0000000000406719

AUTHOR

Jesús Fornieles

showing 3 related works from this author

TLM Nodes: A New Look at an Old Problem

2015

In this paper, an alternative perspective on the transmission line modeling (TLM) method concepts to unify previous work is presented. The procedure begins by discretizing Maxwell’s equations and proposing TLM equivalent models. Node voltage and mesh current definitions are provided in terms of link line contributions, compatible with stub currents and voltages. They allow obtaining an expression that relates incident and reflected pulses with no other condition required. With this unified approach, modeling of other situations is straightforward. 2-D cases, source implementation, and anisotropic media are described and numerically tested.

RadiationDiscretizationTransmission lineComputer scienceElectronic engineeringNumerical modelsElectrical and Electronic EngineeringCondensed Matter PhysicsTopologyCapacitanceStub (electronics)VoltageIEEE Transactions on Microwave Theory and Techniques
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Design & Optimization of Large Cylindrical Radomes with Subcell and Non-Orthogonal FDTD Meshes Combined with Genetic Algorithms

2021

The word radome is a contraction of radar and dome. The function of radomes is to protect antennas from atmospheric agents. Radomes are closed structures that protect the antennas from environmental factors such as wind, rain, ice, sand, and ultraviolet rays, among others. The radomes are passive structures that introduce return losses, and whose proper design would relax the requirement of complex front-end elements such as amplifiers. The radome consists mostly in a thin dielectric curved shape cover and sometimes needs to be tuned using metal inserts to cancel the capacitive performance of the dielectric. Radomes are in the near field region of the antennas and a full wave analysis of th…

TK7800-8360Computer Networks and CommunicationsCapacitive sensingAcousticsFDTDNear and far fieldRadiation patternlaw.inventionsub-cell featureslawRadomesElectrical and Electronic EngineeringCurvilinear coordinatesPhysicsOnes electromagnètiquesCurvilinear coordinatesGenetic Algorithmcurvilinear coordinatesGenetic AlgorithmsFinite-difference time-domain methodRadomeradomesHardware and ArchitectureControl and Systems EngineeringSignal ProcessingReturn lossAntenes (Electrònica)Antenna (radio)ElectronicsSub-cell featuresElectronics
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A New Approach to the Modeling of Anisotropic Media with the Transmission Line Matrix Method

2021

A reformulation of the Transmission Line Matrix (TLM) method is presented to model non-dispersive anisotropic media. Two TLM-based solutions to solve this problem can already be found in the literature, each one with an interesting feature. One can be considered a more conceptual approach, close to the TLM fundamentals, which identifies each TLM in Maxwell’s equations with a specific line. But this simplicity is achieved at the expense of an increase in the memory storage requirements of a general situation. The second existing solution is a more powerful and general formulation that avoids this increase in memory storage. However, it is based on signal processing techniques and considerabl…

TK7800-8360Computer Networks and CommunicationsComputer scienceDiagonalTransmission-line matrix methodComputer Science::Hardware ArchitectureMatrix (mathematics)Transmission lineComponent (UML)Anisotropic mediaElectrical and Electronic EngineeringOnes electromagnètiquesSignal processingElectromagnetisme Mesuramentslow-frequency numerical methodsLow-frequency numerical methodsStub (electronics)Hardware and ArchitectureControl and Systems EngineeringSignal ProcessingLine (geometry)TLM methodElectronicsanisotropic mediaAlgorithmElectronics
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