Extended Capability Models for Carbon Fiber Composite (CFC) Panels in the Unstructured Transmission Line Modeling (UTLM) Method

“…Particularly significant steps are highlighted as [30] and [34] as these have provided the robustness to scale and complexity demanded by installed antenna applications. Supporting evidence for the accuracy and multiscale capability of UTLM as well as its industrial deployment can be found in [27][28][29][30][31][32][33][34][35] which have primarily concerned EMC problems to date.…”

“…To undertake this study we apply, for the first time, the Transmission Line Modeling method using unstructured meshes (UTLM) [27][28][29][30][31][32][33][34][35] to the problem of installed antennas. Selection of this method proceeds from the well-known fact that unstructured meshes require notably fewer sample points to capture curved and multiscale geometries and if used intelligently in a hybrid fashion with Cartesian grids to model large empty space regions, this can be achieved without unduly compromising computational efficiency or with the complexity of bespoke sub-gridding techniques.…”

Holistic Appraisal of Modeling Installed Antennas for Aerospace Applications

“…Particularly significant steps are highlighted as [30] and [34] as these have provided the robustness to scale and complexity demanded by installed antenna applications. Supporting evidence for the accuracy and multiscale capability of UTLM as well as its industrial deployment can be found in [27][28][29][30][31][32][33][34][35] which have primarily concerned EMC problems to date.…”

“…To undertake this study we apply, for the first time, the Transmission Line Modeling method using unstructured meshes (UTLM) [27][28][29][30][31][32][33][34][35] to the problem of installed antennas. Selection of this method proceeds from the well-known fact that unstructured meshes require notably fewer sample points to capture curved and multiscale geometries and if used intelligently in a hybrid fashion with Cartesian grids to model large empty space regions, this can be achieved without unduly compromising computational efficiency or with the complexity of bespoke sub-gridding techniques.…”

Holistic Appraisal of Modeling Installed Antennas for Aerospace Applications

“…This has been thoroughly characterised and industrially deployed, e.g. [10][11][12][13]. Unstructured meshes offer both smoother material and geometrical boundary representations than their Cartesian counterparts.…”

Extracting modal field profiles from 3D unstructured transmission line modelling meshes for use as sources and observers

“…Finally, an important advancement in the development of the UTLM method is its ability to deal with multiscale features of practical problems by deploying complexity reduction techniques in which small computational cells are coalesced into larger entities to reduce both pre-processing time and run time [27]. The UTLM method is not discussed in detail in this paper and supporting evidence for the accuracy and multiscale capability of the method, as well as its industrial deployment can be found in [19,[24][25][26][27].…”

“…Being a time-domain method, the UTLM easily permits modeling of both linear, dispersive and nonlinear materials. Recent work has accounted for both electric and magnetic material losses [25], and the presence of carbon fiber panels as embedded thin film layers between the mesh cells [26]. Finally, an important advancement in the development of the UTLM method is its ability to deal with multiscale features of practical problems by deploying complexity reduction techniques in which small computational cells are coalesced into larger entities to reduce both pre-processing time and run time [27].…”

Impact of In Situ Radome Lightning Diverter Strips on Antenna Performance