322 research outputs found
PMD IVS Analysis Center 2019–2020 Report
The activities related to geodetic VLBI
carried out at the IVS AC PMD during 2019 and
2020 were focused on different topics that are detailed
below. As in previous years, routine computations of
European baselines and tropospheric parameters were
carried out. Comparisons of algorithms to detect jumps
in time series were also performed in the framework
of COST Action ES1206. The collaboration with the
CRAF Committee has increased to defend the legacy
S/X and VGOS frequency bands from external threats.
And new collaborations and research under COST
(DAMOCLES) and JRP GeoMetre projects have
started. Visits and collaborations with other IVS ACs
have also been organized and realize
A Cost-effective Satellite-aircraft-drogue Approach for Studying Estuarine Circulation and Shelf Waste Dispersion
The author has identified the following significant results. Satellites, such as ERTS-1, can be used to obtain a synoptic view of current circulation over large coastal areas. Since in turbid coastal regions suspended sediment acts as a natural tracer, cost is minimized by eliminating the need for expensive injections of large volumes of dye such as Rhodamine-B. One of the principal shortcomings of satellite imaging of coastal currents was its inability to determine current magnitude and to penetrate beyond the upper few meters of the water column. These objections were overcome by complementing satellite observations with drogues tracking currents at various selected depths. By combining the satellite's wide coverage with aircraft or shore stations capable of tracking expendable drogues, a cost effective, integrated system was devised for monitoring currents over large areas, various depths, and under severe environmental conditions
Large satellite constellations and their potential impact on VGOS operations
Large LEO satellite constellations (or so-called Mega-constellations) will significantly change the view of the sky in some radio frequency bands. For VGOS telescopes it is important to understand the potential impact these constellations will have in their operations, what is the risk of its receivers going into non-linear behaviour and how much additional power would a telescope receive if observing in the same frequencies where satellites are transmitting. This work describes three of these new constellations (as they would look fully deployed) and summarizes the results of a particular study considering two VGOS telescopes (Onsala and Wettzell)
The impact of feedback on the low-redshift intergalactic medium
We analyse the evolution of the properties of the low-redshift Intergalactic Medium (IGM) using high-resolution hydrodynamic simulations that include a detailed chemical evolution model. We focus on the effects that two different forms of energy feedback, strong galactic winds driven by supernova explosion and Active Galactic Nuclei (AGN) powered by gas accretion onto super-massive black holes (BHs), have on the thermo- and chemo-dynamical properties of of the low redshift IGM. We find that feedback associated to winds (W) and BHs leave distinct signatures in both the chemical and thermal history of the baryons, especially at redshift z<3 [..] We present results for the enrichment in terms of mass and metallicity distributions for the WHIM phase, both as a function of density and temperature. Finally, we compute the evolution of the relative abundances between different heavy elements, namely Oxygen, Carbon and Iron. While both C/O and O/Fe evolve differently at high redshifts for different feedback models, their values are similar at z=0 [..]. The sensitivity of WHIM properties on the implemented feedback scheme could be important both for discriminating between different feedback physics and for detecting the WHIM with future far-UV and X-ray telescopes
A New Current Drogue System for Remotely Monitoring Shelf Current Circulation
The author has identified the following significant results. An ocean current drogue system was developed for use in the coastal zone and continental shelf region. The method features an extremely simple radiosonde device whose position is determined from a pair of cooperative shore stations. These ocean sondes follow the tradition of the atmospheric radiosonde in that they are economically disposable at the end of their mission. The system was successfully tested in a number of environments, including the North Atlantic in two winter coastal storms. Tracking to the edge of the Baltimore and Wilmington trenches was achieved. The drogue system is being used in conjunction with remote sensing aircraft and satellites to chart current circulation at ocean waste disposal sites 40 miles off Delaware's coast
Remote sensing of coastal pollutants
There are no author-identified significant results in this report
Cooling and heating the ICM in hydrodynamical simulations
We discuss Tree+SPH simulations of galaxy clusters and groups, aimed at
studying the effect of cooling and non-gravitational heating on observable
properties of the ICM. We simulate at high resolution four halos,with masses in
the range (0.2-4)10^{14}M_sol. We discuss the effects of using different SPH
implementations and show that high resolution is mandatory to correctly follow
the cooling pattern of the ICM. All of our heating schemes which correctly
reproduce the X-ray scaling properties of clusters and groups do not succeed in
reducing the fraction of collapsed gas below a level of 20 (30) per cent at the
cluster (group) scale. Finally, gas compression in cooling cluster regions
causes an increase of the temperature and a steepening of the temperature
profiles, independent of the presence of non-gravitational heating processes.
This is inconsistent with recent observational evidence for a decrease of gas
temperature towards the center of relaxed clusters. Provided these
discrepancies persist even for a more refined modeling of energy feedback, they
may indicate that some basic physical process is still missing in
hydrodynamical simulations.Comment: To appear in MNRAS: 18 pages, 13 figures. Paper with high-resolution
figures available at http://www.daut.univ.trieste.it/borgan
Machine learning regression for QoT estimation of unestablished lightpaths
Estimating the quality of transmission (QoT) of a candidate lightpath prior to its establishment is of pivotal importance for effective decision making in resource allocation for optical networks. Several recent studies investigated machine learning (ML) methods to accurately predict whether the configuration of a prospective lightpath satisfies a given threshold on a QoT metric such as the generalized signal-To-noise ratio (GSNR) or the bit error rate. Given a set of features, the GSNR for a given lightpath configuration may still exhibit variations, as it depends on several other factors not captured by the features considered. It follows that the GSNR associated with a lightpath configuration can be modeled as a random variable and thus be characterized by a probability distribution function. However, most of the existing approaches attempt to directly answer the question is a given lightpath configuration (e.g., with a given modulation format) feasible on a certain path? but do not consider the additional benefit that estimating the entire statistical distribution of the metric under observation can provide. Hence, in this paper, we investigate how to employ ML regression approaches to estimate the distribution of the received GSNR of unestablished lightpaths. In particular, we discuss and assess the performance of three regression approaches by leveraging synthetic data obtained by means of two different data generation tools. We evaluate the performance of the three proposed approaches on a realistic network topology in terms of root mean squared error and R2 score and compare them against a baseline approach that simply predicts the GSNR mean value. Moreover, we provide a cost analysis by attributing penalties to incorrect deployment decisions and emphasize the benefits of leveraging the proposed estimation approaches from the point of view of a network operator, which is allowed to make more informed decisions about lightpath deployment with respect to state-of-The-Art QoT classification techniques
A Synergic Application of High-Oxygenated E-Fuels and New Bowl Designs for Low Soot Emissions: An Optical Analysis
[EN] Synthetic fuels significantly reduce pollutant emissions and the carbon footprint of ICE applications. Among these fuels, oxymethylene dimethyl ethers (OMEX) are an excellent candidate to entirely or partially replace conventional fuels in compression ignition (CI) engines due to their attractive properties. The very low soot particle formation tendency allows the decoupling of the soot-NOX trade-off in CI engines. In addition, innovative piston geometries have the potential to reduce soot formation inside the cylinder in the late combustion stage. This work aims to analyze the potential of combining OMEX with an innovative piston geometry to reduce soot formation inside the cylinder. In this way, several blends of OMEX-Diesel were tested using a radial-lips bowl geometry and a conventional reentrant bowl. Tests were conducted in an optically accessible engine under simulated EGR conditions, reducing the in-cylinder oxygen content. For this purpose, 2-colour pyrometry and high-speed excited state hydroxyl chemiluminescence techniques were applied to trace the in-cylinder soot formation and oxidation processes. The results confirm that increasing OMEX in Diesel improves the in-cylinder soot reduction under low oxygen conditions for both piston geometries. Moreover, using radial lips bowl geometry significantly improves the soot reduction, from 17% using neat Diesel to 70% less at the highest OMEX quantity studied in this paper.This work has been partially funded by Universitat Politècnica de València through the program of access contracts for PhD research staff in Research Structures of the Universitat Politècnica de València with reference PAID-10-22. The presence of Cinzia Tornatore at Universitat Politècnica de València was funded by the Short Term Mobility (STM) Program of the Italian National Research Council.Pastor, JV.; Micó, C.; De Vargas Lewiski, F.; Tejada-Magraner, FJ.; Tornatore, C. (2023). A Synergic Application of High-Oxygenated E-Fuels and New Bowl Designs for Low Soot Emissions: An Optical Analysis. Applied Sciences. 13(14). https://doi.org/10.3390/app13148560131
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