New UWB sensor networks and robot teaming enable sub-meter navigation in signal-dead underground environments, improving coordination, safety, and real-time mapping for disaster response teams.
Science Daily: Wireless, ultra-thin and battery-free strain sensors that are 10 times more sensitive
"Wireless, ultra-thin and battery-free strain sensors that are 10 times more sensitive." ScienceDaily. www.sciencedaily.com / releases / 2020 / 12 / 201215095929.htm (accessed ).
Wireless, ultra-thin and battery-free strain sensors that are 10 times more sensitive
Medical Xpress on MSN: Low-frequency wireless sensor tracks artery stiffening in real time with less interference
Wireless sensors used in wearable smart devices and medical equipment must be capable of detecting minute changes while maintaining high operational stability. However, existing technologies often ...
Low-frequency wireless sensor tracks artery stiffening in real time with less interference
This file type includes high resolution graphics and schematics when applicable. The advent of low-power processors, intelligent wireless networks, and low-power sensors coupled with “Big Data” ...
Robotics companies building enabling systems like sensors and LiDAR attracted $1.6 billion in 2025, as every robot needs vision capabilities. Medical robotics shows the clearest path from startup to ...
Sensor networks are highly distributed networks of small, lightweight wireless nodes, deployed in large numbers to monitor the environment or system by the measurement of physical parameters such as ...
Researchers looked to nature for inspiration in designing more effective wireless sensor networks. First, they recorded the vocal interplay of neighboring tree frog calls, which they found allowed ...
EurekAlert!: Brown researchers develop brain-inspired wireless system to gather data from salt-sized sensors
Brown researchers develop brain-inspired wireless system to gather data from salt-sized sensors