2,106 research outputs found
Monolingual and bilingual spanish-catalan speech recognizers developed from SpeechDat databases
Under the SpeechDat specifications, the Spanish member of SpeechDat consortium has recorded a Catalan database that includes one
thousand speakers. This communication describes some experimental work that has been carried out using both the Spanish and the
Catalan speech material.
A speech recognition system has been trained for the Spanish language using a selection of the phonetically balanced utterances from
the 4500 SpeechDat training sessions. Utterances with mispronounced or incomplete words and with intermittent noise were discarded.
A set of 26 allophones was selected to account for the Spanish sounds and clustered demiphones have been used as context dependent
sub-lexical units. Following the same methodology, a recognition system was trained from the Catalan SpeechDat database. Catalan
sounds were described with 32 allophones. Additionally, a bilingual recognition system was built for both the Spanish and Catalan
languages. By means of clustering techniques, the suitable set of allophones to cover simultaneously both languages was determined.
Thus, 33 allophones were selected. The training material was built by the whole Catalan training material and the Spanish material
coming from the Eastern region of Spain (the region where Catalan is spoken).
The performance of the Spanish, Catalan and bilingual systems were assessed under the same framework. The Spanish system exhibits
a significantly better performance than the rest of systems due to its better training. The bilingual system provides an equivalent
performance to that afforded by both language specific systems trained with the Eastern Spanish material or the Catalan SpeechDat
corpus.Peer ReviewedPostprint (published version
On the regularity of the covariance matrix of a discretized scalar field on the sphere
We present a comprehensive study of the regularity of the covariance matrix
of a discretized field on the sphere. In a particular situation, the rank of
the matrix depends on the number of pixels, the number of spherical harmonics,
the symmetries of the pixelization scheme and the presence of a mask. Taking
into account the above mentioned components, we provide analytical expressions
that constrain the rank of the matrix. They are obtained by expanding the
determinant of the covariance matrix as a sum of determinants of matrices made
up of spherical harmonics. We investigate these constraints for five different
pixelizations that have been used in the context of Cosmic Microwave Background
(CMB) data analysis: Cube, Icosahedron, Igloo, GLESP and HEALPix, finding that,
at least in the considered cases, the HEALPix pixelization tends to provide a
covariance matrix with a rank closer to the maximum expected theoretical value
than the other pixelizations. The effect of the propagation of numerical errors
in the regularity of the covariance matrix is also studied for different
computational precisions, as well as the effect of adding a certain level of
noise in order to regularize the matrix. In addition, we investigate the
application of the previous results to a particular example that requires the
inversion of the covariance matrix: the estimation of the CMB temperature power
spectrum through the Quadratic Maximum Likelihood algorithm. Finally, some
general considerations in order to achieve a regular covariance matrix are also
presented.Comment: 36 pages, 12 figures; minor changes in the text, matches published
versio
Radiation reaction cooling as a source of anisotropic momentum distributions with inverted populations
Under the presence of strong electromagnetic fields and radiation reaction,
plasmas develop anisotropic momentum distributions, characterized by a
population inversion. This is a general property of collisionless plasmas when
the radiation reaction force is taken into account. We study the case of a
plasma in a strong magnetic field and demonstrate the development of ring
momentum distributions. The timescales for ring formation are derived for this
configuration. The analytical results for the ring properties and the
timescales for ring formation are confirmed with particle-in-cell simulations.
The resulting momentum distributions are kinetically unstable and are known to
lead to coherent radiation emission in astrophysical plasmas and laboratory
setups.Comment: Accepted for publication in PRL. 8 pages, 4 figure
Cost-efficient Selective Network Caching in Large-Area Vehicular Networks using Multi-objective Heuristics
In the last decade the interest around network caching tech- niques has augmented notably for alleviating the ever-growing demand of resources by end users in mobile networks. This gained momentum stems from the fact that even though the overall volume of traffic re- trieved from Internet has increased at an exponential pace over the last years, several studies have unveiled that a large fraction of this traffic is usually accessed by multiple end users at nearby locations, i.e. content demands are often local and redundant across terminals close to each other, even in mobility. In this context this manuscript explores the ap- plication of multi-objective heuristics to optimally allocate cache profiles over urban scenarios with mobile receivers (e.g. vehicles). To this end we formulate two conflicting objectives: the utility of the cache allocation strategy, which roughly depends on the traffic offloaded from the net- work and the number of users demanding contents; and its cost, given by an cost per unit of stored data and the rate demanded by the cached profile. Simulations are performed and discussed over a realistic vehicu- lar scenario modeled over the city of Cologne (Germany), from which it is concluded that the proposed heuristic solver excels at finding caching solutions differently balancing the aforementioned objectives
Wetland restoration and nitrate reduction: the example of the periurban wetland of Vitoria-Gasteiz (Basque Country, North Spain)
Changes in land use and agricultural intensification caused wetlands on the quaternary aquifer of Vitoria-Gasteiz (Basque Country) to disappear some years ago and nitrate concentration in groundwaters increased very quickly. The Basque Government recently declared the East Sector of this aquifer a Vulnerable Zone according to the 91/676/CEE European Directive. Recently, the wetlands have been restored through the closure of the main drainage ditches, the consequent elevation of the water table and the abondonment of agricultural practices near the wetlands. This is the case of the Zurbano wetland. Restoration has allowed the recovery of its biogeochemical function, which has reduced nitrate concentrations in waters. Nitrate concentrations which exceed 50 mg l–1 in groundwaters entering into the wetland are less than 10 mg l–1 at the outlet. Conditions in the wetland are conducive to the loss of nitrates: organic matter rich wetted soils, clay presence allowing a local semiconfined flow and very low hydraulic gradient. Water quality monitoring at several points around the wetland showed the processes involved in nitrate loss, although some aspects still remain unresolved. However, during storm events, the wetland effectively reduces the nitrate concentration entering the Alegria River, the most important river on the quaternary aquifer
Real-time simulation of the struck piano string with geometrically exact nonlinearity via a scalar quadratic energy method
This work addresses the problem of the struck piano string. This system is highly nonlinear, and a sound representation of the energy balance is therefore necessary in any time stepping routine used in simulation, in order to preserve stability. Many algorithms have been developed in previous works. Among them, some present fully-implicit discretisations, which are only approachable using iterative root finders such as Newton-Raphson. Others are linearly-implicit, but not quite suited for real-time rendering. Here, a novel approach is presented, based on the idea of energy quadratisation. It will be shown that, when the nonlinearities are consolidated into a scalar auxiliary state function, the time stepping scheme presents a fast inversion formula. A C++ implementation of the proposed scheme yields indeed compute times below real-time, for typical strings
Real-time modal synthesis of nonlinearly interconnected networks
Modal methods are a long-established approach to physical modeling sound synthesis. Projecting the equation of motion of a linear, time-invariant system onto a basis of eigenfunctions yields a set of independent forced, lossy oscillators, which may be simulated efficiently and accurately by means of standard time-stepping methods. Extensions of modal techniques to nonlinear problems are possible, though often requiring the solution of densely coupled nonlinear time-dependent equations. Here, an application of recent results in numerical simulation design is employed, in which the nonlinear energy is first quadratised via a convenient auxiliary variable. The resulting equations may be updated in time explicitly, thus avoiding the need for expensive iterative solvers, dense linear system solutions, or matrix inversions. The case of a network of interconnected distributed elements is detailed, along with a real-time implementation as an audio plugin
An Analysis of Coalition-Competition Pricing Strategies for Multi-Operator Mobile Traffic Offloading using Bi-objective Heuristics
In a competitive market relationships between telecommuni- cations operators serving simultaneously over a certain geographical area are diverse and motivated by very different business strategies and goals. Such relationships ultimately yield distinct pricing portfolios depending on the contractual affiliation of the user being served. Furthermore a key role in the last decade is the concept of tethering (connection sharing) which, when controlled by the operator, may help alleviating the con- sumption of network resources in densely populated scenarios. In this work we investigate the application of bi-objective heuristics for the de- sign of Pareto-optimal network topologies leading to an optimal Pareto between the revenue of the incumbent operators in the scenario and the quality of service degradation experienced by the end users as a result of tethering. Based on computer simulation this work unveils that such a Pareto-optimal set of topologies is strongly determined by the market relationships between such operators
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