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DUKAS_190222383_FER
Drone launching robot
Ferrari Press Agency
Team 1
Ref 17225
21/10/2025
See Ferrari text
Picture MUST credit: Caltech
Engineers have built a system that enables a humanoid robot to carry around a drone to accomplish a multitude of tasks.
The team at the USA’s California Institute of Technology used a G1 humanoid made by China's Unitree robotics company.
They then mounted their own M4 drone which can also convert on the ground into a rolling vehicle on its back.
The M4 can fly and then rotate its rotor guards to become wheels, allowing the bot to roll along on the ground.
The robot bends from the waist to launch the drone when required.
The drone then flies to a where its needed and lands to continue its journey by rolling along.
It can become airborne again to zip over obstacles.
Researchers took three years to handle all of the logistics of merging the two robotic systems.
OPS: The droner launching robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_190222380_FER
Drone launching robot
Ferrari Press Agency
Team 1
Ref 17225
21/10/2025
See Ferrari text
Picture MUST credit: Caltech
Engineers have built a system that enables a humanoid robot to carry around a drone to accomplish a multitude of tasks.
The team at the USA’s California Institute of Technology used a G1 humanoid made by China's Unitree robotics company.
They then mounted their own M4 drone which can also convert on the ground into a rolling vehicle on its back.
The M4 can fly and then rotate its rotor guards to become wheels, allowing the bot to roll along on the ground.
The robot bends from the waist to launch the drone when required.
The drone then flies to a where its needed and lands to continue its journey by rolling along.
It can become airborne again to zip over obstacles.
Researchers took three years to handle all of the logistics of merging the two robotic systems.
OPS: The droner launching robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_190222377_FER
Drone launching robot
Ferrari Press Agency
Team 1
Ref 17225
21/10/2025
See Ferrari text
Picture MUST credit: Caltech
Engineers have built a system that enables a humanoid robot to carry around a drone to accomplish a multitude of tasks.
The team at the USA’s California Institute of Technology used a G1 humanoid made by China's Unitree robotics company.
They then mounted their own M4 drone which can also convert on the ground into a rolling vehicle on its back.
The M4 can fly and then rotate its rotor guards to become wheels, allowing the bot to roll along on the ground.
The robot bends from the waist to launch the drone when required.
The drone then flies to a where its needed and lands to continue its journey by rolling along.
It can become airborne again to zip over obstacles.
Researchers took three years to handle all of the logistics of merging the two robotic systems.
OPS: The droner launching robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_190222374_FER
Drone launching robot
Ferrari Press Agency
Team 1
Ref 17225
21/10/2025
See Ferrari text
Picture MUST credit: Caltech
Engineers have built a system that enables a humanoid robot to carry around a drone to accomplish a multitude of tasks.
The team at the USA’s California Institute of Technology used a G1 humanoid made by China's Unitree robotics company.
They then mounted their own M4 drone which can also convert on the ground into a rolling vehicle on its back.
The M4 can fly and then rotate its rotor guards to become wheels, allowing the bot to roll along on the ground.
The robot bends from the waist to launch the drone when required.
The drone then flies to a where its needed and lands to continue its journey by rolling along.
It can become airborne again to zip over obstacles.
Researchers took three years to handle all of the logistics of merging the two robotic systems.
OPS: The droner launching robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_190222372_FER
Drone launching robot
Ferrari Press Agency
Team 1
Ref 17225
21/10/2025
See Ferrari text
Picture MUST credit: Caltech
Engineers have built a system that enables a humanoid robot to carry around a drone to accomplish a multitude of tasks.
The team at the USA’s California Institute of Technology used a G1 humanoid made by China's Unitree robotics company.
They then mounted their own M4 drone which can also convert on the ground into a rolling vehicle on its back.
The M4 can fly and then rotate its rotor guards to become wheels, allowing the bot to roll along on the ground.
The robot bends from the waist to launch the drone when required.
The drone then flies to a where its needed and lands to continue its journey by rolling along.
It can become airborne again to zip over obstacles.
Researchers took three years to handle all of the logistics of merging the two robotic systems.
OPS: The droner launching robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_190222370_FER
Drone launching robot
Ferrari Press Agency
Team 1
Ref 17225
21/10/2025
See Ferrari text
Picture MUST credit: Caltech
Engineers have built a system that enables a humanoid robot to carry around a drone to accomplish a multitude of tasks.
The team at the USA’s California Institute of Technology used a G1 humanoid made by China's Unitree robotics company.
They then mounted their own M4 drone which can also convert on the ground into a rolling vehicle on its back.
The M4 can fly and then rotate its rotor guards to become wheels, allowing the bot to roll along on the ground.
The robot bends from the waist to launch the drone when required.
The drone then flies to a where its needed and lands to continue its journey by rolling along.
It can become airborne again to zip over obstacles.
Researchers took three years to handle all of the logistics of merging the two robotic systems.
OPS: The droner launching robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_190222368_FER
Drone launching robot
Ferrari Press Agency
Team 1
Ref 17225
21/10/2025
See Ferrari text
Picture MUST credit: Caltech
Engineers have built a system that enables a humanoid robot to carry around a drone to accomplish a multitude of tasks.
The team at the USA’s California Institute of Technology used a G1 humanoid made by China's Unitree robotics company.
They then mounted their own M4 drone which can also convert on the ground into a rolling vehicle on its back.
The M4 can fly and then rotate its rotor guards to become wheels, allowing the bot to roll along on the ground.
The robot bends from the waist to launch the drone when required.
The drone then flies to a where its needed and lands to continue its journey by rolling along.
It can become airborne again to zip over obstacles.
Researchers took three years to handle all of the logistics of merging the two robotic systems.
OPS: The droner launching robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_190222366_FER
Drone launching robot
Ferrari Press Agency
Team 1
Ref 17225
21/10/2025
See Ferrari text
Picture MUST credit: Caltech
Engineers have built a system that enables a humanoid robot to carry around a drone to accomplish a multitude of tasks.
The team at the USA’s California Institute of Technology used a G1 humanoid made by China's Unitree robotics company.
They then mounted their own M4 drone which can also convert on the ground into a rolling vehicle on its back.
The M4 can fly and then rotate its rotor guards to become wheels, allowing the bot to roll along on the ground.
The robot bends from the waist to launch the drone when required.
The drone then flies to a where its needed and lands to continue its journey by rolling along.
It can become airborne again to zip over obstacles.
Researchers took three years to handle all of the logistics of merging the two robotic systems.
OPS: The droner launching robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_190222365_FER
Drone launching robot
Ferrari Press Agency
Team 1
Ref 17225
21/10/2025
See Ferrari text
Picture MUST credit: Caltech
Engineers have built a system that enables a humanoid robot to carry around a drone to accomplish a multitude of tasks.
The team at the USA’s California Institute of Technology used a G1 humanoid made by China's Unitree robotics company.
They then mounted their own M4 drone which can also convert on the ground into a rolling vehicle on its back.
The M4 can fly and then rotate its rotor guards to become wheels, allowing the bot to roll along on the ground.
The robot bends from the waist to launch the drone when required.
The drone then flies to a where its needed and lands to continue its journey by rolling along.
It can become airborne again to zip over obstacles.
Researchers took three years to handle all of the logistics of merging the two robotic systems.
OPS: The droner launching robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_190222364_FER
Drone launching robot
Ferrari Press Agency
Team 1
Ref 17225
21/10/2025
See Ferrari text
Picture MUST credit: Caltech
Engineers have built a system that enables a humanoid robot to carry around a drone to accomplish a multitude of tasks.
The team at the USA’s California Institute of Technology used a G1 humanoid made by China's Unitree robotics company.
They then mounted their own M4 drone which can also convert on the ground into a rolling vehicle on its back.
The M4 can fly and then rotate its rotor guards to become wheels, allowing the bot to roll along on the ground.
The robot bends from the waist to launch the drone when required.
The drone then flies to a where its needed and lands to continue its journey by rolling along.
It can become airborne again to zip over obstacles.
Researchers took three years to handle all of the logistics of merging the two robotic systems.
OPS: The droner launching robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_190222362_FER
Drone launching robot
Ferrari Press Agency
Team 1
Ref 17225
21/10/2025
See Ferrari text
Picture MUST credit: Caltech
Engineers have built a system that enables a humanoid robot to carry around a drone to accomplish a multitude of tasks.
The team at the USA’s California Institute of Technology used a G1 humanoid made by China's Unitree robotics company.
They then mounted their own M4 drone which can also convert on the ground into a rolling vehicle on its back.
The M4 can fly and then rotate its rotor guards to become wheels, allowing the bot to roll along on the ground.
The robot bends from the waist to launch the drone when required.
The drone then flies to a where its needed and lands to continue its journey by rolling along.
It can become airborne again to zip over obstacles.
Researchers took three years to handle all of the logistics of merging the two robotic systems.
OPS: The droner launching robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_190222360_FER
Drone launching robot
Ferrari Press Agency
Team 1
Ref 17225
21/10/2025
See Ferrari text
Picture MUST credit: Caltech
Engineers have built a system that enables a humanoid robot to carry around a drone to accomplish a multitude of tasks.
The team at the USA’s California Institute of Technology used a G1 humanoid made by China's Unitree robotics company.
They then mounted their own M4 drone which can also convert on the ground into a rolling vehicle on its back.
The M4 can fly and then rotate its rotor guards to become wheels, allowing the bot to roll along on the ground.
The robot bends from the waist to launch the drone when required.
The drone then flies to a where its needed and lands to continue its journey by rolling along.
It can become airborne again to zip over obstacles.
Researchers took three years to handle all of the logistics of merging the two robotic systems.
OPS: The droner launching robot.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_80166495_REX
Hand-Held Calculator, 1967.
Mandatory Credit: Photo by Granger/REX/Shutterstock (8689747a)
Hand-Held Calculator, 1967. The First Electric Hand-Held Calculator, Known As The Cal-Tech, Invented At Texas Instruments In 1967 By Jack S. Kilby, Jerry D. Merryman, And James Van Tessel.
Hand-Held Calculator, 1967.
DUKAS/REX/SHUTTERSTOCK