Search results for "Operating system"

showing 10 items of 134 documents

Weighted Evaluation Framework for Cross-Platform App Development Approaches

2016

Cross-platform app development is very challenging, although only two platforms with significant market share (iOS and Android) remain. While device fragmentation – multiple, only partly compatible versions of a platform – has been complicating matters already, the need to target different device classes is a new emergence. Smartphones and tablets are relatively similar but app-enabled devices such as TVs and even cars typically have differing capabilities. To facilitate usage of cross-platform app development approaches, we present work on an evaluation framework. Our framework provides a set of up-to-date evaluation criteria. Unlike prior work on this topic, it offers weighted assessment …

Native appsComputer science020204 information systemsCross-platform0202 electrical engineering electronic engineering information engineeringMobile computing020207 software engineering02 engineering and technologyAndroid (operating system)Market shareData scienceMulti platform
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Order and Chaos in the Statistical Mechanics of the Integrable Models in 1+1 Dimensions

1991

This paper was presented at the meeting under this title. But, originally, the more cumbersome ‘Quantum chaos — classical chaos in k-space: thermodynamic limits for the sine-Gordon models’ was proposed. Certainly this covers more technically the content of this paper.

Nonlinear Sciences::Chaotic DynamicsCHAOS (operating system)Classical mechanicsComputingMilieux_THECOMPUTINGPROFESSIONComputerSystemsOrganization_COMPUTERSYSTEMIMPLEMENTATIONIntegrable systemHeat bathThermodynamic limitOrder (ring theory)Statistical physicsStatistical mechanicsQuantum chaosMathematics
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Constructing adaptive generalized polynomial chaos method to measure the uncertainty in continuous models: A computational approach

2015

Due to errors in measurements and inherent variability in the quantities of interest, models based on random differential equations give more realistic results than their deterministic counterpart. The generalized polynomial chaos (gPC) is a powerful technique used to approximate the solution of these equations when the random inputs follow standard probability distributions. But in many cases these random inputs do not have a standard probability distribution. In this paper, we present a step-by-step constructive methodology to implement directly a useful version of adaptive gPC for arbitrary distributions, extending the applicability of the gPC. The paper mainly focuses on the computation…

Numerical AnalysisMathematical optimizationPolynomial chaosGeneral Computer ScienceDifferential equationApplied MathematicsComputingConstructiveMeasure (mathematics)Theoretical Computer ScienceCHAOS (operating system)Generalized polynomialRandom differential equationsModeling and SimulationConvergence (routing)Applied mathematicsProbability distributionMATEMATICA APLICADAAdaptive polynomial chaosMathematics
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Towards a software-defined Network Operating System for the IoT

2015

The heterogeneity characterizing the Internet of Things (IoT) landscape can be addressed by leveraging network operating systems (NOS)s. Current NOS solutions have been developed for traditional infrastructured networks: they do not take the specific features of fundamental IoT components such as wireless sensor and actuator networks into account. Accordingly, in this paper an innovative integrated network operating system for the IoT which is obtained as the evolution of the Open Network Operating System (ONOS) is proposed. This has been appropriately extended to enhance the recently proposed SDN-WISE platform for supporting SDN in wireless sensor networks and let it interact with standard…

OpenFlowIoTbusiness.industryWireless networkComputer scienceDistributed computingSoftware-defined networking; IoT; Network Operating Systemcomputer.software_genreNetwork operating systemKey distribution in wireless sensor networksOperating systemWirelessSoftware-defined networkingbusinessSoftware-defined networkingcomputerWireless sensor networkHeterogeneous networkNetwork Operating SystemComputer network
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Toward Unified Control of Networks of Switches and Sensors Through a Network Operating System

2018

Wireless sensor networks (WSNs) are an integral part of an Internet of Things (IoT) ecosystem. In fact, a typical IoT service deployment considers an integrated network of switches and sensors (as well as actuators). In order to manage this heterogeneous network infrastructure, the use of software defined networking (SDN) technologies is anticipated. However, existing SDN-enabling technologies consider only isolated networks and there has been no concrete solution that treats the whole network in a unified way. In this paper, a network operating system is proposed as a way to address the above issue. Starting from the open network operating system, which currently supports only OpenFlow net…

OpenFlowService (systems architecture)Computer Networks and Communicationsbusiness.industryComputer scienceInternet of Things020206 networking & telecommunications02 engineering and technologyNetwork operating systemEcosystemsWireless sensor networksComputer Science ApplicationsSoftwareHardware and ArchitectureSoftware deploymentSignal Processing0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingbusinessSoftware-defined networkingWireless sensor networkHeterogeneous networkInformation SystemsComputer network
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Identification of a Hammerstein model for DC/DC converters operating in CCM

2005

This paper deals with a method for identification of a Hammerstein model of DC-DC converters operating in continuous conduction mode (CCM). This model has the duty cycle and the output voltage as input and output, respectively; it consists of a static nonlinearity and a linear and time-invariant model. The aim of the modeling the system by means of a Hammerstein model is due to its capability of describing the converter in a range of steady-state operating points instead of a desired well defined operating point as occurs for the small-signal models which are the more common mathematical description to approach the study of the converters themselves. The nonlinear characteristic of the Hamm…

Operating pointEngineeringbusiness.industryLinear modelSteady-state operating systemConvertersContinuous conduction mode (CCM)Nonlinear systemSettore ING-INF/04 - AutomaticaDuty cycleControl theoryTransient responseTransient (oscillation)businessHammerstein modelPulse-width modulation
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Identification of Distributed Systems with Logical Interaction Structure

2012

This paper focuses on the structure identification problem for a class of networked systems, where the interaction among components or agents is described through logical maps. In particular, agents are heterogeneous cooperating systems, i.e. they may have different individual dynamics and different interaction rules depending on input events. While we assume that the individual agents' dynamics are known, each agent has partial knowledge of the logical map encoding the interaction of another agent with its neighbors. Based on the so-called algebraic normal form for binary functions, we present a technique by which the network structure described by a logical function can be dynamically est…

Partial knowledgeTheoretical computer scienceInteraction ruleDistributed computingBinary numberClass (philosophy)Individual dynamicAlgebraic normal formLogical functionAlgebraic normal forms; Binary functions; Cooperating systems; Distributed systems; Individual agent; Individual dynamics; Interaction rules; Interaction structures; Logical functions; Logical maps; Lower approximation; Network structures; Networked systems; Partial knowledge; Real systems; Structure identification; Truth tablesBinary functionSettore ING-INF/04 - AutomaticaLogical mapMathematicsCooperating systemStructure (mathematical logic)Networked systemStructure identificationTruth tablesTruth tableMobile robotReal systemParameter identification problemAlgebraic normal formIdentification (information)Lower approximationInteraction structureIndividual agentDistributed systemNetwork structure
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Manipulating antiferromagnets with magnetic fields: Ratchet motion of multiple domain walls induced by asymmetric field pulses

2016

Future applications of antiferromagnets (AFs) in many spintronics devices rely on the precise manipulation of domain walls. The conventional approach using static magnetic fields is inefficient due to the low susceptibility of AFs. Recently proposed electrical manipulation with spin-orbit torques is restricted to metals with a specific crystal structure. Here we propose an alternative, broadly applicable approach: using asymmetric magnetic field pulses to induce controlled ratchet motion of AF domain walls. The efficiency of this approach is based on three peculiarities of AF dynamics. First, a time-dependent magnetic field couples with an AF order parameter stronger than a static magnetic …

PhysicsCondensed Matter - Materials SciencePhysics and Astronomy (miscellaneous)SpintronicsField (physics)RatchetDynamics (mechanics)Materials Science (cond-mat.mtrl-sci)FOS: Physical sciences02 engineering and technology021001 nanoscience & nanotechnologyRatchet effectMagnetostatics01 natural sciencesMagnetic fieldDomain (software engineering)Classical mechanics0103 physical sciences010306 general physics0210 nano-technologyComputer Science::Operating SystemsApplied Physics Letters
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Nonlocal energy density functionals for low-energy nuclear structure

2014

We introduce a finite-range pseudopotential built as an expansion in derivatives up to next-to-next-to-next-to-leading order (N$^3$LO) and we calculate the corresponding nonlocal energy density functional (EDF). The coupling constants of the nonlocal EDF, for both finite nuclei and infinite nuclear matter, are expressed through the parameters of the pseudopotential. All central, spin-orbit, and tensor terms of the pseudopotential are derived both in the spherical-tensor and Cartesian representation. At next-to-leading order (NLO), we also derive relations between the nonlocal EDF expressed in the spherical-tensor and Cartesian formalism. Finally, a simplified version of the finite-range pse…

PhysicsCoupling constantNuclear and High Energy PhysicsEnergy density functionalNuclear Theory[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]Nuclear structureFOS: Physical sciencesNuclear matterlaw.inventionPseudopotentialNuclear Theory (nucl-th)Low energylawEnergy densityCartesian coordinate systemComputer Science::Operating SystemsMathematical physics
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Evolution of the electron distribution function in intense laser-plasma interactions

1994

We report a numerical investigation of the time evolution of the electron distribution function (EDF) in a laser-embedded, fully ionized plasma. A distinctive feature of the calculations is removal of the frequently adopted assumption of small anisotropy of the EDF in velocity space. This requires solving a two-dimensional partial differential equation for the EDF. Within the adopted range of parameters, the EDF undergoes significant changes. An initially isotropic EDF transforms rapidly into an anisotropic one characterized by a longitudinal velocity scale larger than the perpendicular one. This longitudinal stretching persists for several cycles of the radiation field, implying the establ…

PhysicsRange (particle radiation)Partial differential equationIonizationIsotropyTime evolutionPerpendicularPlasmaAtomic physicsAnisotropyComputer Science::Operating SystemsPhysical Review E
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