Transmission Line Matrix (method)
GPTKB entity
Statements (83)
Predicate | Object |
---|---|
gptkbp:instanceOf |
gptkb:logic
|
gptkbp:alsoKnownAs |
TLM method
|
gptkbp:appliesTo |
antenna design
microwave engineering photonic devices electromagnetic compatibility analysis |
gptkbp:developedBy |
Peter B. Johns
|
gptkbp:feature |
can model wave propagation in communication systems
can model wave propagation in renewable energy systems can model wave propagation in industrial control systems can model EMC/EMI problems can model PCB structures can model SAR (specific absorption rate) can model anisotropic materials can model biological tissues can model electromagnetic pulses can model inhomogeneous materials can model lightning effects can model lumped elements can model metamaterials can model microstrip circuits can model nonlinear materials can model open boundaries can model periodic boundaries can model photonic crystals can model radar cross section can model resonators can model scattering problems can model shielding effectiveness can model thin wires can model transmission lines can model wave propagation in IoT devices can model wave propagation in aerospace systems can model wave propagation in aircraft can model wave propagation in automation systems can model wave propagation in automotive systems can model wave propagation in battery systems can model wave propagation in buildings can model wave propagation in charging stations can model wave propagation in consumer electronics can model wave propagation in defense systems can model wave propagation in electric vehicles can model wave propagation in energy systems can model wave propagation in fuel cells can model wave propagation in grid infrastructure can model wave propagation in implantable devices can model wave propagation in industrial equipment can model wave propagation in marine systems can model wave propagation in medical devices can model wave propagation in power electronics can model wave propagation in power systems can model wave propagation in railway systems can model wave propagation in robotics can model wave propagation in satellites can model wave propagation in ships can model wave propagation in smart grids can model wave propagation in solar panels can model wave propagation in substations can model wave propagation in transmission lines can model wave propagation in tunnels can model wave propagation in vehicles can model wave propagation in wearable devices can model wave propagation in wind turbines can model waveguides can model wireless propagation handles lossy and dispersive media models electromagnetic wave propagation parallelizable algorithm can model wave propagation in distribution networks suitable for complex geometries uses scattering at nodes |
gptkbp:firstPublished |
1971
|
gptkbp:form |
transmission line theory
|
https://www.w3.org/2000/01/rdf-schema#label |
Transmission Line Matrix (method)
|
gptkbp:relatedTo |
computational electromagnetics
finite-difference time-domain method |
gptkbp:simulationType |
time-domain
discrete grid |
gptkbp:usedFor |
solving Maxwell's equations
electromagnetic field simulation time-domain analysis |
gptkbp:bfsParent |
gptkb:TLM
|
gptkbp:bfsLayer |
7
|