Search results for "LESS"

showing 10 items of 2452 documents

Wireless partial discharge tracking on cross-linked polyethylene MV and HV cables

2018

Medium voltage (MV)/high voltage (HV) cable lines are high-value assets and require substantial costs for their installation or replacement. For this reason, the capability to assess the condition of cable lengths and accessories on site is of great importance. Cross-linked polyethylene (XLPE) insulation is extensively used for MV, HV, and extra-high voltage (EHV) class cables [1] thanks to its excellent voltage-endurance and thermomechanical properties. In particular, XLPE-insulated cables feature substantially lower losses, easier manufacturing and jointing procedures, better environmental compatibility, and higher operating temperature compared with impregnated paper cables, which lead t…

Materials sciencecross-linked polyethylene insulation01 natural scienceschemistry.chemical_compoundOperating temperaturepower cable testing0103 physical sciencesWirelessPower cablefault locationElectrical and Electronic Engineeringcable insulation010302 applied physicsCross-linked polyethylenebusiness.industryElectronic Optical and Magnetic Material010401 analytical chemistryElectrical engineeringfault diagnosiHigh voltagePolyethylene0104 chemical sciencesElectronic Optical and Magnetic Materialspartial dischargechemistryPartial dischargebusinesspower cableVoltageIEEE Electrical Insulation Magazine
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Nanofabrication on 2D and 3D Topography via Positive‐Tone Direct‐Write Laser Lithography

2019

Direct laser writing (DLW) lithography using two‐photon absorption is a powerful technique mostly used for fabrication of complex structures in micro‐ and nanoscale, by photopolymerizing a negative‐tone resist. In contrast, in this study it is demonstrated that DLW is also well suited for fabricating nano‐ to microscale metallic structures using lift‐off and a positive‐tone photoresist. It is shown first that versatile, fast and large area fabrication is possible on flat two‐dimensional insulating substrates, and an expression for how the line width varies with the scanning speed is derived, with excellent agreement with the experiments. Even more interestingly, a unique application for the…

Materials sciencelift‐off nanofabricationbusiness.industrynanotekniikka02 engineering and technologytwo‐photon absorption010402 general chemistry021001 nanoscience & nanotechnologyCondensed Matter Physicslasertekniikka01 natural sciencesTwo-photon absorption3d topographydirect laser writing0104 chemical sciencesTone (musical instrument)NanolithographynanorakenteetOptoelectronicsGeneral Materials Science0210 nano-technologybusinessMaskless lithographypositive‐tone resistAdvanced Engineering Materials
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A numerical approach to Blow-up issues for dispersive perturbations of Burgers' equation

2014

We provide a detailed numerical study of various issues pertaining to the dynamics of the Burgers equation perturbed by a weak dispersive term: blow-up in finite time versus global existence, nature of the blow-up, existence for "long" times, and the decomposition of the initial data into solitary waves plus radiation. We numerically construct solitons for fractionary Korteweg-de Vries equations.

Mathematical analysisMathematics::Analysis of PDEsStatistical and Nonlinear PhysicsNumerical Analysis (math.NA)Condensed Matter PhysicsBurgers' equationDispersionless equationNonlinear Sciences::Exactly Solvable and Integrable SystemsMathematics - Analysis of PDEsFOS: MathematicsMathematics - Numerical AnalysisFinite timeNonlinear Sciences::Pattern Formation and SolitonsMathematicsAnalysis of PDEs (math.AP)
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An Iterative Method for Bifurcation-Free Resonant Inductive Power Transfer System Design

2021

The development of electric mobility makes the charging systems one of the main discussed topic. Among the different technologies, Resonant Inductive Power Transfer (RIPT) systems are in deep study. Several aspects, including the choice of coils, the compensation network and the bifurcation phenomenon are necessary for a proper design of the system. In this paper an iterative method for bifurcation-free RIPT system design is provided as a valid solution to the need of accurate models requiring low computational efforts.

Mathematical modelComputer sciencebusiness.industryIterative methodwireless chargingmodelingSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciCompensation (engineering)resonant inductive power transfer (RIPT)Electronic engineeringMaximum power transfer theoremWirelessSystems designBifurcationbusinessBifurcationVoltage2021 10th International Conference on Renewable Energy Research and Application (ICRERA)
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Field estimation in wireless sensor networks using distributed kriging

2012

In this paper, we tackle the problem of spatial interpolation for distributed estimation in Wireless Sensor Networks by using a geostatistical technique called kriging. We present a novel Distributed Iterative Kriging Algorithm (DIKA) which is composed of two main phases. First, the spatial dependence of the field is exploited by calculating semivariograms in an iterative way. Second, the kriging system of equations is solved by an initial set of nodes in a distributed manner, providing some initial interpolation weights to each node. In our algorithm, the estimation accuracy can be improved by iteratively adding new nodes and updating appropriately the weights, which leads to a reduction i…

Mathematical optimizationComputer scienceNode (networking)020206 networking & telecommunications02 engineering and technologySystem of linear equationsMultivariate interpolationReduction (complexity)Kriging0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingSpatial dependenceCluster analysisAlgorithmWireless sensor networkInterpolation2012 IEEE International Conference on Communications (ICC)
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Performance modeling of epidemic routing

2006

In this paper, we develop a rigorous, unified framework based on ordinary differential equations (ODEs) to study epidemic routing and its variations. These ODEs can be derived as limits of Markovian models under a natural scaling as the number of nodes increases. While an analytical study of Markovian models is quite complex and numerical solution impractical for large networks, the corresponding ODE models yield closed-form expressions for several performance metrics of interest, and a numerical solution complexity that does not increase with the number of nodes. Using this ODE approach, we investigate how resources such as buffer space and the number of copies made for a packet can be tra…

Mathematical optimizationComputingMethodologies_SIMULATIONANDMODELINGComputer Networks and CommunicationsDifferential equationComputer scienceWireless ad hoc networkNetwork packetNumerical analysisMathematicsofComputing_NUMERICALANALYSISOdeMarkov processMarkov modelsymbols.namesakeOrdinary differential equationMetric (mathematics)symbolsRouting (electronic design automation)ScalingSimulation
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Dealing with uncertainty in consensus protocols

2009

Recent results on consensus protocols for networks are presented. The basic tools and the main contribution available in the literature are considered, together with some of the related challenging aspects: estimation in networks and how to deal with disturbances is considered. Motivated by applications to sensor, peer-to-peer, and ad hoc networks, many papers have considered the problem of estimation in a consensus fashion. Here, the Unknown But Bounded (UBB) noise affecting the network is addressed in details. Because of the presence of UBB disturbances convergence to equilibria with all equal components is, in general, not possible. The solution of the e-consensus problem, where the stat…

Mathematical optimizationConsensusWireless ad hoc networkComputer scienceDistributed computingBounded functionConvergence (routing)Consensus protocol; optimizazion; disturbancesNoise (video)Laplacian matrixFocus (optics)Uniform consensus
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A multi-sphere particle numerical model for non-invasive investigations of neuronal human brain activity

2013

In this paper, a multi-sphere particle method is built- up in order to estimate the solution of the Poisson's equation with Neumann boundary conditions describing the neuronal human brain activity. The partial difierential equations governing the relationships between neural current sources and the data produced by neuroimaging technique, are able to compute the scalp potential and magnetic fleld distributions generated by the neural activity. A numerical approach is proposed with current dipoles as current sources and going on in the computation by avoiding the mesh construction. The current dipoles are into an homogeneous spherical domain modeling the head and the computational approach i…

Mathematical optimizationCurrent (mathematics)Quantitative Biology::Neurons and CognitionComputer scienceComputationNon invasiveMathematical analysisDomain modelPoisson distributionElectronic Optical and Magnetic MaterialsDipolesymbols.namesakeBio-magnetic fields Human brain activity meshless numerical methodSettore ING-IND/31 - ElettrotecnicaNeumann boundary conditionsymbolsParticle
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Best compromise solution for a new multiobjective scheduling problem

2006

In future wireless networks, a mobile terminal will be able to communicate with a service provider using several network connections. These connections to networks will have different properties and they will be priced separately. In order to minimize the total communication time and the total transmission costs, an automatic method for selecting the network connections is needed. Here, we describe the network connection selection problem and formulate it mathematically. We discuss solving the problem and analyse different multiobjective optimization approaches for it.

Mathematical optimizationGeneral Computer ScienceJob shop schedulingWireless networkComputer scienceModeling and SimulationManagement Science and Operations ResearchService providerTransmission timeMulti-objective optimizationTelecommunications networkAssignment problemScheduling (computing)Computers & Operations Research
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On the approximability of the range assignment problem on radio networks in presence of selfish agents

2005

AbstractWe consider the range assignment problem in ad-hoc wireless networks in the context of selfish agents: A network manager aims to assigning transmission ranges to the stations in order to achieve strong connectivity of the network within a minimal overall power consumption. Station is not directly controlled by the manager and may refuse to transmit with a certain transmission range because it might be costly in terms of power consumption.We investigate the existence of payment schemes which induce the stations to follow the decisions of a network manager in computing a range assignment, that is, truthful mechanisms for the range assignment problem. We provide both positive and negat…

Mathematical optimizationGeneral Computer ScienceSettore INF/01 - Informaticabusiness.industryWireless networkApproximation algorithmContext (language use)Approximation algorithmsTheoretical Computer ScienceNetwork managementAlgorithmic mechanism design; Energy consumption in wireless networks; Approximation algorithmsEnergy consumption in wireless networksalgorithmic mechanism design; approximation algorithms; energy consumption in wireless networksbusinessTime complexityAssignment problemAlgorithmConnectivityAlgorithmic mechanism designAlgorithmic mechanism designMathematicsComputer Science(all)Theoretical Computer Science
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