Building automation companies are racing to deploy sophisticated sensor networks that can detect everything from toxic gases to human occupancy patterns, transforming commercial spaces into ...

A key element to this paradigm shift is the deployment of a distributed sensor network that can continuously monitor water ...

Wireless sensor networks (WSNs) are characterised by a large number of distributed, low-power sensor nodes that collectively monitor environmental phenomena. The efficient management and routing of ...

Quantum sensor technology promises even more precise measurements of physical quantities. A team has now compared the signals of up to 91 quantum sensors with each other and thus successfully ...

As the automotive sector accelerates toward higher levels of autonomy, the complexity and scale of sensor networks within vehicles are rapidly expanding. For semiconductor engineers, the challenge is ...

Researchers introduce the EAVM protocol, achieving 17 % lower energy use and 20 % longer network lifetime in IoT systems with ...

As the effects of climate change and ecological decline intensify, the need for accurate, scalable environmental monitoring has never been more urgent. From tracking urban air quality to safeguarding ...

Japanese researchers are pushing quantum technology to the point where it can register unimaginably small disturbances, ...

Industrial control systems are ubiquitous and integral to social infrastructures such as electric and water utilities, and our oil/gas, chemical, pipeline, and transportation systems. Not surprisingly ...

Arc Embedded provides real-time visibility in Mitsubishi Electric’s industrial control systems’ internal operations and their field assets for improved anomaly and threat detection. Mitsubishi iQ-R ...

Tohoku University researchers have found a way to make quantum sensors more sensitive by connecting superconducting qubits in optimized network patterns. These networks amplify faint signals possibly ...