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DUKAS_192356905_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356904_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356903_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot shell can be sopped for personalised 3D printed versions .
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356902_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot shell can be sopped for personalised 3D printed versions .
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356901_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot shell can be sopped for personalised 3D printed versions .
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356900_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356899_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356897_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot riding a robot dog
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356895_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot riding a robot dog
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356893_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356892_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356891_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot as a language educator
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356890_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot as a language educator
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356889_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356888_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356887_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356886_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot folded up in a backpack
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356885_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot folded up in a backpack
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356884_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot folded up in ready for a backpack
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356883_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_192356882_FER
AI humanoid robot fits in backpack
Ferrari Press Agency
Backpack 1
Ref 17436
01/01/2026
See Ferrari text
Pictures MUST credit: Agibot
A humanoid AI-powered personal companion robot that fits into a backpack has been unveiled.
The Q1 b y Chinese startup Agibot is just 80 cm and roughly one-eighth the weight of full-size humanoids.
It walks, talks, can do backflips and stand on its hands.
The compact design makes it more affordable, bridging the gap between lab prototypes and personal devices.
Agibot says the Q1 is designed as an open platform to bring personal robotics into everyday life as well as a research tool for robot developers.
The robot’s reduced size is said to make it crash-resistant, safer for experimentation, and more cost-effective to iterate.
It has direct drive limb joints smaller than an egg claimed to offer a fast dynamic response, enabling developers to test algorithms physically, shortening development cycles from months to days.
The open-source exterior shell can be 3D printed into a range of styles such as an armoured or a superhero for example.
OPS: The Agibot Q1 robot
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191696238_NUR
Questions To The French Government At The National Assembly In Paris
Anne Le Henanff, Minister Delegate to the Minister of Economy, Finance, and Industrial, Energy, and Digital Sovereignty, responsible for artificial intelligence and digital technology, speaks during the questions to the French government session at the National Assembly in Paris, France, on December 3, 2025. (Photo by Telmo Pinto/NurPhoto) -
DUKAS_191634559_NUR
Daily Life On Burano Island - Venice Lagoon
A man stands against a brightly colored wall using his smartphone on a street in Burano, Venice Province, Veneto, Italy, on November 18, 2025. (Photo by Michael Nguyen/NurPhoto) -
DUKAS_191628188_NUR
Everyday Life In The Tuscan City Of Florence
A street musician plays an electric guitar for an audience, one of whom films him with a smartphone, on a stone pavement in Florence, Tuscany, Italy, on November 21, 2025. The scene captures the blend of daily life in Florence, public music performance, and modern technology used by both the performer and the audience. (Photo by Michael Nguyen/NurPhoto) -
DUKAS_191619864_NUR
Daily Life In Florence
Two young women sit on a stone wall using their smartphones against the background of historic architecture in Florence, Tuscany, Italy, on November 21, 2025. The scene illustrates the intersection of modern technology and historic tourism, often seen among travelers from Generation Z. (Photo by Michael Nguyen/NurPhoto) -
DUKAS_191591831_NUR
Daily Life In Arezzo
A young man looks at his smartphone while standing indoors in Arezzo, Tuscany, Italy, on November 20, 2025. (Photo by Michael Nguyen/NurPhoto) -
DUKAS_191591172_NUR
Commuters Use Smartphones While Waiting On Subway Platform
Commuters use their smartphones while waiting on the U-Bahn platform at Station Poccistrasse in Munich, Bavaria, Germany, on November 30, 2025. The scene illustrates the ubiquitous use of personal technology and digital connectivity among passengers utilizing public local transport. (Photo by Michael Nguyen/NurPhoto) -
DUKAS_191591171_NUR
Commuters Use Smartphones While Waiting On Subway Platform
Commuters use their smartphones while waiting on the U-Bahn platform at Station Poccistrasse in Munich, Bavaria, Germany, on November 30, 2025. The scene illustrates the ubiquitous use of personal technology and digital connectivity among passengers utilizing public local transport. (Photo by Michael Nguyen/NurPhoto) -
DUKAS_191591020_NUR
Commuter Holds Smartphone Next To S-Bahn Train At Marienplatz In Munich
A commuter holds a smartphone while waiting next to a stopped S-Bahn train at Marienplatz Station in Munich, Bavaria, Germany, on November 30, 2025. Reflections of passengers are visible in the train windows. (Photo by Michael Nguyen/NurPhoto) -
DUKAS_191591014_NUR
Commuter Holds Smartphone Next To S-Bahn Train At Marienplatz In Munich
A commuter holds a smartphone while waiting next to a stopped S-Bahn train at Marienplatz Station in Munich, Bavaria, Germany, on November 30, 2025. Reflections of passengers are visible in the train windows. (Photo by Michael Nguyen/NurPhoto) -
DUKAS_191590387_FER
AI training for student medics
Ferrari Press Agency
AI Surgery 1
Ref 17354
01/12/2025
See Ferrari text
Pictures MUST credit: Johns Hopkins University
Artificial intelligence could help coach medical students as they practice surgical techniques — even at home.
A new tool, trained on videos of expert surgeons at work, offers students real-time personalised advice as they practice suturing.
Initial trials suggest AI can be a powerful substitute teacher for more experienced students.
Currently many medical students watch videos of experts performing surgery and try to imitate what they see.
There are existing AI models that can rate students, but they don’t tell students what they’re doing right or wrong.
The new technology has been pioneered by a team at the USA’s Johns Hopkins University.
The team’s AI model can rate how well a student closes a wound and also tell them precisely how to improve.
The AI was trained by tracking hand movements of expert surgeons as they closed incisions.
When students try the same task, the AI texts them immediately to tell them how they compared to an expert and how to refine their technique.
OPS:A student practices their suturing technique. It is monitored by AI which offers help on technique.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191590382_FER
AI training for student medics
Ferrari Press Agency
AI Surgery 1
Ref 17354
01/12/2025
See Ferrari text
Pictures MUST credit: Johns Hopkins University
Artificial intelligence could help coach medical students as they practice surgical techniques — even at home.
A new tool, trained on videos of expert surgeons at work, offers students real-time personalised advice as they practice suturing.
Initial trials suggest AI can be a powerful substitute teacher for more experienced students.
Currently many medical students watch videos of experts performing surgery and try to imitate what they see.
There are existing AI models that can rate students, but they don’t tell students what they’re doing right or wrong.
The new technology has been pioneered by a team at the USA’s Johns Hopkins University.
The team’s AI model can rate how well a student closes a wound and also tell them precisely how to improve.
The AI was trained by tracking hand movements of expert surgeons as they closed incisions.
When students try the same task, the AI texts them immediately to tell them how they compared to an expert and how to refine their technique.
OPS:The team trained their model by tracking the hand movements of expert surgeons, shown here, as they closed incisions.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191590377_FER
AI training for student medics
Ferrari Press Agency
AI Surgery 1
Ref 17354
01/12/2025
See Ferrari text
Pictures MUST credit: Johns Hopkins University
Artificial intelligence could help coach medical students as they practice surgical techniques — even at home.
A new tool, trained on videos of expert surgeons at work, offers students real-time personalised advice as they practice suturing.
Initial trials suggest AI can be a powerful substitute teacher for more experienced students.
Currently many medical students watch videos of experts performing surgery and try to imitate what they see.
There are existing AI models that can rate students, but they don’t tell students what they’re doing right or wrong.
The new technology has been pioneered by a team at the USA’s Johns Hopkins University.
The team’s AI model can rate how well a student closes a wound and also tell them precisely how to improve.
The AI was trained by tracking hand movements of expert surgeons as they closed incisions.
When students try the same task, the AI texts them immediately to tell them how they compared to an expert and how to refine their technique.
OPS:A student practices their suturing technique. It is monitored by AI which offers help on technique.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191590372_FER
AI training for student medics
Ferrari Press Agency
AI Surgery 1
Ref 17354
01/12/2025
See Ferrari text
Pictures MUST credit: Johns Hopkins University
Artificial intelligence could help coach medical students as they practice surgical techniques — even at home.
A new tool, trained on videos of expert surgeons at work, offers students real-time personalised advice as they practice suturing.
Initial trials suggest AI can be a powerful substitute teacher for more experienced students.
Currently many medical students watch videos of experts performing surgery and try to imitate what they see.
There are existing AI models that can rate students, but they don’t tell students what they’re doing right or wrong.
The new technology has been pioneered by a team at the USA’s Johns Hopkins University.
The team’s AI model can rate how well a student closes a wound and also tell them precisely how to improve.
The AI was trained by tracking hand movements of expert surgeons as they closed incisions.
When students try the same task, the AI texts them immediately to tell them how they compared to an expert and how to refine their technique.
OPS:The team trained their model by tracking the hand movements of expert surgeons, shown here, as they closed incisions.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191590367_FER
AI training for student medics
Ferrari Press Agency
AI Surgery 1
Ref 17354
01/12/2025
See Ferrari text
Pictures MUST credit: Johns Hopkins University
Artificial intelligence could help coach medical students as they practice surgical techniques — even at home.
A new tool, trained on videos of expert surgeons at work, offers students real-time personalised advice as they practice suturing.
Initial trials suggest AI can be a powerful substitute teacher for more experienced students.
Currently many medical students watch videos of experts performing surgery and try to imitate what they see.
There are existing AI models that can rate students, but they don’t tell students what they’re doing right or wrong.
The new technology has been pioneered by a team at the USA’s Johns Hopkins University.
The team’s AI model can rate how well a student closes a wound and also tell them precisely how to improve.
The AI was trained by tracking hand movements of expert surgeons as they closed incisions.
When students try the same task, the AI texts them immediately to tell them how they compared to an expert and how to refine their technique.
OPS: The AI comments on the student's technique (left) compared to the surgeon on the right
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191590362_FER
AI training for student medics
Ferrari Press Agency
AI Surgery 1
Ref 17354
01/12/2025
See Ferrari text
Pictures MUST credit: Johns Hopkins University
Artificial intelligence could help coach medical students as they practice surgical techniques — even at home.
A new tool, trained on videos of expert surgeons at work, offers students real-time personalised advice as they practice suturing.
Initial trials suggest AI can be a powerful substitute teacher for more experienced students.
Currently many medical students watch videos of experts performing surgery and try to imitate what they see.
There are existing AI models that can rate students, but they don’t tell students what they’re doing right or wrong.
The new technology has been pioneered by a team at the USA’s Johns Hopkins University.
The team’s AI model can rate how well a student closes a wound and also tell them precisely how to improve.
The AI was trained by tracking hand movements of expert surgeons as they closed incisions.
When students try the same task, the AI texts them immediately to tell them how they compared to an expert and how to refine their technique.
OPS: The AI comments on the student's technique (left) compared to the surgeon on the right
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191590357_FER
AI training for student medics
Ferrari Press Agency
AI Surgery 1
Ref 17354
01/12/2025
See Ferrari text
Pictures MUST credit: Johns Hopkins University
Artificial intelligence could help coach medical students as they practice surgical techniques — even at home.
A new tool, trained on videos of expert surgeons at work, offers students real-time personalised advice as they practice suturing.
Initial trials suggest AI can be a powerful substitute teacher for more experienced students.
Currently many medical students watch videos of experts performing surgery and try to imitate what they see.
There are existing AI models that can rate students, but they don’t tell students what they’re doing right or wrong.
The new technology has been pioneered by a team at the USA’s Johns Hopkins University.
The team’s AI model can rate how well a student closes a wound and also tell them precisely how to improve.
The AI was trained by tracking hand movements of expert surgeons as they closed incisions.
When students try the same task, the AI texts them immediately to tell them how they compared to an expert and how to refine their technique.
OPS: The AI comments on the student's technique (left) compared to the surgeon on the right
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191590352_FER
AI training for student medics
Ferrari Press Agency
AI Surgery 1
Ref 17354
01/12/2025
See Ferrari text
Pictures MUST credit: Johns Hopkins University
Artificial intelligence could help coach medical students as they practice surgical techniques — even at home.
A new tool, trained on videos of expert surgeons at work, offers students real-time personalised advice as they practice suturing.
Initial trials suggest AI can be a powerful substitute teacher for more experienced students.
Currently many medical students watch videos of experts performing surgery and try to imitate what they see.
There are existing AI models that can rate students, but they don’t tell students what they’re doing right or wrong.
The new technology has been pioneered by a team at the USA’s Johns Hopkins University.
The team’s AI model can rate how well a student closes a wound and also tell them precisely how to improve.
The AI was trained by tracking hand movements of expert surgeons as they closed incisions.
When students try the same task, the AI texts them immediately to tell them how they compared to an expert and how to refine their technique.
OPS:The team trained their model by tracking the hand movements of expert surgeons, shown here, as they closed incisions.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191590346_FER
AI training for student medics
Ferrari Press Agency
AI Surgery 1
Ref 17354
01/12/2025
See Ferrari text
Pictures MUST credit: Johns Hopkins University
Artificial intelligence could help coach medical students as they practice surgical techniques — even at home.
A new tool, trained on videos of expert surgeons at work, offers students real-time personalised advice as they practice suturing.
Initial trials suggest AI can be a powerful substitute teacher for more experienced students.
Currently many medical students watch videos of experts performing surgery and try to imitate what they see.
There are existing AI models that can rate students, but they don’t tell students what they’re doing right or wrong.
The new technology has been pioneered by a team at the USA’s Johns Hopkins University.
The team’s AI model can rate how well a student closes a wound and also tell them precisely how to improve.
The AI was trained by tracking hand movements of expert surgeons as they closed incisions.
When students try the same task, the AI texts them immediately to tell them how they compared to an expert and how to refine their technique.
OPS:The team trained their model by tracking the hand movements of expert surgeons, shown here, as they closed incisions.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191590340_FER
AI training for student medics
Ferrari Press Agency
AI Surgery 1
Ref 17354
01/12/2025
See Ferrari text
Pictures MUST credit: Johns Hopkins University
Artificial intelligence could help coach medical students as they practice surgical techniques — even at home.
A new tool, trained on videos of expert surgeons at work, offers students real-time personalised advice as they practice suturing.
Initial trials suggest AI can be a powerful substitute teacher for more experienced students.
Currently many medical students watch videos of experts performing surgery and try to imitate what they see.
There are existing AI models that can rate students, but they don’t tell students what they’re doing right or wrong.
The new technology has been pioneered by a team at the USA’s Johns Hopkins University.
The team’s AI model can rate how well a student closes a wound and also tell them precisely how to improve.
The AI was trained by tracking hand movements of expert surgeons as they closed incisions.
When students try the same task, the AI texts them immediately to tell them how they compared to an expert and how to refine their technique.
OPS:The team trained their model by tracking the hand movements of expert surgeons, shown here, as they closed incisions.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191489593_NUR
2025 WIMC Held in Nanjing
A child visits a Lego robot at the 2025 World Intelligent Manufacturing Conference in Nanjing, Jiangsu Province, China, on November 28, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191489586_NUR
2025 WIMC Held in Nanjing
A patrol robot is on display at the 2025 World Intelligent Manufacturing Conference at Nanjing International Expo Center in Jiangsu Province, China, on November 28, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191476682_NUR
Photo Illustration Of The Character AI Chatbot
In this photo illustration, the Character AI chatbot logo is displayed on a cell phone with another company logo in the background in Creteil, France, on November 27, 2025. (Photo Illustration by Samuel Boivin/NurPhoto) -
DUKAS_191476679_NUR
Photo Illustration Of The Character AI Chatbot
In this photographic illustration, the Character AI chatbot logo displays on a cell phone placed on a laptop keyboard reflecting red light, in Creteil, France, on November 27, 2025. (Photo Illustration by Samuel Boivin/NurPhoto) -
DUKAS_191476676_NUR
Photo Illustration Of The Character AI Chatbot
In this photographic illustration, the Character AI chatbot logo displays on a cell phone placed on a laptop keyboard reflecting blue light, in Creteil, France, on November 27, 2025. (Photo Illustration by Samuel Boivin/NurPhoto) -
DUKAS_191476672_NUR
Photo Illustration Of The Character AI Chatbot
In this photo illustration, the Character AI chatbot logo is displayed on a cell phone with another company logo in the background in Creteil, France, on November 27, 2025. (Photo Illustration by Samuel Boivin/NurPhoto) -
DUKAS_191476668_NUR
Photo Illustration Of The Character AI Chatbot
In this photographic illustration, the Character AI chatbot logo displays on a cell phone placed on a laptop keyboard reflecting red light, in Creteil, France, on November 27, 2025. (Photo Illustration by Samuel Boivin/NurPhoto) -
DUKAS_191476663_NUR
Photo Illustration Of The Character AI Chatbot
In this photographic illustration, the Character AI chatbot logo displays on a cell phone placed on a laptop keyboard reflecting red light, in Creteil, France, on November 27, 2025. (Photo Illustration by Samuel Boivin/NurPhoto) -
DUKAS_191476659_NUR
Photo Illustration Of The Character AI Chatbot
In this photo illustration, the Character AI chatbot logo is displayed on a cell phone with another company logo in the background in Creteil, France, on November 27, 2025. (Photo Illustration by Samuel Boivin/NurPhoto) -
DUKAS_191476656_NUR
Photo Illustration Of The Character AI Chatbot
In this photo illustration, the Character AI chatbot logo is displayed on a cell phone with another company logo in the background in Creteil, France, on November 27, 2025. (Photo Illustration by Samuel Boivin/NurPhoto) -
