A recent breakthrough in photothermal actuator design has been achieved by a research team from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences, led by Prof. Tian Xingyou and Prof. Zhang Xian. The team developed a novel superstructure liquid metal/low expansion polyimide/polydimethylsiloxane (LM@PI/PDMS) actuator, which combines rapid movement with impressive load-carrying capacity—an achievement that has eluded previous actuator designs.A recent breakthrough in photothermal actuator design has been achieved by a research team from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences, led by Prof. Tian Xingyou and Prof. Zhang Xian. The team developed a novel superstructure liquid metal/low expansion polyimide/polydimethylsiloxane (LM@PI/PDMS) actuator, which combines rapid movement with impressive load-carrying capacity—an achievement that has eluded previous actuator designs.[#item_full_content]
Conventional drones use visual sensors for navigation. However, environmental conditions like dampness, low light, and dust can hinder their effectiveness, limiting their use in disaster-stricken areas. Researchers from Japan have developed a novel bio-hybrid drone by combining robotic elements with odor-sensing antennae from silkworm moths. Their innovation, which integrates the agility and precision of robots with biological sensory mechanisms, can enhance the applicability of drones in navigation, gas sensing, and disaster response.Conventional drones use visual sensors for navigation. However, environmental conditions like dampness, low light, and dust can hinder their effectiveness, limiting their use in disaster-stricken areas. Researchers from Japan have developed a novel bio-hybrid drone by combining robotic elements with odor-sensing antennae from silkworm moths. Their innovation, which integrates the agility and precision of robots with biological sensory mechanisms, can enhance the applicability of drones in navigation, gas sensing, and disaster response.[#item_full_content]
Soft robotics is an emerging field in the robotic world with promising adaptability in navigating unstructured environments. Where traditional robots struggle with unpredictable terrains, soft robots are advancing in their navigational skills due to their high-end flexibility.Soft robotics is an emerging field in the robotic world with promising adaptability in navigating unstructured environments. Where traditional robots struggle with unpredictable terrains, soft robots are advancing in their navigational skills due to their high-end flexibility.[#item_full_content]
A new study shows an application of machine-learning directed optimization (ML-DO) that efficiently searches for high-performance design configurations in the context of biohybrid robots. Applying a machine learning approach, the researchers created mini biohybrid rays made of cardiomyocytes (heart muscle cells) and rubber with a wingspan of about 10 mm that are approximately two times more efficient at swimming than those recently developed under a conventional biomimetic approach.A new study shows an application of machine-learning directed optimization (ML-DO) that efficiently searches for high-performance design configurations in the context of biohybrid robots. Applying a machine learning approach, the researchers created mini biohybrid rays made of cardiomyocytes (heart muscle cells) and rubber with a wingspan of about 10 mm that are approximately two times more efficient at swimming than those recently developed under a conventional biomimetic approach.[#item_full_content]
While exploring how best to design robots that use tails to reorient their bodies in midair, a team of researchers at the University of Michigan and University of California San Diego found that mammals had already figured out how to do more with less.While exploring how best to design robots that use tails to reorient their bodies in midair, a team of researchers at the University of Michigan and University of California San Diego found that mammals had already figured out how to do more with less.[#item_full_content]
A team of engineers at Westlake University, Zhejiang Normal University and Shaoxing University, all in China, has tested the possibility of making some robot parts biodegradable. In their project, published in the journal Science Advances, the group made some robot components using cotton cellulose films and pork gelatin.A team of engineers at Westlake University, Zhejiang Normal University and Shaoxing University, all in China, has tested the possibility of making some robot parts biodegradable. In their project, published in the journal Science Advances, the group made some robot components using cotton cellulose films and pork gelatin.[#item_full_content]
Imagine a swarm of tiny robots, each about the size of the palm of your hand, spreading out over a wildfire-ravaged community, mapping areas contaminated by toxic materials, searching for survivors, identifying areas of rapid wildfire spread. Or picture the robots being used to clear battlefields of mines, conduct search and rescue missions after earthquakes, or deployed on farms to fend against pests and track soil conditions.Imagine a swarm of tiny robots, each about the size of the palm of your hand, spreading out over a wildfire-ravaged community, mapping areas contaminated by toxic materials, searching for survivors, identifying areas of rapid wildfire spread. Or picture the robots being used to clear battlefields of mines, conduct search and rescue missions after earthquakes, or deployed on farms to fend against pests and track soil conditions.[#item_full_content]
More than 2 million adults living in the United States rely on a caregiver’s assistance to eat daily meals. In addition to human caregivers, technology has been developed to provide assistance. For example, tabletop and wheelchair-mounted robotic arms have been programmed to pick up foods and bring them to the human operator.More than 2 million adults living in the United States rely on a caregiver’s assistance to eat daily meals. In addition to human caregivers, technology has been developed to provide assistance. For example, tabletop and wheelchair-mounted robotic arms have been programmed to pick up foods and bring them to the human operator.[#item_full_content]
A team of engineers at Apple Computer has developed an expressive table lamp that interacts with a user rather than simply carrying out instructions. The group has posted a paper on the arXiv preprint server describing the factors that went into the development of the lamp and its current features. They have also posted several videos showing the robot lamp in action.A team of engineers at Apple Computer has developed an expressive table lamp that interacts with a user rather than simply carrying out instructions. The group has posted a paper on the arXiv preprint server describing the factors that went into the development of the lamp and its current features. They have also posted several videos showing the robot lamp in action.[#item_full_content]
A team of AI and robotics researchers at Carnegie Mellon University, working with a pair of colleagues from technology company NVIDIA, has developed a new model for training robots to move like human athletes.A team of AI and robotics researchers at Carnegie Mellon University, working with a pair of colleagues from technology company NVIDIA, has developed a new model for training robots to move like human athletes.[#item_full_content]
