Demis Hassabis & John Jumper awarded Nobel Prize in Chemistry
The award recognizes their work developing AlphaFold, a groundbreaking AI system that predicts the 3D structure of proteins from their amino acid sequences.
Demis Hassabis & John Jumper awarded Nobel Prize in Chemistry
The award recognizes their work developing AlphaFold, a groundbreaking AI system that predicts the 3D structure of proteins from their amino acid sequences.
Demis Hassabis & John Jumper awarded Nobel Prize in Chemistry
The award recognizes their work developing AlphaFold, a groundbreaking AI system that predicts the 3D structure of proteins from their amino acid sequences.
Demis Hassabis & John Jumper awarded Nobel Prize in Chemistry
The award recognizes their work developing AlphaFold, a groundbreaking AI system that predicts the 3D structure of proteins from their amino acid sequences.
Demis Hassabis & John Jumper awarded Nobel Prize in Chemistry
The award recognizes their work developing AlphaFold, a groundbreaking AI system that predicts the 3D structure of proteins from their amino acid sequences.
Demis Hassabis & John Jumper awarded Nobel Prize in Chemistry
The award recognizes their work developing AlphaFold, a groundbreaking AI system that predicts the 3D structure of proteins from their amino acid sequences.
Demis Hassabis & John Jumper awarded Nobel Prize in Chemistry
The award recognizes their work developing AlphaFold, a groundbreaking AI system that predicts the 3D structure of proteins from their amino acid sequences.
Demis Hassabis & John Jumper awarded Nobel Prize in Chemistry
The award recognizes their work developing AlphaFold, a groundbreaking AI system that predicts the 3D structure of proteins from their amino acid sequences.
New breakthrough helps free up space for robots to ‘think’, say scientists
Engineers have worked out how to give robots complex instructions without electricity, which could free up more space in the robotic 'brain' for them to 'think'. Mimicking how some parts of the human body work, researchers have transmitted a series of commands to devices with a new kind of compact circuit, using variations in pressure from a fluid inside it.
Electricity-free circuit helps free up space for robots to ‘think,’ say scientists
Engineers have worked out how to give robots complex instructions without electricity for the first time, which could free up more space in the robotic 'brain' for them to 'think.'
Soft robotics redefined: Meet the light-driven toroidal micro-robot that navigates viscous liquids autonomously
Researchers from Tampere University in Finland and Anhui Jianzhu University in China have made a significant breakthrough in soft robotics. Their study introduces the first toroidal, light-driven micro-robot that can move autonomously in viscous liquids, such as mucus. This innovation marks a major step forward in developing micro-robots capable of navigating complex environments, with promising applications in fields such as medicine and environmental monitoring.
Breakthrough in soft robotics: First toroidal micro-robot to swim autonomously in viscous liquids
Researchers introduces the first toroidal, light-driven micro-robot that can move autonomously in viscous liquids, such as mucus. This innovation marks a major step forward in developing micro-robots capable of navigating complex environments, with promising applications in fields such as medicine and environmental monitoring.
Decrease Downtime: Ergonomic Process for Healthier, More Productive Workplace
Preventing worker discomfort and addressing early signs of injury are proven to save companies time and money, all while improving worker satisfaction and reducing turnover.
Psychosocial risks of collaborative robots: Emphasizing the need for worker engagement
The growing use of collaborative robots in the workplace may pose significant psychosocial risks to workers' mental health and their job security, but there are ways for organizations to smooth the transition, according to research from the Monash University Business School.
Packaging Robots Industry Statistics: Market to Reach USD 19.0 Billion by 2033
As industries seek more innovative ways to meet consumer demands and handle complex packaging tasks, the role of packaging robots becomes more pivotal. This trend is expected to continue, fostering further growth and development in the robotics sector.