764 research outputs found
Разработка алгоритмов с использованием метода неортогонального множественного доступа (NOMA) для беспроводных сетей
В целях улучшения спектральной эффективности NOMA в этом тезисе были предложены два алгоритма для уменьшения высокой сложности вычислений помех и приемников:
1.M-NOMA для полудуплексной связи и
2.In-band Component-forward communication (связь типа компонент-форвард) для полного дуплексного общения.
Ортогонально модулированные пользователи в M-NOMA приводит к сравнительно меньшему числу помех и меньшим сложностям в передаче сигнала . Снижение требований SIC в конце приемника из-за минимальных помех делает систему менее сложной. Сформулированный протокол является эффективным и простым решением для преодоления определенных недостатков.
Алгоритм компонента-форварда также способствовал эффективности системы по сравнению с обычными системами.Encouraging the thoughtfulness of NOMA for spectral efficiency, two algorithms have been proposed in this thesis to reduce the high interference and receiver computational complexity;
1. M-NOMA for half duplex communication and
2. In-band Component-forward communication for Full duplex communication.
Orthogonally modulated users in M-NOMA results in comparatively less interference and less complexity in the signal transmission. Reduced SIC requirement at the receiver end due to minimal interference makes the system less complex. The formulated protocol is an efficient and effective simple solution to overcome certain drawbacks. Component-forward algorithm also contributed towards the efficiency of the system as compared to the conventional systems
Classification of multifluid CP world models
Various classification schemes exist for homogeneous and isotropic (CP) world
models, which include pressureless matter (so-called dust) and Einstein's
cosmological constant Lambda. We here classify the solutions of more general
world models consisting of up to four non-interacting fluids, each with
pressure P, energy density epsilon and an equation of state P = (gamma - 1)
epsilon with 0 <= gamma <= 2.
In addition to repulsive fluids with negative pressure and positive energy
density, which generalize the classical repulsive (positive) Lambda component,
we consider fluids with negative energy density as well. The latter generalize
a negative Lambda component. This renders possible new types of models that do
not occur among the classical classifications of world models. Singularity-free
periodic solutions as well as further `hill-type', `hollow-type' and
`shifting-type' models are feasible.
However, if one only allows for three components (dust, radiation and one
repulsive component) in a spatially flat universe the repulsive classical
Lambda fluid (with Lambda > 0) tends to yield the smoothest fits of the
Supernova Ia data from Perlmutter et al. (1999). Adopting the SN Ia
constraints, exotic negative energy density components can be fittingly
included only if the universe consists of four or more fluids.Comment: 12 pages, 11 figures, latex, A&A in pres
Effect of four plant species on soil 15N-access and herbage yield in temporary agricultural grasslands
Positive plant diversity-productivity relationships have been reported for experimental semi-natural grasslands (Cardinale et al. 2006; Hector et al. 1999; Tilman et al. 1996) as well as temporary agricultural grasslands (Frankow-Lindberg et al. 2009; Kirwan et al. 2007; Nyfeler et al. 2009; Picasso et al. 2008). Generally, these relationships are explained, on the one hand, by niche differentiation and facilitation (Hector et al. 2002; Tilman et al. 2002) and, on the other hand, by greater probability of including a highly productive plant species in high diversity plots (Huston 1997). Both explanations accept that diversity is significant because species differ in characteristics, such as root architecture, nutrient acquisition and water use efficiency, to name a few, resulting in composition and diversity being important for improved productivity and resource use (Naeem et al. 1994; Tilman et al. 2002). Plant diversity is generally low in temporary agricultural grasslands grown for ruminant fodder production. Grass in pure stands is common, but requires high nitrogen (N) inputs. In terms of N input, two-species grass-legume mixtures are more sustainable than grass in pure stands and consequently dominate low N input grasslands (Crews and Peoples 2004; Nyfeler et al. 2009; Nyfeler et al. 2011).
In temperate grasslands, N is often the limiting factor for productivity (Whitehead 1995). Plant available soil N is generally concentrated in the upper soil layers, but may leach to deeper layers, especially in grasslands that include legumes (Scherer-Lorenzen et al. 2003) and under conditions with surplus precipitation (Thorup-Kristensen 2006). To improve soil N use efficiency in temporary grasslands, we propose the addition of deep-rooting plant species to a mixture of perennial ryegrass and white clover, which are the most widespread forage plant species in temporary grasslands in a temperate climate (Moore 2003). Perennial ryegrass and white clover possess relatively shallow root systems (Kutschera and Lichtenegger 1982; Kutschera and Lichtenegger 1992) with effective rooting depths of <0.7 m on a silt loamy site (Pollock and Mead 2008). Grassland species, such as lucerne and chicory, grow their tap-roots into deep soil layers and exploit soil nutrients and water in soil layers that the commonly grown shallow-rooting grassland species cannot reach (Braun et al. 2010; Skinner 2008). Chicory grown as a catch crop after barley reduced the inorganic soil N down to 2.5 m depth during the growing season, while perennial ryegrass affected the inorganic soil N only down to 1 m depth (Thorup-Kristensen 2006). Further, on a Wakanui silt loam in New Zealand chicory extracted water down to 1.9 m and lucerne down to 2.3 m soil depth, which resulted in greater herbage yields compared with a perennial ryegrass-white clover mixture, especially for dryland plots (Brown et al. 2005).
There is little information on both the ability of deep- and shallow-rooting grassland species to access soil N from different vertical soil layers and the relation of soil N-access and herbage yield in temporary agricultural grasslands. Therefore, the objective of the present work was to test the hypotheses 1) that a mixture comprising both shallow- and deep-rooting plant species has greater herbage yields than a shallow-rooting binary mixture and pure stands, 2) that deep-rooting plant species (chicory and lucerne) are superior in accessing soil N from 1.2 m soil depth compared with shallow-rooting plant species, 3) that shallow-rooting plant species (perennial ryegrass and white clover) are superior in accessing soil N from 0.4 m soil depth compared with deep-rooting plant species, 4) that a mixture of deep- and shallow-rooting plant species has greater access to soil N from three soil layers compared with a shallow-rooting two-species mixture and that 5) the leguminous grassland plants, lucerne and white clover, have a strong impact on grassland N acquisition, because of their ability to derive N from the soil and the atmosphere
Squeezing MOND into a Cosmological Scenario
Explaining the effects of dark matter using modified gravitational dynamics
(MOND) has for decades been both an intriguing and controversial possibility.
By insisting that the gravitational interaction that accounts for the Newtonian
force also drives cosmic expansion, one may kinematically identify which
cosmologies are compatible with MOND, without explicit reference to the
underlying theory so long as the theory obeys Birkhoff's law. Using this
technique, we are able to self-consistently compute a number of quantities of
cosmological interest. We find that the critical acceleration a_0 must have a
slight source-mass dependence (a_0 ~ M^(1/3)) and that MOND cosmologies are
naturally compatible with observed late-time expansion history and the
contemporary cosmic acceleration. However, cosmologies that can produce enough
density perturbations to account for structure formation are contrived and
fine-tuned. Even then, they may be marginally ruled out by evidence of early (z
\~ 20) reionization.Comment: 11 pages revtex, 2 figure
FORS spectroscopy of galaxies in the Hubble Deep Field South
We present low resolution multi-object spectroscopy of an I-band magnitude
limited (I_{AB} ~ 23--23.5) sample of galaxies located in an area centered on
the Hubble Deep Field-South (HDFS). The observations were obtained using the
Focal Reducer low dispersion Spectrograph (FORS) on the ESO Very Large
Telescope. Thirty-two primary spectroscopic targets in the HST-WFPC2 HDFS were
supplemented with galaxies detected in the Infrared Space Observatory's survey
of the HDFS and the ESO Imaging Deep Survey to comprise a sample of 100
galaxies for spectroscopic observations. Based on detections of several
emission lines, such as [OII]3727, H_beta and [OIII]5007, or other
spectroscopic features, we have measured accurate redshifts for 50 objects in
the central HDFS and flanking fields. The redshift range of the current sample
of galaxies is 0.6--1.2, with a median redshift of 1.13 (at I ~ 23.5 not
corrected for completeness). The sample is dominated by starburst galaxies with
only a small fraction of ellipticals (~10%). For the emission line objects, the
extinction corrected [OII]3727 line strengths yield estimates of star formation
rates in the range 0.5--30 M_solar/yr. We have used the present data to derive
the [OII]3727 luminosity function up to redshift of 1.2. When combined with
[OII]3727 luminosity densities for the local and high redshift Universe, our
results confirm the steep rise in the star formation rate (SFR) to z ~ 1.3.Comment: Tables 2 and 3 provided as separate files. Accepted for publication
by Astronomy and Astrophysic
Probing the phase diagram of CeRu_2Ge_2 by thermopower at high pressure
The temperature dependence of the thermoelectric power, S(T), and the
electrical resistivity of the magnetically ordered CeRu_2Ge_2 (T_N=8.55 K and
T_C=7.40 K) were measured for pressures p < 16 GPa in the temperature range 1.2
K < T < 300 K. Long-range magnetic order is suppressed at a p_c of
approximately 6.4 GPa. Pressure drives S(T) through a sequence of temperature
dependences, ranging from a behaviour characteristic for magnetically ordered
heavy fermion compounds to a typical behaviour of intermediate-valent systems.
At intermediate pressures a large positive maximum develops above 10 K in S(T).
Its origin is attributed to the Kondo effect and its position is assumed to
reflect the Kondo temperature T_K. The pressure dependence of T_K is discussed
in a revised and extended (T,p) phase diagram of CeRu_2Ge_2.Comment: 7 pages, 6 figure
The Age-Redshift Relation for Standard Cosmology
We present compact, analytic expressions for the age-redshift relation
for standard Friedmann-Lema\^ \itre-Robertson-Walker (FLRW)
cosmology. The new expressions are given in terms of incomplete Legendre
elliptic integrals and evaluate much faster than by direct numerical
integration.Comment: 13 pages, 3 figure
The magnetized medium around the radio galaxy B2 0755+37: an interaction with the intra-group gas
We explore the magneto-ionic environment of the isolated radio galaxy B2
0755+37 using detailed imaging of the distributions of Faraday rotation and
depolarization over the radio source from Very Large Array observations at
1385,1465 and 4860 MHz and new X-ray data from XMM-Newton. The Rotation Measure
(RM) distribution is complex, with evidence for anisotropic fluctuations in two
regions. The approaching lobe shows low and uniform RM in an unusual `stripe'
along an extension of the jet axis and a linear gradient transverse to this
axis over its Northern half. The leading edge of the receding lobe shows
arc-like RM structures with sign reversals. Elsewhere, the RM structures are
reasonably isotropic. The RM power spectra are well described by cut-off power
laws with slopes ranging from 2.1 to 3.2 in different sub-regions. The
corresponding magnetic-field autocorrelation lengths, where well-determined,
range from 0.25 to 1.4 kpc. It is likely that the fluctuations are mostly
produced by compressed gas and field around the leading edges of the lobes. We
identify areas of high depolarization around the jets and inner lobes. These
could be produced by dense gas immediately surrounding the radio emission
containing a magnetic field which is tangled on small scales. We also identify
four ways in which the well known depolarization (Faraday depth) asymmetry
between jetted and counter-jetted lobes of extended radio sources can be
modified by interactions with the surrounding medium.Comment: 16 pages, 13 figures, accepted for publication in MNRAS. Full
resolution paper available at: ftp://ftp.ira.inaf.it/pub/outgoing/guidetti/
Subjects: Cosmology and Extragalactic Astrophysics (astro-ph.CO
- …