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DUKAS_191489561_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
The Teisseire syrup factory in Crolles, Isere, France, closes on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489560_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
A sign is at the Teisseire syrup factory in Crolles, Isere, France, on November 27, 2025. 205 jobs are at risk, and production is relocated to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489559_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
The Teisseire syrup factory in Crolles, Isere, France, closes on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489558_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
The Teisseire syrup factory in Crolles, Isere, France, closes on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489557_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
The CGT Gresivaudan flag protests the closure of the Teisseire syrup factory in Crolles, Isere, France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489556_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters hold a banner against the closure of the Teisseire syrup factory in Crolles, Isere, in France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489555_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters hold a banner against the closure of the Teisseire syrup factory in Crolles, Isere, in France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489517_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters hold a banner against the closure of the Teisseire syrup factory in Crolles, Isere, in France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489516_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters erect wooden crosses against the closure of the Teisseire syrup factory in Crolles, Isere, France, on November 27, 2025. 205 jobs are at risk, and production is relocated to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489515_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters hold a banner against the closure of the Teisseire syrup factory in Crolles, Isere, in France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489514_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
A poster announces another protest on December 2, 2025, against the closure of the Teisseire syrup factory in Crolles, Isere, France, on Thursday, November 27, 2025. 205 jobs are threatened, and production is relocated to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489513_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters display Teisseire syrup banners against the closure of the Teisseire syrup factory in Crolles, Isere, France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489512_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters hold a sign against the closure of the Teisseire syrup factory in Crolles, Isere, France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489511_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters hold a banner against the closure of the Teisseire syrup factory in Crolles, Isere, in France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489510_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters hold a banner against the closure of the Teisseire syrup factory in Crolles, Isere, in France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489509_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters hold a banner against the closure of the Teisseire syrup factory in Crolles, Isere, in France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489508_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters erect wooden crosses against the closure of the Teisseire syrup factory in Crolles, Isere, France, on November 27, 2025. 205 jobs are at risk, and production is relocated to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489507_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters hold a banner against the closure of the Teisseire syrup factory in Crolles, Isere, in France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489506_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters hold a banner against the closure of the Teisseire syrup factory in Crolles, Isere, in France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489505_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters hold a banner against the closure of the Teisseire syrup factory in Crolles, Isere, in France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489504_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters hold a banner against the closure of the Teisseire syrup factory in Crolles, Isere, in France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191489503_NUR
Protesters Against The Closure Of The Teisseire Factory In Crolles
Protesters display Teisseire syrup banners against the closure of the Teisseire syrup factory in Crolles, Isere, France, on November 27, 2025. 205 jobs are at risk, and production relocates to Le Havre. (Photo by Romain Doucelin/NurPhoto) -
DUKAS_191447588_FER
Robot goes to work in glass recycling plant
Ferrari Press Agency
KR1 1
Ref 17345
26/10/2025
See Ferrari text
Picture MUST credit: Kinsi Robotics
A semi-humanoid robot that moves around on a trolley-like platform that stretches up to full size on a pivoting leg when ready for work, has been deployed in a glass recycling plant.
The KR1 robot has a head with two camera lenses resembling eyes and articulated arms with grippers that can be swapped over for other tools including suction pads.
It is said by UK and US maker Kinsi Robotics to be able to work completely autonomously.
It is the first time the wheel machine has been employed to do live production work inside a customer site.
The deployment is taking place at a UK facility, where the robot is tasked with sorting glass bottles for reuse.
Operating autonomously on a sorting line, the robot uses computer vision and machine learning to classify bottles based on shape, size, and material.
Glass recycling presents a specific set of engineering hurdles.
Bottles arrive randomly which means the robot has to work out grasp points autonomously based on geometry and stability while delicate handling is needed to prevent breakages.
Kinisi admitted the system is performing consistently but not yet matching the pace of manual labour.
The plan is to gradually increase speed, beating their human colleagues over the next few months.
OPS: The KR1 robot relies on stereo depth cameras and onboard AI to perceive its environment. In its new role at the recycling facility. The system uses this perception stack to classify bottles by shape, size, and material.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191447587_FER
Robot goes to work in glass recycling plant
Ferrari Press Agency
KR1 1
Ref 17345
26/10/2025
See Ferrari text
Picture MUST credit: Kinsi Robotics
A semi-humanoid robot that moves around on a trolley-like platform that stretches up to full size on a pivoting leg when ready for work, has been deployed in a glass recycling plant.
The KR1 robot has a head with two camera lenses resembling eyes and articulated arms with grippers that can be swapped over for other tools including suction pads.
It is said by UK and US maker Kinsi Robotics to be able to work completely autonomously.
It is the first time the wheel machine has been employed to do live production work inside a customer site.
The deployment is taking place at a UK facility, where the robot is tasked with sorting glass bottles for reuse.
Operating autonomously on a sorting line, the robot uses computer vision and machine learning to classify bottles based on shape, size, and material.
Glass recycling presents a specific set of engineering hurdles.
Bottles arrive randomly which means the robot has to work out grasp points autonomously based on geometry and stability while delicate handling is needed to prevent breakages.
Kinisi admitted the system is performing consistently but not yet matching the pace of manual labour.
The plan is to gradually increase speed, beating their human colleagues over the next few months.
OPS: The KR1 robot. Render of it working in a factory
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191447586_FER
Robot goes to work in glass recycling plant
Ferrari Press Agency
KR1 1
Ref 17345
26/10/2025
See Ferrari text
Picture MUST credit: Kinsi Robotics
A semi-humanoid robot that moves around on a trolley-like platform that stretches up to full size on a pivoting leg when ready for work, has been deployed in a glass recycling plant.
The KR1 robot has a head with two camera lenses resembling eyes and articulated arms with grippers that can be swapped over for other tools including suction pads.
It is said by UK and US maker Kinsi Robotics to be able to work completely autonomously.
It is the first time the wheel machine has been employed to do live production work inside a customer site.
The deployment is taking place at a UK facility, where the robot is tasked with sorting glass bottles for reuse.
Operating autonomously on a sorting line, the robot uses computer vision and machine learning to classify bottles based on shape, size, and material.
Glass recycling presents a specific set of engineering hurdles.
Bottles arrive randomly which means the robot has to work out grasp points autonomously based on geometry and stability while delicate handling is needed to prevent breakages.
Kinisi admitted the system is performing consistently but not yet matching the pace of manual labour.
The plan is to gradually increase speed, beating their human colleagues over the next few months.
OPS: The KR1 robot. Render of it working in a warehouse
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191447584_FER
Robot goes to work in glass recycling plant
Ferrari Press Agency
KR1 1
Ref 17345
26/10/2025
See Ferrari text
Picture MUST credit: Kinsi Robotics
A semi-humanoid robot that moves around on a trolley-like platform that stretches up to full size on a pivoting leg when ready for work, has been deployed in a glass recycling plant.
The KR1 robot has a head with two camera lenses resembling eyes and articulated arms with grippers that can be swapped over for other tools including suction pads.
It is said by UK and US maker Kinsi Robotics to be able to work completely autonomously.
It is the first time the wheel machine has been employed to do live production work inside a customer site.
The deployment is taking place at a UK facility, where the robot is tasked with sorting glass bottles for reuse.
Operating autonomously on a sorting line, the robot uses computer vision and machine learning to classify bottles based on shape, size, and material.
Glass recycling presents a specific set of engineering hurdles.
Bottles arrive randomly which means the robot has to work out grasp points autonomously based on geometry and stability while delicate handling is needed to prevent breakages.
Kinisi admitted the system is performing consistently but not yet matching the pace of manual labour.
The plan is to gradually increase speed, beating their human colleagues over the next few months.
OPS: The KR1 robot relies on stereo depth cameras and onboard AI to perceive its environment. In its new role at the recycling facility. The system uses this perception stack to classify bottles by shape, size, and material.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191447583_FER
Robot goes to work in glass recycling plant
Ferrari Press Agency
KR1 1
Ref 17345
26/10/2025
See Ferrari text
Picture MUST credit: Kinsi Robotics
A semi-humanoid robot that moves around on a trolley-like platform that stretches up to full size on a pivoting leg when ready for work, has been deployed in a glass recycling plant.
The KR1 robot has a head with two camera lenses resembling eyes and articulated arms with grippers that can be swapped over for other tools including suction pads.
It is said by UK and US maker Kinsi Robotics to be able to work completely autonomously.
It is the first time the wheel machine has been employed to do live production work inside a customer site.
The deployment is taking place at a UK facility, where the robot is tasked with sorting glass bottles for reuse.
Operating autonomously on a sorting line, the robot uses computer vision and machine learning to classify bottles based on shape, size, and material.
Glass recycling presents a specific set of engineering hurdles.
Bottles arrive randomly which means the robot has to work out grasp points autonomously based on geometry and stability while delicate handling is needed to prevent breakages.
Kinisi admitted the system is performing consistently but not yet matching the pace of manual labour.
The plan is to gradually increase speed, beating their human colleagues over the next few months.
OPS: The KR1 robot relies on stereo depth cameras and onboard AI to perceive its environment. In its new role at the recycling facility. The system uses this perception stack to classify bottles by shape, size, and material.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191447582_FER
Robot goes to work in glass recycling plant
Ferrari Press Agency
KR1 1
Ref 17345
26/10/2025
See Ferrari text
Picture MUST credit: Kinsi Robotics
A semi-humanoid robot that moves around on a trolley-like platform that stretches up to full size on a pivoting leg when ready for work, has been deployed in a glass recycling plant.
The KR1 robot has a head with two camera lenses resembling eyes and articulated arms with grippers that can be swapped over for other tools including suction pads.
It is said by UK and US maker Kinsi Robotics to be able to work completely autonomously.
It is the first time the wheel machine has been employed to do live production work inside a customer site.
The deployment is taking place at a UK facility, where the robot is tasked with sorting glass bottles for reuse.
Operating autonomously on a sorting line, the robot uses computer vision and machine learning to classify bottles based on shape, size, and material.
Glass recycling presents a specific set of engineering hurdles.
Bottles arrive randomly which means the robot has to work out grasp points autonomously based on geometry and stability while delicate handling is needed to prevent breakages.
Kinisi admitted the system is performing consistently but not yet matching the pace of manual labour.
The plan is to gradually increase speed, beating their human colleagues over the next few months.
OPS: The KR1 robot working autonomously picking up parcels and depositing them without any human assistance
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191447581_FER
Robot goes to work in glass recycling plant
Ferrari Press Agency
KR1 1
Ref 17345
26/10/2025
See Ferrari text
Picture MUST credit: Kinsi Robotics
A semi-humanoid robot that moves around on a trolley-like platform that stretches up to full size on a pivoting leg when ready for work, has been deployed in a glass recycling plant.
The KR1 robot has a head with two camera lenses resembling eyes and articulated arms with grippers that can be swapped over for other tools including suction pads.
It is said by UK and US maker Kinsi Robotics to be able to work completely autonomously.
It is the first time the wheel machine has been employed to do live production work inside a customer site.
The deployment is taking place at a UK facility, where the robot is tasked with sorting glass bottles for reuse.
Operating autonomously on a sorting line, the robot uses computer vision and machine learning to classify bottles based on shape, size, and material.
Glass recycling presents a specific set of engineering hurdles.
Bottles arrive randomly which means the robot has to work out grasp points autonomously based on geometry and stability while delicate handling is needed to prevent breakages.
Kinisi admitted the system is performing consistently but not yet matching the pace of manual labour.
The plan is to gradually increase speed, beating their human colleagues over the next few months.
OPS: The KR1 robot working autonomously picking up parcels and depositing them without any human assistance
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191447580_FER
Robot goes to work in glass recycling plant
Ferrari Press Agency
KR1 1
Ref 17345
26/10/2025
See Ferrari text
Picture MUST credit: Kinsi Robotics
A semi-humanoid robot that moves around on a trolley-like platform that stretches up to full size on a pivoting leg when ready for work, has been deployed in a glass recycling plant.
The KR1 robot has a head with two camera lenses resembling eyes and articulated arms with grippers that can be swapped over for other tools including suction pads.
It is said by UK and US maker Kinsi Robotics to be able to work completely autonomously.
It is the first time the wheel machine has been employed to do live production work inside a customer site.
The deployment is taking place at a UK facility, where the robot is tasked with sorting glass bottles for reuse.
Operating autonomously on a sorting line, the robot uses computer vision and machine learning to classify bottles based on shape, size, and material.
Glass recycling presents a specific set of engineering hurdles.
Bottles arrive randomly which means the robot has to work out grasp points autonomously based on geometry and stability while delicate handling is needed to prevent breakages.
Kinisi admitted the system is performing consistently but not yet matching the pace of manual labour.
The plan is to gradually increase speed, beating their human colleagues over the next few months.
OPS: The KR1 robot working autonomously picking up parcels and depositing them without any human assistance
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191447577_FER
Robot goes to work in glass recycling plant
Ferrari Press Agency
KR1 1
Ref 17345
26/10/2025
See Ferrari text
Picture MUST credit: Kinsi Robotics
A semi-humanoid robot that moves around on a trolley-like platform that stretches up to full size on a pivoting leg when ready for work, has been deployed in a glass recycling plant.
The KR1 robot has a head with two camera lenses resembling eyes and articulated arms with grippers that can be swapped over for other tools including suction pads.
It is said by UK and US maker Kinsi Robotics to be able to work completely autonomously.
It is the first time the wheel machine has been employed to do live production work inside a customer site.
The deployment is taking place at a UK facility, where the robot is tasked with sorting glass bottles for reuse.
Operating autonomously on a sorting line, the robot uses computer vision and machine learning to classify bottles based on shape, size, and material.
Glass recycling presents a specific set of engineering hurdles.
Bottles arrive randomly which means the robot has to work out grasp points autonomously based on geometry and stability while delicate handling is needed to prevent breakages.
Kinisi admitted the system is performing consistently but not yet matching the pace of manual labour.
The plan is to gradually increase speed, beating their human colleagues over the next few months.
OPS: The KR1 robot working autonomously picking up parcels and depositing them without any human assistance
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191447576_FER
Robot goes to work in glass recycling plant
Ferrari Press Agency
KR1 1
Ref 17345
26/10/2025
See Ferrari text
Picture MUST credit: Kinsi Robotics
A semi-humanoid robot that moves around on a trolley-like platform that stretches up to full size on a pivoting leg when ready for work, has been deployed in a glass recycling plant.
The KR1 robot has a head with two camera lenses resembling eyes and articulated arms with grippers that can be swapped over for other tools including suction pads.
It is said by UK and US maker Kinsi Robotics to be able to work completely autonomously.
It is the first time the wheel machine has been employed to do live production work inside a customer site.
The deployment is taking place at a UK facility, where the robot is tasked with sorting glass bottles for reuse.
Operating autonomously on a sorting line, the robot uses computer vision and machine learning to classify bottles based on shape, size, and material.
Glass recycling presents a specific set of engineering hurdles.
Bottles arrive randomly which means the robot has to work out grasp points autonomously based on geometry and stability while delicate handling is needed to prevent breakages.
Kinisi admitted the system is performing consistently but not yet matching the pace of manual labour.
The plan is to gradually increase speed, beating their human colleagues over the next few months.
OPS: The KR1 robot relies on stereo depth cameras and onboard AI to perceive its environment. In its new role at the recycling facility. The system uses this perception stack to classify bottles by shape, size, and material.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_191254581_NUR
China Manufacturing Industry
Workers process women's clothing products in a workshop of a textile and clothing production enterprise in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254579_NUR
China Manufacturing Industry
A worker processes women's clothing products in a workshop of a textile and clothing production enterprise in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254577_NUR
China Manufacturing Industry
Workers process women's clothing products in a workshop of a textile and clothing production enterprise in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254575_NUR
China Manufacturing Industry
A worker processes women's clothing products in a workshop of a textile and clothing production enterprise in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254573_NUR
China Manufacturing Industry
Workers process women's clothing products in a workshop of a textile and clothing production enterprise in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254571_NUR
China Manufacturing Industry
Workers process children's bedding products in a textile and clothing production workshop in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254556_NUR
China Manufacturing Industry
Workers process children's bedding products in a textile and clothing production workshop in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254554_NUR
China Manufacturing Industry
A worker processes children's bedding products in a textile and clothing production workshop in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254552_NUR
China Manufacturing Industry
Workers process children's bedding products in a textile and clothing production workshop in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254549_NUR
China Manufacturing Industry
A worker processes children's bedding products in a textile and clothing production workshop in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254546_NUR
China Manufacturing Industry
Workers process children's bedding products in a textile and clothing production workshop in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254544_NUR
China Manufacturing Industry
A worker processes women's clothing products in a workshop of a textile and clothing production enterprise in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254542_NUR
China Manufacturing Industry
Workers process children's bedding products in a textile and clothing production workshop in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254540_NUR
China Manufacturing Industry
Workers process women's clothing products in a workshop of a textile and clothing production enterprise in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254538_NUR
China Manufacturing Industry
A worker processes children's bedding products in a textile and clothing production workshop in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254536_NUR
China Manufacturing Industry
A worker processes women's clothing products in a workshop of a textile and clothing production enterprise in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254534_NUR
China Manufacturing Industry
Workers process children's bedding products in a textile and clothing production workshop in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
DUKAS_191254532_NUR
China Manufacturing Industry
Workers process children's bedding products in a textile and clothing production workshop in Binzhou City, Shandong Province, China, on November 20, 2025. (Photo by Costfoto/NurPhoto) -
