Understand why the physics behind your flow calibrator—primary versus secondary standards—dictates the legal and medical integrity of your worker exposure results.

Smartphones rely on multiple sensors—such as the accelerometer, gyroscope, compass, and proximity sensor—to power everyday features. From screen rotation and navigation apps to motion tracking and ...

The Triton TR82, from Electro-Chemical Devices (ECD), is a nephelometric turbidity sensor designed for use in water and wastewater. It uses an optical method for determining turbidity, in which a ...

Abstract: This paper presents a hardware architecture for two-dimensional sensor calibration based on a segmented polynomial computation framework, which divides the input space into multiple regions ...

Biofouling, the unwanted accumulation of marine organisms on submerged structures, significantly compromises the quality of scientific data acquisition. A promising approach to mitigate biofouling on ...

Sensor networks continue to grow in size, capability and intricacy. This isn't limited to one industry or application either, from structural health monitoring (SHM) and environmental sensing to smart ...

Multi-sensor calibration of advanced driver assistance systems (ADAS) in autonomous vehicles ensures accurate data fusion by aligning various sensors (like cameras, LiDAR, and radar) into a unified ...

The ITM-51 from Anderson-Negele is a compact, modular turbidity sensor designed for precise process analytics and optimized CIP (clean-in-place) control. With extended capabilities in pressure, ...

Abstract: This paper presents the optimization of an open-source-based turbidity sensor designed for monitoring turbidity in the context of deep-sea mining. The existing sensor exhibits an ...