Monitoring ethanol at very low concentrations is crucial due to its widespread use in ...

One of the biggest challenges for wireless sensor networks is that of power. Solar panels usually produce less power than you hoped, especially small ones, and designing super low power circuits is ...

Streams of data from higher-speed sensors pose throughput and latency challenges for designers. However, optimizing a design for those criteria can come at the expense of increased power consumption ...

In many Internet of Things (IoT) applications, minimizing power consumption is a key design requirement. IoT capability involves adding sensors and connectivity to a valve or similar device in a ...

Technologists have never had trouble coming up with potential applications for wireless sensors. In a home security system, for example, wireless sensors would be much easier to install than sensors ...

Sensors networks are gaining widespread use in factories, industrial complexes, commercial and residential buildings, agricultural settings, and urban areas, serving to improve manufacturing ...

Asynchronous processors, which function without a global clock, have emerged as a compelling alternative to traditional synchronous architectures. Their design relies on handshake protocols and local ...

Often, a technological breakthrough can lead to new products and even new applications that had previously been considered fantasy. Developments in low-power, low-noise readout ASICs could open new ...

Overview: Smart edge AI sensors process data locally, reducing latency, power consumption, and cloud dependence.On-device inference improves privacy by keeping ...

Streams of data from higher-speed sensors pose throughput and latency challenges for designers. However, optimizing a design for those criteria can come at the expense of increased power consumption ...