A team of robotics engineers at Robotic Systems Lab, in Switzerland, has developed a hybrid control architecture that combines the advantages of current quadruped robot control systems to give four-legged robots better walking capabilities on rough terrain.
Here, Nigel Smith, CEO at TM Robotics, explains how the use of robots in injection moulding processes, including its recently-expanded 6-axis robot range, can help manufacturers embrace a bioplastic future.
An innovative study explores the use of robotic-assisted joint replacement in revision knee scenarios, comparing the pre- and post-revision implant positions in a series of revision total knee arthroplasties (TKA) using a state-of-the-art robotic arm system.
Researchers have developed a bio-logger for seabirds that enables long-term observation of rare behaviors. The bio-logger employs low-power depth sensors and accelerometers to identify rare behavior using a light-weight outlier detection model and records the behavior in a 5-min video. Observations using the bio-loggers on Streaked Shearwaters revealed novel aspects of head-shaking and foraging strategies. This approach will enable a wider range of animal behaviors in various environments to be observed.
Advancing AI reasoning in mathematics
Advancing AI reasoning in mathematics
Advancing AI reasoning in mathematics
Advancing AI reasoning in mathematics
Advancing AI reasoning in mathematics
Advancing AI reasoning in mathematics
Advancing AI reasoning in mathematics
Advancing AI reasoning in mathematics
By incorporating better use of data into some of the world’s most carbon-dependent industries, the study found the equivalent of up to 18% of U.S. emissions could be eliminated by better operation.
An AI (artificial intelligence) technology for robot work, which allows robots to be easily applied to manufacturing processes, has been developed for the first time in the world. The newly developed technology can be used in a variety of processes, such as the manufacturing of automobiles and machine parts, as well as assembly and production, and is expected to contribute to the improvement of the working environment at manufacturing sites in the future.
Future generation networks must provide high transmission speeds and flexible coverage. One way to do this is through networks of unmanned aerial vehicles, or drones. They operate in the millimeter wave range. But the use of a wide range of antennas and higher losses during signal propagation are disadvantages. All this requires energy, and drone batteries have limited capacity.