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DUKAS_190351966_NUR
86th China Education Equipment Exhibition in Qingdao
Visitors interact with the Mars sand table at the 86th China Education Equipment Exhibition in Qingdao, Shandong Province, China, on October 24, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_190352028_NUR
86th China Education Equipment Exhibition in Qingdao
Visitors interact with the Mars sand table at the 86th China Education Equipment Exhibition in Qingdao, Shandong Province, China, on October 24, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_189381751_FER
Wind-blown rover for exploring Mars
Ferrari Press Agency
Mars 1
Ref 17163
28/09/2025
See Ferrari pictures
Picture MUST credit: Europlanet
A swarm of spherical robots, blown by the wind like tumbleweeds that could enable large-scale and low-cost exploration of Mars, have been developed by engineers.
The rovers are lightweight, five metre diameter machines designed to harness the power of Martian winds for mobility.
Groups could spread across the Red Planet could autonomously collect environmental data and give unprecedented atmospheric and surface information from different locations.
Recent experiments in a state-of-the-art wind tunnel and field tests in a quarry are said to have demonstrated the rovers could be set in motion and navigate over various terrains in conditions similar to those on Mars.
A final phase would involve collapsing the rovers into permanent measurement stations dotted around the surface providing long-term scientific measurements and potential infrastructure for future missions.
The robots have been developed by researchers known as Team Tumbleweed, an interdisciplinary group of young scientists from over 20 countries.
OPS: The tumbleweed scale model rover itsting at at quarry in Maastrict, Netherlands.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_189381750_FER
Wind-blown rover for exploring Mars
Ferrari Press Agency
Mars 1
Ref 17163
28/09/2025
See Ferrari pictures
Picture MUST credit: Europlanet
A swarm of spherical robots, blown by the wind like tumbleweeds that could enable large-scale and low-cost exploration of Mars, have been developed by engineers.
The rovers are lightweight, five metre diameter machines designed to harness the power of Martian winds for mobility.
Groups could spread across the Red Planet could autonomously collect environmental data and give unprecedented atmospheric and surface information from different locations.
Recent experiments in a state-of-the-art wind tunnel and field tests in a quarry are said to have demonstrated the rovers could be set in motion and navigate over various terrains in conditions similar to those on Mars.
A final phase would involve collapsing the rovers into permanent measurement stations dotted around the surface providing long-term scientific measurements and potential infrastructure for future missions.
The robots have been developed by researchers known as Team Tumbleweed, an interdisciplinary group of young scientists from over 20 countries.
OPS: The tumbleweed scale model rover itsting at at quarry in Maastrict, Netherlands.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_189381749_FER
Wind-blown rover for exploring Mars
Ferrari Press Agency
Mars 1
Ref 17163
28/09/2025
See Ferrari pictures
Picture MUST credit: Team Tumbleweed
A swarm of spherical robots, blown by the wind like tumbleweeds that could enable large-scale and low-cost exploration of Mars, have been developed by engineers.
The rovers are lightweight, five metre diameter machines designed to harness the power of Martian winds for mobility.
Groups could spread across the Red Planet could autonomously collect environmental data and give unprecedented atmospheric and surface information from different locations.
Recent experiments in a state-of-the-art wind tunnel and field tests in a quarry are said to have demonstrated the rovers could be set in motion and navigate over various terrains in conditions similar to those on Mars.
A final phase would involve collapsing the rovers into permanent measurement stations dotted around the surface providing long-term scientific measurements and potential infrastructure for future missions.
The robots have been developed by researchers known as Team Tumbleweed, an interdisciplinary group of young scientists from over 20 countries.
OPS: The tumbleweed rover in windtunnel testing at Aarhusarhus University in the Netherlands.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_189381748_FER
Wind-blown rover for exploring Mars
Ferrari Press Agency
Mars 1
Ref 17163
28/09/2025
See Ferrari pictures
Picture MUST credit: Team Tumbleweed
A swarm of spherical robots, blown by the wind like tumbleweeds that could enable large-scale and low-cost exploration of Mars, have been developed by engineers.
The rovers are lightweight, five metre diameter machines designed to harness the power of Martian winds for mobility.
Groups could spread across the Red Planet could autonomously collect environmental data and give unprecedented atmospheric and surface information from different locations.
Recent experiments in a state-of-the-art wind tunnel and field tests in a quarry are said to have demonstrated the rovers could be set in motion and navigate over various terrains in conditions similar to those on Mars.
A final phase would involve collapsing the rovers into permanent measurement stations dotted around the surface providing long-term scientific measurements and potential infrastructure for future missions.
The robots have been developed by researchers known as Team Tumbleweed, an interdisciplinary group of young scientists from over 20 countries.
OPS: The tumbleweed rover in windtunnel testing at Aarhusarhus University in the Netherlands.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_189381747_FER
Wind-blown rover for exploring Mars
Ferrari Press Agency
Mars 1
Ref 17163
28/09/2025
See Ferrari pictures
Picture MUST credit: Team Tumbleweed
A swarm of spherical robots, blown by the wind like tumbleweeds that could enable large-scale and low-cost exploration of Mars, have been developed by engineers.
The rovers are lightweight, five metre diameter machines designed to harness the power of Martian winds for mobility.
Groups could spread across the Red Planet could autonomously collect environmental data and give unprecedented atmospheric and surface information from different locations.
Recent experiments in a state-of-the-art wind tunnel and field tests in a quarry are said to have demonstrated the rovers could be set in motion and navigate over various terrains in conditions similar to those on Mars.
A final phase would involve collapsing the rovers into permanent measurement stations dotted around the surface providing long-term scientific measurements and potential infrastructure for future missions.
The robots have been developed by researchers known as Team Tumbleweed, an interdisciplinary group of young scientists from over 20 countries.
OPS: The tumbleweed rover in windtunnel testing at Aarhusarhus University in the Netherlands.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_189381746_FER
Wind-blown rover for exploring Mars
Ferrari Press Agency
Mars 1
Ref 17163
28/09/2025
See Ferrari pictures
Picture MUST credit: Team Tumbleweed
A swarm of spherical robots, blown by the wind like tumbleweeds that could enable large-scale and low-cost exploration of Mars, have been developed by engineers.
The rovers are lightweight, five metre diameter machines designed to harness the power of Martian winds for mobility.
Groups could spread across the Red Planet could autonomously collect environmental data and give unprecedented atmospheric and surface information from different locations.
Recent experiments in a state-of-the-art wind tunnel and field tests in a quarry are said to have demonstrated the rovers could be set in motion and navigate over various terrains in conditions similar to those on Mars.
A final phase would involve collapsing the rovers into permanent measurement stations dotted around the surface providing long-term scientific measurements and potential infrastructure for future missions.
The robots have been developed by researchers known as Team Tumbleweed, an interdisciplinary group of young scientists from over 20 countries.
OPS: Team Tumbleweed members with scaled tumbleweed prototype rovers
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_188675849_FER
NASA taking new names into space
Ferrari Press Agency
Names 1
Ref 17139
09/09/2025
See Ferrari text
Picture MUST credit: NASA
US space agency NASA is aiming to send a host of new names into space for the first time — by going to the Moon and back.
It is inviting the public to join the agency’s test flight when four astronauts venture around the Moon for its Artemis II flight scheduled for early 2026.
The flight is to test systems and hardware needed for deep space exploration.
NASA wants people to send in their names to be put on an SD card loaded aboard the Orion spacecraft for the journey.
In return, participants can download a boarding pass with their name on it as a collectable.
The “Send Your Name with Artemis II” effort allows anyone to claim their spot by signing up before January 21 next year.
The names will accompany NASA astronauts Reid Wiseman, Victor Glover, Christina Koch, and Canadian Space Agency astronaut Jeremy Hansen.
NASA acting associate administrator Lori Glaze said: “Artemis II is a key test flight in our effort to return humans to the Moon’s surface and build toward future missions to Mars.
“It’s also an opportunity to inspire people across the globe and to give them an opportunity to follow along as we lead the way in human exploration deeper into space.”
The scheduled 10-day Artemis II test flight is expected to launch no later than April 2026.
It is the first crewed flight under NASA’s Artemis campaign toi land humans on the Moon .
It will also help the agency prepare to send the first astronauts to Mars.
Anyone who wants their name on the trip can get an English-language boarding pass at go.nasa.gov/artemisnames and a Spanish language version at go.nasa.gov/TuNombreArtemis.
OPS:Anyone who signs up will be able to download a souvenir boarding card.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_188430326_FER
Rock climbing robot for Moon and Mars exploration
Ferrari Press Agency
Loris 1
Ref 17115
02/09/2025
See Ferrari text
Picture MUST credit: IEEE Spectrum
A robot able to climb sheer rock faces using feet equipped with tiny hooks is being developed to one day help explore the Moon and Mars.
The four legged device called Loris sits flat against the surface it has to navigate.
The legs move one at a time with the hooks , inspired by cockroaches, able to latch onto tiny bumps and crevices as it makes its way up.
The Loris is the work of researcher Paul Nadan, a PhD student in the robot mechanics lab at the USA’s Carnegie Mellon University.
He said: “The goal of our lab is to help get robots out into the real world, not just kind of controlled lab environments.
“The biggest challenge for getting robots in the real world is handling contact.
“There's a lot of different adhesion mechanisms like magnetic or suction.
“The one used by my robot is micro spines which are basically lots of sharp little hooks, but catching all kinds of small microscopic bumps and pits in the rock surface.”
The feet each have two sets of spines at a 90 degree angle and this helps them support forces that are going at different angles.
The name Loris stands for “lightweight observation robot for irregular slopes.”
OPS: The Loris wall and rock climbing robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_188430324_FER
Rock climbing robot for Moon and Mars exploration
Ferrari Press Agency
Loris 1
Ref 17115
02/09/2025
See Ferrari text
Picture MUST credit: IEEE Spectrum
A robot able to climb sheer rock faces using feet equipped with tiny hooks is being developed to one day help explore the Moon and Mars.
The four legged device called Loris sits flat against the surface it has to navigate.
The legs move one at a time with the hooks , inspired by cockroaches, able to latch onto tiny bumps and crevices as it makes its way up.
The Loris is the work of researcher Paul Nadan, a PhD student in the robot mechanics lab at the USA’s Carnegie Mellon University.
He said: “The goal of our lab is to help get robots out into the real world, not just kind of controlled lab environments.
“The biggest challenge for getting robots in the real world is handling contact.
“There's a lot of different adhesion mechanisms like magnetic or suction.
“The one used by my robot is micro spines which are basically lots of sharp little hooks, but catching all kinds of small microscopic bumps and pits in the rock surface.”
The feet each have two sets of spines at a 90 degree angle and this helps them support forces that are going at different angles.
The name Loris stands for “lightweight observation robot for irregular slopes.”
OPS: The Loris wall and rock climbing robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_188430322_FER
Rock climbing robot for Moon and Mars exploration
Ferrari Press Agency
Loris 1
Ref 17115
02/09/2025
See Ferrari text
Picture MUST credit: IEEE Spectrum
A robot able to climb sheer rock faces using feet equipped with tiny hooks is being developed to one day help explore the Moon and Mars.
The four legged device called Loris sits flat against the surface it has to navigate.
The legs move one at a time with the hooks , inspired by cockroaches, able to latch onto tiny bumps and crevices as it makes its way up.
The Loris is the work of researcher Paul Nadan, a PhD student in the robot mechanics lab at the USA’s Carnegie Mellon University.
He said: “The goal of our lab is to help get robots out into the real world, not just kind of controlled lab environments.
“The biggest challenge for getting robots in the real world is handling contact.
“There's a lot of different adhesion mechanisms like magnetic or suction.
“The one used by my robot is micro spines which are basically lots of sharp little hooks, but catching all kinds of small microscopic bumps and pits in the rock surface.”
The feet each have two sets of spines at a 90 degree angle and this helps them support forces that are going at different angles.
The name Loris stands for “lightweight observation robot for irregular slopes.”
OPS: The Loris wall and rock climbing robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_188430320_FER
Rock climbing robot for Moon and Mars exploration
Ferrari Press Agency
Loris 1
Ref 17115
02/09/2025
See Ferrari text
Picture MUST credit: IEEE Spectrum
A robot able to climb sheer rock faces using feet equipped with tiny hooks is being developed to one day help explore the Moon and Mars.
The four legged device called Loris sits flat against the surface it has to navigate.
The legs move one at a time with the hooks , inspired by cockroaches, able to latch onto tiny bumps and crevices as it makes its way up.
The Loris is the work of researcher Paul Nadan, a PhD student in the robot mechanics lab at the USA’s Carnegie Mellon University.
He said: “The goal of our lab is to help get robots out into the real world, not just kind of controlled lab environments.
“The biggest challenge for getting robots in the real world is handling contact.
“There's a lot of different adhesion mechanisms like magnetic or suction.
“The one used by my robot is micro spines which are basically lots of sharp little hooks, but catching all kinds of small microscopic bumps and pits in the rock surface.”
The feet each have two sets of spines at a 90 degree angle and this helps them support forces that are going at different angles.
The name Loris stands for “lightweight observation robot for irregular slopes.”
OPS: The Loris wall and rock climbing robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_188430318_FER
Rock climbing robot for Moon and Mars exploration
Ferrari Press Agency
Loris 1
Ref 17115
02/09/2025
See Ferrari text
Picture MUST credit: IEEE Spectrum
A robot able to climb sheer rock faces using feet equipped with tiny hooks is being developed to one day help explore the Moon and Mars.
The four legged device called Loris sits flat against the surface it has to navigate.
The legs move one at a time with the hooks , inspired by cockroaches, able to latch onto tiny bumps and crevices as it makes its way up.
The Loris is the work of researcher Paul Nadan, a PhD student in the robot mechanics lab at the USA’s Carnegie Mellon University.
He said: “The goal of our lab is to help get robots out into the real world, not just kind of controlled lab environments.
“The biggest challenge for getting robots in the real world is handling contact.
“There's a lot of different adhesion mechanisms like magnetic or suction.
“The one used by my robot is micro spines which are basically lots of sharp little hooks, but catching all kinds of small microscopic bumps and pits in the rock surface.”
The feet each have two sets of spines at a 90 degree angle and this helps them support forces that are going at different angles.
The name Loris stands for “lightweight observation robot for irregular slopes.”
OPS: The Loris wall and rock climbing robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_188430315_FER
Rock climbing robot for Moon and Mars exploration
Ferrari Press Agency
Loris 1
Ref 17115
02/09/2025
See Ferrari text
Picture MUST credit: IEEE Spectrum
A robot able to climb sheer rock faces using feet equipped with tiny hooks is being developed to one day help explore the Moon and Mars.
The four legged device called Loris sits flat against the surface it has to navigate.
The legs move one at a time with the hooks , inspired by cockroaches, able to latch onto tiny bumps and crevices as it makes its way up.
The Loris is the work of researcher Paul Nadan, a PhD student in the robot mechanics lab at the USA’s Carnegie Mellon University.
He said: “The goal of our lab is to help get robots out into the real world, not just kind of controlled lab environments.
“The biggest challenge for getting robots in the real world is handling contact.
“There's a lot of different adhesion mechanisms like magnetic or suction.
“The one used by my robot is micro spines which are basically lots of sharp little hooks, but catching all kinds of small microscopic bumps and pits in the rock surface.”
The feet each have two sets of spines at a 90 degree angle and this helps them support forces that are going at different angles.
The name Loris stands for “lightweight observation robot for irregular slopes.”
OPS: The Loris wall and rock climbing robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_188430312_FER
Rock climbing robot for Moon and Mars exploration
Ferrari Press Agency
Loris 1
Ref 17115
02/09/2025
See Ferrari text
Picture MUST credit: IEEE Spectrum
A robot able to climb sheer rock faces using feet equipped with tiny hooks is being developed to one day help explore the Moon and Mars.
The four legged device called Loris sits flat against the surface it has to navigate.
The legs move one at a time with the hooks , inspired by cockroaches, able to latch onto tiny bumps and crevices as it makes its way up.
The Loris is the work of researcher Paul Nadan, a PhD student in the robot mechanics lab at the USA’s Carnegie Mellon University.
He said: “The goal of our lab is to help get robots out into the real world, not just kind of controlled lab environments.
“The biggest challenge for getting robots in the real world is handling contact.
“There's a lot of different adhesion mechanisms like magnetic or suction.
“The one used by my robot is micro spines which are basically lots of sharp little hooks, but catching all kinds of small microscopic bumps and pits in the rock surface.”
The feet each have two sets of spines at a 90 degree angle and this helps them support forces that are going at different angles.
The name Loris stands for “lightweight observation robot for irregular slopes.”
OPS: The Loris wall and rock climbing robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_188430309_FER
Rock climbing robot for Moon and Mars exploration
Ferrari Press Agency
Loris 1
Ref 17115
02/09/2025
See Ferrari text
Picture MUST credit: IEEE Spectrum
A robot able to climb sheer rock faces using feet equipped with tiny hooks is being developed to one day help explore the Moon and Mars.
The four legged device called Loris sits flat against the surface it has to navigate.
The legs move one at a time with the hooks , inspired by cockroaches, able to latch onto tiny bumps and crevices as it makes its way up.
The Loris is the work of researcher Paul Nadan, a PhD student in the robot mechanics lab at the USA’s Carnegie Mellon University.
He said: “The goal of our lab is to help get robots out into the real world, not just kind of controlled lab environments.
“The biggest challenge for getting robots in the real world is handling contact.
“There's a lot of different adhesion mechanisms like magnetic or suction.
“The one used by my robot is micro spines which are basically lots of sharp little hooks, but catching all kinds of small microscopic bumps and pits in the rock surface.”
The feet each have two sets of spines at a 90 degree angle and this helps them support forces that are going at different angles.
The name Loris stands for “lightweight observation robot for irregular slopes.”
OPS: Researcher Paul Nadan with the Loris wall climbing robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_188248930_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The G.O.R.M. rover, operated by the AAU nSpace Robotics team from Aalborg University, carries out tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248917_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The Nakshatra rover, operated by the Mars Rover Manipal Team from Manipal Institute of Technology, India, passes in front of the Orion V rover, operated by the Orion Team from Lublin University of Technology, Poland, during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248914_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The Wambo rover, operated by a team of students from the FHNW Rover Team of the University of Applied Sciences and Arts Northwestern Switzerland, performs tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248855_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The Wambo rover, operated by a team of students from the FHNW Rover Team of the University of Applied Sciences and Arts Northwestern Switzerland, performs tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248853_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
Members of the FHNW Rover Team from the University of Applied Sciences and Arts Northwestern Switzerland carry their Wambo rover after completing tasks during the European Rover Challenge at AGH University in Kraków, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188249039_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The BrnoMarsRover, operated by a team of students from Brno University of Technology, carries out tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188249037_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The logo of ERC - European Rover Challenge is displayed in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188249030_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The Husarion ROSbot 2R autonomous mobile robot showcased in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
This open-source platform, designed for research and education, integrates advanced sensors such as LIDAR, RGBD cameras, and IMUs, facilitating autonomous navigation and robotic applications. It serves as a valuable tool for developing and testing robotics systems in Mars-like environments. (Photo by Artur Widak/NurPhoto) -
DUKAS_188249028_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The Avyaan rover, operated by the DJS Antariksh team from Dwarkadas Jivanlal Sanghvi College of Engineering, performs tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188249026_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
Details of the Fortuna rover, operated by the DIANA team from the Polytechnic University of Turin, performs tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188249017_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
A kid prepares a small rocket for launch in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Kraków, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188249015_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The CC-8 rover, operated by a team of students from the Sapienza Technology Team in Rome, carries out tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188249013_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
Miniature robotic models are on display in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188249010_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The Gaia II rover, operated by a team of students from the UPC Space Program of the Polytechnic University of Catalonia, carries out tasks during the European Rover Challenge at AGH University in Kraków, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188249007_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The logo of AGH University is displayed in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188249005_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
Miniature versions of various robots made from Lego are on display in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248990_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
A robot demonstrates its program to visitors in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248987_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The Asterope rover, operated by a team of students from Star Dresden e.V. at Dresden University of Technology, carries out tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248985_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
Miniature Lego replicas of the NASA 905 aircraft and the NASA Enterprise spacecraft are displayed in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248983_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
A team member checks his laptop while controlling a rover during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248980_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
Members of the Bears team from the Technical University of Berlin perform final checks on their Morpheus rover during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
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Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
Details of the Fortuna rover, operated by the DIANA team from the Polytechnic University of Turin, performs tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248975_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
Members of Star Dresden e.V. from TU Dresden prepare their robot Asterope to perform tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248973_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The Avyaan rover, operated by the DJS Antariksh team from Dwarkadas Jivanlal Sanghvi College of Engineering, performs tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
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Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
Products created by the Bambu Lab A1 Mini 3D printer are on display in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
Named after the Latin word for 'fire,' Ignis symbolizes energy, creativity, and passion and represents Poland's first technological and scientific mission to the International Space Station, marking a major milestone in the nation’s space exploration efforts. (Photo by Artur Widak/NurPhoto) -
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Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
Miniature Marioinex robot replicas are displayed in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248954_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The logo of Mars Society Poland is displayed in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248951_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The Asterope rover, operated by a team of students from Star Dresden e.V. at Dresden University of Technology, carries out tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248948_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The CC-8 rover, operated by a team of students from the Sapienza Technology Team in Rome, carries out tasks during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248933_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
Members of the DIANA team from from the Polytechnic University of Turin perform final checks on their Fortuna rover during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248866_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
The Bambu Lab A1 Mini 3D printer is on display in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Krakow, Poland, on August 29, 2025.
Named after the Latin word for 'fire,' Ignis symbolizes energy, creativity, and passion and represents Poland's first technological and scientific mission to the International Space Station, marking a major milestone in the nation’s space exploration efforts. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248862_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
A kid prepares a small rocket for launch in the Scientific Exhibitors Zone during the European Rover Challenge at AGH University in Kraków, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
DUKAS_188248857_NUR
Students From Around The World Compete In Mars Rover Challenge
KRAKOW, POLAND – AUGUST 29:
A member of the KNR Rover Team from Warsaw University of Technology prepares their robot HAL-062 to complete tasks during the European Rover Challenge at AGH University in Kraków, Poland, on August 29, 2025.
The competition's finals feature 27 student teams from 12 countries, all vying for the top spot in Europe's premier Mars rover challenge. (Photo by Artur Widak/NurPhoto) -
