#spacerobot β Public Fediverse posts
Live and recent posts from across the Fediverse tagged #spacerobot, aggregated by home.social.
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π¨π³ #China is sending a #humanoid upper body with four wheels to the #moon π as part of its #ChangE8 mission, scheduled for π 2029. The 100kg #robot will transport, deploy and install instruments and sensors at their designated lunar locations. It is also tasked with collecting samples of the moonβs surface https://www.scmp.com/news/china/science/article/3352998/meet-chinas-moon-porter-change-8-mission-4-wheeled-robot-2-arms
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π¨π³ #China is sending a #humanoid upper body with four wheels to the #moon π as part of its #ChangE8 mission, scheduled for π 2029. The 100kg #robot will transport, deploy and install instruments and sensors at their designated lunar locations. It is also tasked with collecting samples of the moonβs surface https://www.scmp.com/news/china/science/article/3352998/meet-chinas-moon-porter-change-8-mission-4-wheeled-robot-2-arms
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π¨π³ #China is sending a #humanoid upper body with four wheels to the #moon π as part of its #ChangE8 mission, scheduled for π 2029. The 100kg #robot will transport, deploy and install instruments and sensors at their designated lunar locations. It is also tasked with collecting samples of the moonβs surface https://www.scmp.com/news/china/science/article/3352998/meet-chinas-moon-porter-change-8-mission-4-wheeled-robot-2-arms
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π¨π³ #China is sending a #humanoid upper body with four wheels to the #moon π as part of its #ChangE8 mission, scheduled for π 2029. The 100kg #robot will transport, deploy and install instruments and sensors at their designated lunar locations. It is also tasked with collecting samples of the moonβs surface https://www.scmp.com/news/china/science/article/3352998/meet-chinas-moon-porter-change-8-mission-4-wheeled-robot-2-arms
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π¨π³ #China is sending a #humanoid upper body with four wheels to the #moon π as part of its #ChangE8 mission, scheduled for π 2029. The 100kg #robot will transport, deploy and install instruments and sensors at their designated lunar locations. It is also tasked with collecting samples of the moonβs surface https://www.scmp.com/news/china/science/article/3352998/meet-chinas-moon-porter-change-8-mission-4-wheeled-robot-2-arms
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π¦πΊ #Charlotte could advance autonomous construction technology on the #Moon π https://www.youtube.com/watch?v=vekQwRsHsWY
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π¦πΊ #Charlotte could advance autonomous construction technology on the #Moon π https://www.youtube.com/watch?v=vekQwRsHsWY
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π¦πΊ #Charlotte could advance autonomous construction technology on the #Moon π https://www.youtube.com/watch?v=vekQwRsHsWY
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π¦πΊ #Charlotte could advance autonomous construction technology on the #Moon π https://www.youtube.com/watch?v=vekQwRsHsWY
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π¦πΊ #Charlotte could advance autonomous construction technology on the #Moon π https://www.youtube.com/watch?v=vekQwRsHsWY
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#NASA says it is interested in #humanoid #robots because they can help or even replace #astronauts working in extreme space π environments. #MIT is one of two #university research groups nationwide that will receive a 6-foot, 290-pound humanoid #robot to test and develop for future space missions to #Mars and beyond https://robotics.mit.edu/nasa-gives-mit-humanoid-robot-develop-software-future-space-missions/
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#NASA says it is interested in #humanoid #robots because they can help or even replace #astronauts working in extreme space π environments. #MIT is one of two #university research groups nationwide that will receive a 6-foot, 290-pound humanoid #robot to test and develop for future space missions to #Mars and beyond https://robotics.mit.edu/nasa-gives-mit-humanoid-robot-develop-software-future-space-missions/
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#NASA says it is interested in #humanoid #robots because they can help or even replace #astronauts working in extreme space π environments. #MIT is one of two #university research groups nationwide that will receive a 6-foot, 290-pound humanoid #robot to test and develop for future space missions to #Mars and beyond https://robotics.mit.edu/nasa-gives-mit-humanoid-robot-develop-software-future-space-missions/
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#NASA says it is interested in #humanoid #robots because they can help or even replace #astronauts working in extreme space π environments. #MIT is one of two #university research groups nationwide that will receive a 6-foot, 290-pound humanoid #robot to test and develop for future space missions to #Mars and beyond https://robotics.mit.edu/nasa-gives-mit-humanoid-robot-develop-software-future-space-missions/
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#NASA says it is interested in #humanoid #robots because they can help or even replace #astronauts working in extreme space π environments. #MIT is one of two #university research groups nationwide that will receive a 6-foot, 290-pound humanoid #robot to test and develop for future space missions to #Mars and beyond https://robotics.mit.edu/nasa-gives-mit-humanoid-robot-develop-software-future-space-missions/
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The #robotβs arms π¦Ύ can each rotate in seven different ways, including at the shoulder, the elbow, and the wrist just like the human arm.
The robot also comes with an advanced suspension that allows it to maintain balance while driving π over uneven terrain with craters and loose lunar soil https://www.independent.co.uk/space/china-humanoid-robot-moon-base-b2939157.html
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The #robotβs arms π¦Ύ can each rotate in seven different ways, including at the shoulder, the elbow, and the wrist just like the human arm.
The robot also comes with an advanced suspension that allows it to maintain balance while driving π over uneven terrain with craters and loose lunar soil https://www.independent.co.uk/space/china-humanoid-robot-moon-base-b2939157.html
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The #robotβs arms π¦Ύ can each rotate in seven different ways, including at the shoulder, the elbow, and the wrist just like the human arm.
The robot also comes with an advanced suspension that allows it to maintain balance while driving π over uneven terrain with craters and loose lunar soil https://www.independent.co.uk/space/china-humanoid-robot-moon-base-b2939157.html
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The #robotβs arms π¦Ύ can each rotate in seven different ways, including at the shoulder, the elbow, and the wrist just like the human arm.
The robot also comes with an advanced suspension that allows it to maintain balance while driving π over uneven terrain with craters and loose lunar soil https://www.independent.co.uk/space/china-humanoid-robot-moon-base-b2939157.html
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The #robotβs arms π¦Ύ can each rotate in seven different ways, including at the shoulder, the elbow, and the wrist just like the human arm.
The robot also comes with an advanced suspension that allows it to maintain balance while driving π over uneven terrain with craters and loose lunar soil https://www.independent.co.uk/space/china-humanoid-robot-moon-base-b2939157.html
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While #Apollo is currently deployed in #MercedesBenz factories for logistics tasks, its design is intended to eventually operate within the specific constraints of #spacecraft and #extraterrestrial environments https://interestingengineering.com/photo-story/apollo-humanoid-robots-factory-work-to-space
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While #Apollo is currently deployed in #MercedesBenz factories for logistics tasks, its design is intended to eventually operate within the specific constraints of #spacecraft and #extraterrestrial environments https://interestingengineering.com/photo-story/apollo-humanoid-robots-factory-work-to-space
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While #Apollo is currently deployed in #MercedesBenz factories for logistics tasks, its design is intended to eventually operate within the specific constraints of #spacecraft and #extraterrestrial environments https://interestingengineering.com/photo-story/apollo-humanoid-robots-factory-work-to-space
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While #Apollo is currently deployed in #MercedesBenz factories for logistics tasks, its design is intended to eventually operate within the specific constraints of #spacecraft and #extraterrestrial environments https://interestingengineering.com/photo-story/apollo-humanoid-robots-factory-work-to-space
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While #Apollo is currently deployed in #MercedesBenz factories for logistics tasks, its design is intended to eventually operate within the specific constraints of #spacecraft and #extraterrestrial environments https://interestingengineering.com/photo-story/apollo-humanoid-robots-factory-work-to-space
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#Robots are exploring #space π and preparing the way for human missions to the #Moon π and #Mars π΄. Whatever #humans do in space in the future, robots will almost certainly be there with them. They will be able to perform risky tasks for their human counterparts, work alongside them as helpers, and perhaps even provide companionship https://airandspace.si.edu/stories/editorial/space-place-robots
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#Robots are exploring #space π and preparing the way for human missions to the #Moon π and #Mars π΄. Whatever #humans do in space in the future, robots will almost certainly be there with them. They will be able to perform risky tasks for their human counterparts, work alongside them as helpers, and perhaps even provide companionship https://airandspace.si.edu/stories/editorial/space-place-robots
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#Robots are exploring #space π and preparing the way for human missions to the #Moon π and #Mars π΄. Whatever #humans do in space in the future, robots will almost certainly be there with them. They will be able to perform risky tasks for their human counterparts, work alongside them as helpers, and perhaps even provide companionship https://airandspace.si.edu/stories/editorial/space-place-robots
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#Robots are exploring #space π and preparing the way for human missions to the #Moon π and #Mars π΄. Whatever #humans do in space in the future, robots will almost certainly be there with them. They will be able to perform risky tasks for their human counterparts, work alongside them as helpers, and perhaps even provide companionship https://airandspace.si.edu/stories/editorial/space-place-robots
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#Robots are exploring #space π and preparing the way for human missions to the #Moon π and #Mars π΄. Whatever #humans do in space in the future, robots will almost certainly be there with them. They will be able to perform risky tasks for their human counterparts, work alongside them as helpers, and perhaps even provide companionship https://airandspace.si.edu/stories/editorial/space-place-robots
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https://www.europesays.com/ie/307591/ Worldβs first robot astronaut for space exploration program #BeijingInterstellarHumanSpaceflightTechnology #Γire #EngineAI #humanoid #HumanoidRobot #IE #Ireland #PM01 #RobotAstronaut #Robotics #Science #Space #SpaceExploration #SpaceRobot
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How long could a #humanoid #robot π€ operate on #Mars π΄ ?
Rover examples :
#Spirit: 7 years
#Opportunity: 15 years
#Curiosity > 10 yearsOften-times a βbareβ #robot cannot operate in the intended environment. Extremes of #temperature βοΈπ‘οΈ is just one example. #Robosuits can be augmented to supply either cooling or heating to keep the #robot within OEM temperature specifications https://www.roboticstomorrow.com/article/2018/06/protecting-your-robot-with-robosuit/12076
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How long could a #humanoid #robot π€ operate on #Mars π΄ ?
Rover examples :
#Spirit: 7 years
#Opportunity: 15 years
#Curiosity > 10 yearsOften-times a βbareβ #robot cannot operate in the intended environment. Extremes of #temperature βοΈπ‘οΈ is just one example. #Robosuits can be augmented to supply either cooling or heating to keep the #robot within OEM temperature specifications https://www.roboticstomorrow.com/article/2018/06/protecting-your-robot-with-robosuit/12076
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How long could a #humanoid #robot π€ operate on #Mars π΄ ?
Rover examples :
#Spirit: 7 years
#Opportunity: 15 years
#Curiosity > 10 yearsOften-times a βbareβ #robot cannot operate in the intended environment. Extremes of #temperature βοΈπ‘οΈ is just one example. #Robosuits can be augmented to supply either cooling or heating to keep the #robot within OEM temperature specifications https://www.roboticstomorrow.com/article/2018/06/protecting-your-robot-with-robosuit/12076
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How long could a #humanoid #robot π€ operate on #Mars π΄ ?
Rover examples :
#Spirit: 7 years
#Opportunity: 15 years
#Curiosity > 10 yearsOften-times a βbareβ #robot cannot operate in the intended environment. Extremes of #temperature βοΈπ‘οΈ is just one example. #Robosuits can be augmented to supply either cooling or heating to keep the #robot within OEM temperature specifications https://www.roboticstomorrow.com/article/2018/06/protecting-your-robot-with-robosuit/12076
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How long could a #humanoid #robot π€ operate on #Mars π΄ ?
Rover examples :
#Spirit: 7 years
#Opportunity: 15 years
#Curiosity > 10 yearsOften-times a βbareβ #robot cannot operate in the intended environment. Extremes of #temperature βοΈπ‘οΈ is just one example. #Robosuits can be augmented to supply either cooling or heating to keep the #robot within OEM temperature specifications https://www.roboticstomorrow.com/article/2018/06/protecting-your-robot-with-robosuit/12076
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πͺπΊ #Europe plans to develop a #robotic lunar lander to secure European access to the moon π. #Argonaut will have a height of 6 meters, a diameter of 4.5 m and a launch mass of nearly 10,000 kg,. It can carry roughly 1,500 kg, such as food π½οΈ and waterπ§ for future #astronauts, to the lunar surface. The first mission is scheduled for π 2030 https://www.space.com/astronomy/moon/europe-picks-companies-to-help-build-argonaut-moon-lander
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πͺπΊ #Europe plans to develop a #robotic lunar lander to secure European access to the moon π. #Argonaut will have a height of 6 meters, a diameter of 4.5 m and a launch mass of nearly 10,000 kg,. It can carry roughly 1,500 kg, such as food π½οΈ and waterπ§ for future #astronauts, to the lunar surface. The first mission is scheduled for π 2030 https://www.space.com/astronomy/moon/europe-picks-companies-to-help-build-argonaut-moon-lander
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πͺπΊ #Europe plans to develop a #robotic lunar lander to secure European access to the moon π. #Argonaut will have a height of 6 meters, a diameter of 4.5 m and a launch mass of nearly 10,000 kg,. It can carry roughly 1,500 kg, such as food π½οΈ and waterπ§ for future #astronauts, to the lunar surface. The first mission is scheduled for π 2030 https://www.space.com/astronomy/moon/europe-picks-companies-to-help-build-argonaut-moon-lander
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πͺπΊ #Europe plans to develop a #robotic lunar lander to secure European access to the moon π. #Argonaut will have a height of 6 meters, a diameter of 4.5 m and a launch mass of nearly 10,000 kg,. It can carry roughly 1,500 kg, such as food π½οΈ and waterπ§ for future #astronauts, to the lunar surface. The first mission is scheduled for π 2030 https://www.space.com/astronomy/moon/europe-picks-companies-to-help-build-argonaut-moon-lander
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πͺπΊ #Europe plans to develop a #robotic lunar lander to secure European access to the moon π. #Argonaut will have a height of 6 meters, a diameter of 4.5 m and a launch mass of nearly 10,000 kg,. It can carry roughly 1,500 kg, such as food π½οΈ and waterπ§ for future #astronauts, to the lunar surface. The first mission is scheduled for π 2030 https://www.space.com/astronomy/moon/europe-picks-companies-to-help-build-argonaut-moon-lander
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UK developing first robotic welder to fix satellites in space
The University of Leicester, in partnership with welding specialist TWI Ltd, is leading the development of the UKβsβ¦
#NewsBeep #News #Space #Aerospace #AU #Australia #InventionsandMachines #ISPARK #roboticweldingtechnology. #satelliterepair #Science #spacerobot #spacewelding #UK
https://www.newsbeep.com/au/327786/ -
The #Optimus #humanoid #robot π€ is made of #PolyetherEtherKetone, a polymer offering rigidity, toughness, mechanical strength, and excellent resistance to heat, wear, and corrosion https://www.lft-g.com/blog/the-future-of-robotics-8-essential-polymers-powering-humanoid-robots_b174
Polyether ether ketone composite (#PEEK) also possesses good physicochemical properties such as #radiation β’οΈ resistance, high/low π‘οΈβοΈ #temperature resistance, and low vacuum π #outgassing https://www.sciencedirect.com/science/article/abs/pii/S1359836824008965
#PEEK in #NASA's outgassing database https://etd.gsfc.nasa.gov/capabilities/outgassing-database
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The #Optimus #humanoid #robot π€ is made of #PolyetherEtherKetone, a polymer offering rigidity, toughness, mechanical strength, and excellent resistance to heat, wear, and corrosion https://www.lft-g.com/blog/the-future-of-robotics-8-essential-polymers-powering-humanoid-robots_b174
Polyether ether ketone composite (#PEEK) also possesses good physicochemical properties such as #radiation β’οΈ resistance, high/low π‘οΈβοΈ #temperature resistance, and low vacuum π #outgassing https://www.sciencedirect.com/science/article/abs/pii/S1359836824008965
#PEEK in #NASA's outgassing database https://etd.gsfc.nasa.gov/capabilities/outgassing-database
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The #Optimus #humanoid #robot π€ is made of #PolyetherEtherKetone, a polymer offering rigidity, toughness, mechanical strength, and excellent resistance to heat, wear, and corrosion https://www.lft-g.com/blog/the-future-of-robotics-8-essential-polymers-powering-humanoid-robots_b174
Polyether ether ketone composite (#PEEK) also possesses good physicochemical properties such as #radiation β’οΈ resistance, high/low π‘οΈβοΈ #temperature resistance, and low vacuum π #outgassing https://www.sciencedirect.com/science/article/abs/pii/S1359836824008965
#PEEK in #NASA's outgassing database https://etd.gsfc.nasa.gov/capabilities/outgassing-database
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The #Optimus #humanoid #robot π€ is made of #PolyetherEtherKetone, a polymer offering rigidity, toughness, mechanical strength, and excellent resistance to heat, wear, and corrosion https://www.lft-g.com/blog/the-future-of-robotics-8-essential-polymers-powering-humanoid-robots_b174
Polyether ether ketone composite (#PEEK) also possesses good physicochemical properties such as #radiation β’οΈ resistance, high/low π‘οΈβοΈ #temperature resistance, and low vacuum π #outgassing https://www.sciencedirect.com/science/article/abs/pii/S1359836824008965
#PEEK in #NASA's outgassing database https://etd.gsfc.nasa.gov/capabilities/outgassing-database
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The #Optimus #humanoid #robot π€ is made of #PolyetherEtherKetone, a polymer offering rigidity, toughness, mechanical strength, and excellent resistance to heat, wear, and corrosion https://www.lft-g.com/blog/the-future-of-robotics-8-essential-polymers-powering-humanoid-robots_b174
Polyether ether ketone composite (#PEEK) also possesses good physicochemical properties such as #radiation β’οΈ resistance, high/low π‘οΈβοΈ #temperature resistance, and low vacuum π #outgassing https://www.sciencedirect.com/science/article/abs/pii/S1359836824008965
#PEEK in #NASA's outgassing database https://etd.gsfc.nasa.gov/capabilities/outgassing-database
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Breaking News -Robo: Robot to reach Ningilok β ISRO Chairman
https://vaartha.com/national/robot-to-the-moon-isro-chairman/591797/
#BreakingNews #ISRO #ISROChairman #RoboMission #RobotToNingilok #Vyommitra #GaganyaanMission #ISRORobot #SpaceRobot #IndianSpaceMission #SpaceExploration #December2025Mission #RoboLaunch #ISROUpdates -
Breaking News -Robo: Robot to reach Ningilok β ISRO Chairman
https://vaartha.com/national/robot-to-the-moon-isro-chairman/591797/
#BreakingNews #ISRO #ISROChairman #RoboMission #RobotToNingilok #Vyommitra #GaganyaanMission #ISRORobot #SpaceRobot #IndianSpaceMission #SpaceExploration #December2025Mission #RoboLaunch #ISROUpdates -
Breaking News -Robo: Robot to reach Ningilok β ISRO Chairman
https://vaartha.com/national/robot-to-the-moon-isro-chairman/591797/
#BreakingNews #ISRO #ISROChairman #RoboMission #RobotToNingilok #Vyommitra #GaganyaanMission #ISRORobot #SpaceRobot #IndianSpaceMission #SpaceExploration #December2025Mission #RoboLaunch #ISROUpdates