Modelling Polarimetric Power Delay Spectrum for Indoor Wireless Channels via Propagation Graph Formalism

Publikation: Konferencebidrag uden forlag/tidsskriftPaper uden forlag/tidsskriftForskning

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Resumé

This paper presents approximate expressions
for polarimetric power delay spectrum and cross-polar
power ratio via propagation graph modelling formalism.
The expressions are derived considering average signal
propagation in a graph. The models relate co- and crosspolar
power and the power ratio to model parameters
(number of scatterers, probability of visibility, reflection
gain and polarization coupling parameter) thereby providing
a useful approach to investigate the averaged effect
of these parameters on the channel statistics. Simulation
results show statistics obtained using the mo
OriginalsprogEngelsk
Publikationsdato2018
Antal sider3
StatusUdgivet - 2018
BegivenhedIRACON 7th MC meeting and 7th technical meeting - Cartagena, Cartagena, Spanien
Varighed: 30 maj 20181 jun. 2018

Konference

KonferenceIRACON 7th MC meeting and 7th technical meeting
LokationCartagena
LandSpanien
ByCartagena
Periode30/05/201801/06/2018

Fingerprint

Statistics
Visibility
Polarization

Citer dette

Adeogun, R., & Pedersen, T. (2018). Modelling Polarimetric Power Delay Spectrum for Indoor Wireless Channels via Propagation Graph Formalism. Afhandling præsenteret på IRACON 7th MC meeting and 7th technical meeting, Cartagena, Spanien.
Adeogun, Ramoni ; Pedersen, Troels. / Modelling Polarimetric Power Delay Spectrum for Indoor Wireless Channels via Propagation Graph Formalism. Afhandling præsenteret på IRACON 7th MC meeting and 7th technical meeting, Cartagena, Spanien.3 s.
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abstract = "This paper presents approximate expressionsfor polarimetric power delay spectrum and cross-polarpower ratio via propagation graph modelling formalism.The expressions are derived considering average signalpropagation in a graph. The models relate co- and crosspolarpower and the power ratio to model parameters(number of scatterers, probability of visibility, reflectiongain and polarization coupling parameter) thereby providinga useful approach to investigate the averaged effectof these parameters on the channel statistics. Simulationresults show statistics obtained using the mo",
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Modelling Polarimetric Power Delay Spectrum for Indoor Wireless Channels via Propagation Graph Formalism. / Adeogun, Ramoni; Pedersen, Troels.

2018. Afhandling præsenteret på IRACON 7th MC meeting and 7th technical meeting, Cartagena, Spanien.

Publikation: Konferencebidrag uden forlag/tidsskriftPaper uden forlag/tidsskriftForskning

TY - CONF

T1 - Modelling Polarimetric Power Delay Spectrum for Indoor Wireless Channels via Propagation Graph Formalism

AU - Adeogun, Ramoni

AU - Pedersen, Troels

PY - 2018

Y1 - 2018

N2 - This paper presents approximate expressionsfor polarimetric power delay spectrum and cross-polarpower ratio via propagation graph modelling formalism.The expressions are derived considering average signalpropagation in a graph. The models relate co- and crosspolarpower and the power ratio to model parameters(number of scatterers, probability of visibility, reflectiongain and polarization coupling parameter) thereby providinga useful approach to investigate the averaged effectof these parameters on the channel statistics. Simulationresults show statistics obtained using the mo

AB - This paper presents approximate expressionsfor polarimetric power delay spectrum and cross-polarpower ratio via propagation graph modelling formalism.The expressions are derived considering average signalpropagation in a graph. The models relate co- and crosspolarpower and the power ratio to model parameters(number of scatterers, probability of visibility, reflectiongain and polarization coupling parameter) thereby providinga useful approach to investigate the averaged effectof these parameters on the channel statistics. Simulationresults show statistics obtained using the mo

M3 - Paper without publisher/journal

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Adeogun R, Pedersen T. Modelling Polarimetric Power Delay Spectrum for Indoor Wireless Channels via Propagation Graph Formalism. 2018. Afhandling præsenteret på IRACON 7th MC meeting and 7th technical meeting, Cartagena, Spanien.