RESUMO
This article presents the capture protocol to acquire hyperspectral images, which can be used to quantify the concentration of total phosphorus in soil samples. 152 soil samples were prepared, and a hyperspectral cube made up of 145 images in the VIS-NIR bands, between 420 and 1000 nm, was obtained from each of them. The images obtained were taken with the Bayspec OCIF Series hyperspectral camera, in push-broom function, using a platform that includes an illumination system that offers a continuous spectrum in the range of interest. The samples were prepared with a soil from the Santander de Quilichao region, Cauca, Colombia, and mixed with known concentrations of P2O5 fertilizer, so that a total mass of 50 g was obtained. Each sample was deposited in a round black plastic container, 6 cm in diameter and a depth of 1 cm. The soil samples were analyzed in the laboratory to establish the concentration of total phosphorus. Therefore, the database is made up of the images associated with the hyperspectral cube of each sample, and four tables: the first describes the properties of the soil used to obtain the mixtures, the second the composition of the fertilizer used, the third describes the soil-fertilizer ratio to make up the samples, and the fourth was the laboratory analysis of the total phosphorus content of the analyzed samples.
RESUMO
This document illustrates the processes carried out for the construction of an ionospheric sensor or ionosonde, from a universal software radio peripheral (USRP), and its programming using GNU-Radio and MATLAB. The development involved the in-depth study of the characteristics of the ionosphere, to apply the corresponding mathematical models used in the radar-like pulse compression technique and matched filters, among others. The sensor operates by firing electromagnetic waves in a frequency sweep, which are reflected against the ionosphere and are received on its return by the receiver of the instrument, which calculates the reflection height through the signal offset. From this information and a series of calculations, the electron density of the terrestrial ionosphere could be obtained. Improving the SNR of received echoes reduces the transmission power to a maximum of 400 W. The resolution associated with the bandwidth of the signal used is approximately 5 km, but this can be improved, taking advantage of the fact that the daughterboards used in the USRP allow a higher sampling frequency than the one used in the design of this experiment.
RESUMO
Con las investigaciones de Emil Du Bois-Reymond, uno de los fundadores de la electrofisiología, se dio inicio a la era de la bioelectricidad. DuBois documentó en detalle actividades eléctricas asociadas con excitación nerviosa, contracción muscular y procesos de cicatrización. En la actualidad es reconocido que los campos eléctricos (CE) están presentes en los organismos vivos y que direccionan e influyen procesos biológicos como la embriogénesis, regeneración y cicatrización de heridas. Diversos estudios han demostrado como los CE interfieren en la biosíntesis y la migración celular, dando lugar a nuevas estrategias para la reparación de ligamentos y regeneración de tejidos. En la actualidad las corrientes y CE biológicos suministran información necesaria para diversos tipos de diagnósticos y tratamientos. En este trabajo se hace una revisión de algunos estudios realizados alrededor de la generación de campos bioeléctricos endógenos, sus sustratos biológicos y aplicaciones médicas.
The era of bioelectricity began with the investigations of Emil Du Bois-Reymond, one of the founders of electrophysiology. DuBois documented in detail electrical activities associated with nerve excitation, muscle contraction and healing processes. It is currently recognized that electric fields (EFs) are present in living organisms and that they direct and influence biological processes such as embryogenesis, regeneration and wound healing. Several studies have shown how EFs interfere with biosynthesis and cell migration, leading to new strategies for repairing ligaments and for tissue regeneration. At present, biological EFs and currents provide information needed for different types of diagnoses and treatments. This paper reviews some studies focused on the generation of endogenous bioelectric fields, their biological substrates and medical applications.
