Astrobee (robot)

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NASA astronaut Anne McClain with Astrobee robot "Bumble" in the Kibo module of the International Space Station. Astrobee in Space.jpg
NASA astronaut Anne McClain with Astrobee robot "Bumble" in the Kibo module of the International Space Station.

Astrobee is a robotic system developed by the US space agency NASA to assist astronauts aboard the International Space Station (ISS). Astrobee consists of three 12.5-inch cube-shaped robots named Honey, Queen, and Bumble, along with software and a docking station for recharging. Astrobee was created to perform some routine tasks on the ISS, allowing astronauts to focus on tasks which require human activities. [1]

Contents

Overview

Astrobee can operate either autonomously or under remote control by astronauts, flight controllers, or ground researchers. [2] The robots are equipped with cameras and sensors to navigate the microgravity environment and perform tasks such as inventory management, experiment documentation, and cargo movement. The robots utilize an electric fan which pushes air through 12 nozzles, enabling free flight within the space station. [3]

Astrobee was designed to improve upon the design of the Synchornized Position Hold, Engage, Reorient, Experimental Satellites (SPHERES) which were already aboard the ISS. [4]

Each robot is a 12.5-inch cube with a perching arm that allows it to grasp handrails for energy conservation, to manipulate items, and assist astronauts[ citation needed ].

History

The docking station launched on November 17, 2018, aboard Northrop Grumman's Cygnus NG-10 mission and was installed on February 15, 2019, in the Japanese Experiment Module.

Free-flying robots Bumble and Honey launched on April 17, 2019, via the NG-11 mission. [5] [6] [7] The third robot, Queen, and three perching arms were launched on July 25, 2019, aboard SpaceX's SpX-18 mission. [1] [8] Honey ultimately ended up returning to Earth aboard SpX-23 for maintenance and returned to the space station aboard NG-19. [7] [9]

Additional information

Astrobee, like SPHERES before it, is a part of NASA's initiative to advance guest research on the ISS. [10] Using the robots, researchers on Earth are able to access most of the space station without the need for astronaut interaction. In addition to research opportunities, Astrobee has been used for educational purposes, with teams of students using them to complete challenges similar to tasks robots may be used for in the future. [11]

The propulsion system of each Astrobee robot relies on a pair of impellers that pressurize air inside the robot. This pressurized air can then be vented through 12 different nozzles, allowing the robot to rotate or translate in any direction without the need for external moving parts or pressurized gas canisters. Astrobee is equipped with multiple cameras, a touch screen, a laser pointer, lights, and a 'Terminate Button' that, when pressed, quickly shuts down the propulsion and payload systems while keeping the main processors operational for communication with ground control. [12]

The onboard sensing and computing capabilities enable Astrobee to operate autonomously, and its flight software, based on ROS, is upgradable in-orbit. The robot's modular design additionally allows for expanded capabilities in the future.

Future contributions

Astrobee's modular design allows guest scientists to conduct diverse experiments to help develop technology for future space missions. The system is expected to play a crucial role in NASA's lunar exploration plans and other deep space missions, potentially serving as caretakers for spacecraft like the Lunar Gateway during crew absences.

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Cygnus is an expendable American cargo spacecraft used for International Space Station (ISS) logistics missions. Cygnus was developed by Orbital Sciences Corporation, partially funded by NASA under the agency's Commercial Orbital Transportation Services (COTS) program. To create Cygnus, Orbital paired the Multi-Purpose Logistics Module, built by Thales Alenia Space and previously used by the Space Shuttle for ISS logistics, with a service module based on Orbital's GEOStar, a satellite bus. After a successful demonstration flight in 2013, Orbital was chosen to receive a Commercial Resupply Services (CRS) contract. A larger Enhanced Cygnus was introduced in 2015. Orbital Sciences was renamed Orbital ATK in 2015 and Northrop Grumman purchased Orbital in 2018 and has continued to operate Cygnus missions.

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NG-10, previously known as OA-10E, is the eleventh flight of the Northrop Grumman uncrewed resupply spacecraft Cygnus and its tenth flight to the International Space Station under the Commercial Resupply Services (CRS-1) contract with NASA. The mission launched on 17 November 2018, at 09:01:31 UTC. This particular mission is part of an extension of the initial CRS contract that enables NASA to cover the ISS resupply needs until the Commercial Resupply Services-2 (CRS-2) contract enters in effect.

<span class="mw-page-title-main">Cygnus NG-11</span> Mid-2019 cargo mission to the ISS

NG-11, previously known as OA-11, is the twelfth flight of the Northrop Grumman robotic resupply spacecraft Cygnus and its eleventh flight to the International Space Station under the Commercial Resupply Services (CRS-1) contract with NASA. The mission launched on 17 April 2019 at 20:46:07 UTC. This is the last mission from the extended CRS-1 contract; follow-up missions are part of the CRS-2 contract. Cygnus NG-11 was also the first mission to load critical hardware onto Cygnus within the last 24 hours prior to launch, a new Antares feature.

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NG-12, previously known as OA-12, was the thirteenth flight of the Northrop Grumman robotic resupply spacecraft Cygnus and its twelfth Commercial Resupply Services flight to the International Space Station (ISS) for NASA. The mission launched on 2 November 2019 at 13:59:47 UTC). This was the first launch of Cygnus under the Commercial Resupply Services 2 (CRS-2) contract.

<span class="mw-page-title-main">Cygnus NG-13</span> 2020 American resupply spaceflight to the ISS

NG-13, previously known as OA-13, was the fourteenth flight of the Northrop Grumman robotic resupply spacecraft Cygnus and its thirteenth flight to the International Space Station (ISS) under the Commercial Resupply Services (CRS-1) contract with NASA. The mission launched on 15 February 2020 at 20:21:01 UTC after nearly a week of delays. This is the second launch of Cygnus under the CRS-2 contract.

<span class="mw-page-title-main">Cygnus NG-14</span> 2020 American resupply spaceflight to the ISS

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Cygnus NG-15, previously known as OA-15, was the fifteenth launch of the Northrop Grumman robotic resupply spacecraft Cygnus and its fourteenth flight to the International Space Station (ISS) under the Commercial Resupply Services (CRS) contract with NASA. The mission launched on 20 February 2021 at 17:36:50 UTC. This is the fourth launch of Cygnus under the CRS-2 contract.

<span class="mw-page-title-main">Cygnus NG-16</span> 2021 American resupply spaceflight to the ISS

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<span class="mw-page-title-main">Cygnus NG-17</span> 2022 American resupply spaceflight to the ISS

NG-17, previously known as OA-17, was the seventeenth flight of the Northrop Grumman robotic resupply spacecraft Cygnus and its sixteenth flight to the International Space Station (ISS) under the Commercial Resupply Services (CRS) contract with NASA. The mission launched on 19 February 2022 at 17:40:03 UTC. It was the sixth launch of Cygnus under the CRS-2 contract.

<span class="mw-page-title-main">Cygnus NG-18</span> 2022 American resupply spaceflight to the ISS

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<span class="mw-page-title-main">Cygnus NG-19</span> Late 2023 cargo spacecraft mission to ISS

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References

  1. 1 2 "Astrobee - NASA" . Retrieved 2024-04-17.
  2. "Look, No Hands! NASA's First Astrobee Robot "Bumble" Starts Flying in Space - NASA" . Retrieved 2024-04-17.
  3. "NASA Launching Astrobee Robots to Space Station". IEEE Spectrum. 2019-04-16. Retrieved 2024-02-16.
  4. "Free-Flying Robots in Space: How Real-Life Droids are Testing New Tech". Upward: Official Magazine of the ISS National Laboratory. 2024-04-23. Retrieved 2024-08-06.
  5. "Tiny Robots, Wearable Tech and More Weird Science Will Launch to Space Station Wednesday". space.com. 2019-04-16. Retrieved 2024-08-06.
  6. "Hi Honey! NASA's Second Astrobee Wakes Up in Space - NASA" . Retrieved 2024-04-17.
  7. 1 2 Elizabeth Howell (2023-10-11). "NASA's Astrobee robot 'Honey' flies home to its International Space Station hive". Space.com. Retrieved 2024-04-17.
  8. "Oh, Hiiiiive! Astrobee Queen Wakes Up In Orbit - NASA" . Retrieved 2024-04-17.
  9. "NASA Commercial Resupply Mission NG-19". Northrop Grumman. Retrieved 2024-08-08.
  10. "Astrobee Guest Science Guide" (PDF). 2017-08-31. Retrieved 2024-08-07.
  11. "2023 LUNABEE FINALS A SUCCESS". zerorobotics.mit.edu. Retrieved 2024-08-08.
  12. "NASA Astrobee Robot Software: Command Dictionary". nasa.github.io. Retrieved 2024-05-29.

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