes and documents root growth in microgravity for educational purposes.
[свернуть]
SlingShot:
Спойлер
The crew installed SlingShot Controller inside the NG-11 vehicle in preparation for SlingShot Deployer installation. NG-11 will host the second mission for Slingshot, which is planned to deploy four satellites. In addition to the deployed satellites, one payload will remain attached to Slingshot. SlingShot is a small satellite deployment system that fits inside the Cygnus spacecraft's Passive Common Berthing Mechanism (PCBM). SlingShot can accommodate up to 18 satellites that are deployed post Cygnus unberth.
[свернуть]
Cygnus Robotics Onboard Trainer (RoBOT):
Спойлер
In preparation for NG-11 release, the crew performed a session of RoBOT training during which they practiced three release runs. Cygnus departure is scheduled for next Tuesday, August 6.
[свернуть]
Mobile Servicing System (MSS) Ops:
Спойлер
Yesterday afternoon, Robotics Ground Controllers powered up Space Station Remote Manipulator System (SSRMS) and un-grappled the SpX-18 Dragon vehicle which is berthed to Node 2 Nadir. The SSRMS was then used to grapple the NG-11 Cygnus vehicle which is berthed to Node 1 Nadir in preparation for release next Tuesday.
[свернуть]