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(Redirected from Canadarm 2) Robotic system on board the International Space Station
Astronaut Stephen K. Robinson anchored to the end of the Canadarm2 during STS-114, 2005
Canadarm2 moves Rassvet to berth with the station on STS-132, 2010

The Mobile Servicing System (MSS), is a robotic system on board the International Space Station (ISS). Launched to the ISS in 2001, it plays a key role in station assembly and maintenance; it moves equipment and supplies around the station, supports astronauts working in space, and services instruments and other payloads attached to the ISS and is used for external maintenance. Astronauts receive specialized training to enable them to perform these functions with the various systems of the MSS.

The MSS is composed of three components:

  • the Space Station Remote Manipulator System (SSRMS), known as Canadarm2.
  • the Mobile Remote Servicer Base System (MBS).
  • the Special Purpose Dexterous Manipulator (SPDM, also known as "Dextre" or "Canada hand").

The system can move along rails on the Integrated Truss Structure on top of the US provided Mobile Transporter cart which hosts the MRS Base System. The system's control software was written in the Ada 95 programming language.

The MSS was designed and manufactured by MDA, (previously divisions of MacDonald Dettwiler Associates called MDA Space Missions, MD Robotics, and previously called SPAR Aerospace) for the Canadian Space Agency's contribution to the International Space Station.

Canadarm2

Astronaut Leroy Chiao controlling Canadarm2 from the Destiny lab
The exterior of the Canadarm is clad with Kevlar fabric, while the arm itself is made from Titanium, pictured above Lake Balkhash.
Leland Melvin working on the robotic control computers
A unique view of the whole arm, MBS and Dextre, grappling containers while near the massive solar arrays
Canadarm2 captures Cygnus OA-5 S.S. Alan Poindexter in late 2016

Officially known as the Space Station Remote Manipulator System (SSRMS). Launched on STS-100 in April 2001, this second generation arm is a larger, more advanced version of the Space Shuttle's original Canadarm. Canadarm2 is 17.6 m (58 ft) when fully extended and has seven motorized joints (an 'elbow' hinge in the middle, and three rotary joints at each of the 'wrist/shoulder' ends). It has a mass of 1,800 kg (4,000 lb) and a diameter of 35 cm (14 in) and is made from titanium. The arm is capable of handling large payloads of up to 116,000 kg (256,000 lb) and was able to assist with docking the space shuttle. It is self-relocatable and can move end-over-end to reach many parts of the Space Station in an inchworm-like movement. In this movement, it is limited only by the number of Power Data Grapple Fixtures (PDGFs) on the station. PDGFs located around the station provide power, data and video to the arm through either of its two Latching End Effectors (LEEs). The arm can also travel the entire length of the space station truss using the Mobile Base System.

In addition to moving itself around the station, the arm can move any object with a grapple fixture. In construction of the station the arm was used to move large segments into place. It can also be used to capture unpiloted ships like the SpaceX Dragon, the Cygnus spacecraft, and Japanese H-II Transfer Vehicle (HTV) which are equipped with a standard grapple fixture which the Canadarm2 uses to capture and berth the spacecraft. The arm is also used to unberth and release the spacecraft after use.

On-board operators see what they are doing by looking at the three Robotic Work Station (RWS) LCD screens. The MSS has two RWS units: one in the Destiny module and the other in the Cupola. Only one RWS controls the MSS at a time. The RWS has two sets of control joysticks: one Rotational Hand Controller (RHC) and one Translational Hand Controller (THC). In addition to this is the Display and Control Panel (DCP) and the Portable Computer System (PCS) laptop.

In recent years, the majority of robotic operations are commanded remotely by flight controllers on the ground at Christopher C. Kraft Jr. Mission Control Center, or from the Canadian Space Agency's John H. Chapman Space Centre. Operators can work in shifts to accomplish objectives with more flexibility than when done by on-board crew operators, albeit at a slower pace. Astronaut operators are used for time-critical operations such as visiting vehicle captures and robotics-supported extra-vehicular activity.

Some time before 12 May 2021 Canadarm2 was hit by a small piece of orbital debris damaging its thermal blankets and one of the booms. Its operation appeared to be unaffected.

Canadarm 2 will also help to berth the Axiom Space Station modules to the ISS.

Latching End Effectors

LEE drawing
Latching end effector (LEE)

Canadarm2 has two LEEs, one at each end. A LEE has 3 snare wires to catch the grapple fixture shaft. Another LEE is on the Mobile Base System's Payload ORU Accommodations (POA) unit. The POA LEE is used to temporarily hold large ISS components. One more is on the Special Purpose Dexterous Manipulator (SPDM, also known as "Dextre" or "Canada hand"). Six LEEs have been manufactured and used in various locations on the ISS.

S/N Initial location Current location
201 LEE B POA LEE
202 LEE A Earth, to be refurbished for Ground Spare
203 POA LEE LEE A
204 Spare stored on ELC1 LEE B
205 Earth, Ground Spare Spare stored on exterior ISS
301 SPDM LEE SPDM LEE

Special Purpose Dexterous Manipulator

Main article: Dextre

The Special Purpose Dexterous Manipulator, or "Dextre", is a smaller two-armed robot that can attach to Canadarm2, the ISS, or the Mobile Base System. The arms and their power tools are capable of handling delicate assembly tasks and changing Orbital Replacement Units (ORUs) currently handled by astronauts during spacewalks. Although Canadarm2 can move around the station in an "inchworm motion", it is unable to carry anything with it unless Dextre is attached. Testing was done in the space simulation chambers of the Canadian Space Agency's David Florida Laboratory in Ottawa, Ontario. The manipulator was launched to the station on 11 March 2008 on STS-123.

Dextre and Canadarm2 docked side by side on Power Data Grapple Fixtures

Mobile Base System

The Mobile Base System just before Canadarm2 installed it on the Mobile Transporter during STS-111

The Mobile Remote Servicer Base System (MBS) is a base platform for the robotic arms. It was added to the station during STS-111 in June 2002. The platform rests atop the Mobile Transporter (installed on STS-110, designed by Northrop Grumman in Carpinteria, CA), which allows it to glide 108 metres down rails on the station's main truss. Canadarm2 can relocate by itself, but can't carry at the same time, Dextre can't relocate by itself. The MBS gives the two robotic arms the ability to travel to work sites all along the truss structure and to step off onto grapple fixtures along the way. When Canadarm2 and Dextre are attached to the MBS, they have a combined mass of 4,900 kg (10,800 lb). Like Canadarm2 it was built by MD Robotics and it has a minimum service life of 15 years.

The MBS is equipped with four Power Data Grapple Fixtures, one at each of its four top corners. Any of these can be used as a base for the two robots, Canadarm2 and Dextre, as well as any of the payloads that might be held by them. The MBS also has two locations to attach payloads. The first is the Payload/Orbital Replacement Unit Accommodations (POA). This is a device that looks and functions much like the Latching End Effectors of Canadarm2. It can be used to park, power and command any payload with a grapple fixture, while keeping Canadarm2 free to do something else. The other attachment location is the MBS Common Attachment System (MCAS). This is another type of attachment system that is used to host scientific experiments.

The MBS also supports astronauts during extravehicular activities. It has locations to store tools and equipment, foot-restraints, handrails and safety tether attachment points as well as a camera assembly. If needed, it is even possible for an astronaut to "ride" the MBS while it moves at a top speed of about 1.5 meters per minute. On either side of the MBS are the Crew and Equipment Translation Aids. These carts ride on the same rails as the MBS. Astronauts ride them manually during EVAs to transport equipment and to facilitate their movements around the station.

Canadarm2 riding the Mobile Base System along the Mobile Transporter railway, running the length of the station's main truss

Enhanced ISS Boom Assembly

Main article: Orbiter Boom Sensor System § Enhanced ISS Boom Assembly

Installed on May 27, 2011, is a 15.24 meter (50-foot) boom with handrails and inspection cameras, attached to the end of Canadarm2.

  • Shuttle Remote Manipulator System (RMS) holding OBSS boom on STS-114 Shuttle Remote Manipulator System (RMS) holding OBSS boom on STS-114
  • Astronaut Scott Parazynski (at right) riding the OBSS boom to repair the solar array during STS-120 Astronaut Scott Parazynski (at right) riding the OBSS boom to repair the solar array during STS-120

Other ISS robotics

The station received a second robotic arm during STS-124, the Japanese Experiment Module Remote Manipulator System (JEM-RMS). The JEM-RMS is primarily used to service the JEM Exposed Facility. An additional robotic arm, the European Robotic Arm (ERA) was launched alongside the Russian-built Multipurpose Laboratory Module on July 15, 2021.

Originally connected to Pirs, the ISS also has two Strela cargo cranes. One of the cranes could be extended to reach the end of Zarya. The other could extend to the opposite side and reach the end of Zvezda. The first crane was assembled in space during STS-96 and STS-101. The second crane was launched alongside Pirs itself. The cranes were later moved to the docking compartment Poisk and Zarya module.

List of Cranes

Name Agency or Company Launch
Canadarm 2 Canadian Space Agency April 19, 2001
Dextre Canadian Space Agency March 11, 2008

See also

References

  1. "Case Study: MDA - Canadian Space Arm" (PDF). AdaCore. Retrieved 2009-10-15.
  2. ^ Michelle, Star (31 May 2021). "Space Debris Has Hit And Damaged The International Space Station". Science Alert. Retrieved 31 May 2021. 
  3. "Axiom Station Assembly Sequence — Axiom Space Axiom Space". Axiom Space. Retrieved 2021-08-09.
  4. "A Private Space Station Might Be Born From the ISS - Seeker". www.seeker.com. 25 January 2017. Retrieved 2021-09-26.
  5. EVA Checklist STS-126 Flight Supplement, 2008 pages 115, 117, 118
  6. ^ "The Slowest and Fastest Train in the Universe". NASA.
  7. ^ "About the Mobile Base System". Government of Canada. 20 June 2018. Retrieved January 2, 2023.
  8. Garcia, Mark (22 October 2018). "Mobile Servicing System". NASA.
  9. "A Space-Age Robot". MIT Technology Review. Retrieved January 2, 2023.
  10. "CSA - STS-111 - Mobile Base System - MBS Design". Canadian Space Agency. Archived from the original on 2008-09-21. Retrieved 2008-03-15.

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