In this paper, the human milk dielectric constant by a microwave sensor has been evaluated. The proposed sensor is result of coupling between a simple microstrip line and a split ring …
In this paper, a very high sensitivity microwave-based planar microfluidic sensor is presented. Sensitivity enhancement is achieved and described theoretically and …
A phase variation-based rotation sensor is presented in this article. The sensor is realized using a coplanar waveguide (CPW) terminated with a stepped impedance resonator. A …
A wide dynamic range reflective mode displacement sensor is designed in this article based on the resonance frequency shift. The linearity of the sensor is enhanced using a tapered …
A machine learning (ML) approach is proposed to provide an accurate retrieval of the dielectric properties of materials. In our earlier work, based on a semi-analytic solution of …
Real-time fermentation process monitoring is extremely important in process control attaining high quality products in many food industries. Although microwave resonators offer …
Microwave sensors are principally sensitive to effective permittivity, and hence not selective to a specific material under test (MUT). In this work, a highly compact microwave planar …
A de-embedding method for determining all scattering (S-) parameters (eg, characterization) of a sensing area of planar microstrip sensors (two-port network or line) is proposed using …
M Baghelani - IEEE Sensors Journal, 2021 - ieeexplore.ieee.org
In this work, a novel method for non-invasive, label-free, multi-variable volumetric concentration analysis of mixtures is presented based on wide-band microwave resonators …