An international team has explored how in future aerial robots could process construction materials precisely in the air -- an approach with great potential for difficult-to-access locations or work ...

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Abstract: The robotics research community has explored several model-based techniques for multi-robot and multi-task control. Through constrained optimization, robot-specific characteristics can be ...

The FLIR G343 OGI camera, supplied by Apliter Termografía, can identify carbon dioxide (CO2) emissions in real time with high accuracy, improving risk assessment capabilities in areas affected by ...

Caption:MIT researchers developed a hopping robot that can leap over tall obstacles and jump across slanted or uneven surfaces, while using far less energy than an aerial robot. Credit: Melanie Gonick ...

Insect-scale robots can squeeze into places their larger counterparts can't, like deep into a collapsed building to search for survivors after an earthquake. However, as they move through the rubble, ...

FLIR, a Teledyne Technologies company ... frequency range and enhanced leak quantification features. Compressed air systems are known to lose between 25–30% of their output to leaks, leading ...

Corleo, a hydrogen-powered robot horse. Credit: Kawasaki Heavy Industries, Ltd Japanese manufacturer Kawasaki ... looking at how hydrogen power and intelligent systems might shape mobility in the ...

FLIR cameras are designed for easy integration into broader safety and control systems, allowing for automated responses such as activating suppression systems that enhance response times and ...

An intelligent robotic system can generally be divided into three major modules: control unit, sensing unit, and drive unit. These modules work closely together to construct a complete ...