In VivoDielectric Analysis of Free Water Content of Biomaterials by Time Domain Reflectometry

## Abstract Time‐domain reflectometry (TDR) sensors have been widely used in many fields for measurement of soil water content. However, few TDR sensors have been used in a hyper‐arid environment (e.g. less than 0·05 m^3^ m^−3^), and such sensor applicability is not yet confirmed. In this study we

## Abstract Time‐domain reflectometry (TDR) is increasingly used for field soil water estimation because the measurement is non‐destructive and less affected by soil texture, bulk density and temperature. However, with the increase in instrument resolution, the influences of soil bulk density and t

## Abstract Soil‐tree water relationships were studied using time domain reflectometry (TDR) in two small forested basins in Spain. The stem water content of two Mediterranean __Quercus__ species (__Quercus pyrenaica__ and __Quercus rotundifolia__) was measured using previously constructed species‐

The analysis of networks with time-varying elements is more complicated than the analysis of networks with constant elements. Frequency domain analysis methods are well established for the analysis of timeinvariant networks. Since the complete solution can be computed for only a very narrow class of

Mechanical loading, occurring during normal daily life, causes fluid to be expelled from intervertebral discs. Excessive fluid loss during heavy loading might make the disc more vulnerable to damage. In this study, fluid loss was investigated in vitro through monitoring the loss of MRI signal intens