Simulation of the doppler signals at 24 GHz from a walking person

C. Homsteiner; J. Detlefsen

doi:10.1109/GEMIC.2009.4815875

Simulation of the doppler signals at 24 GHz from a walking person

C. Homsteiner, J. Detlefsen

Associate Professorship of High Frequency Fields and Circuits (2008 — 2018)

Technical University of Munich

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

For the simulation of the Doppler signals the ge- ometry of a walking person is determined for discretized time steps fulfilling the Nyquist theorem. For each time step a field simulation with the physical optics (P0) and the geometrical optics (GO) approximation is done. Both approaches are based on a neglect of multiple reflections on the scattering object. After simulation the time varying field is displayed in time-frequency domain. For the PO-approximation only the total scattered field can be evaluated. With GO-approximation the path for different scattering points can be extracted and evaluated individually. Although both approaches give comparable results, the extraction of scattering centers gives a much better insight to the physical phenomena of scattering in the high frequency case.

Original language	English
Title of host publication	German Microwave Conference, GeMIC 2009
DOIs	https://doi.org/10.1109/GEMIC.2009.4815875
State	Published - 2009
Event	German Microwave Conference, GeMIC 2009 - Munich, Germany Duration: 16 Mar 2009 → 18 Mar 2009

Publication series

Name	German Microwave Conference, GeMIC 2009

Conference

Conference	German Microwave Conference, GeMIC 2009
Country/Territory	Germany
City	Munich
Period	16/03/09 → 18/03/09

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10.1109/GEMIC.2009.4815875

Cite this

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abstract = "For the simulation of the Doppler signals the ge- ometry of a walking person is determined for discretized time steps fulfilling the Nyquist theorem. For each time step a field simulation with the physical optics (P0) and the geometrical optics (GO) approximation is done. Both approaches are based on a neglect of multiple reflections on the scattering object. After simulation the time varying field is displayed in time-frequency domain. For the PO-approximation only the total scattered field can be evaluated. With GO-approximation the path for different scattering points can be extracted and evaluated individually. Although both approaches give comparable results, the extraction of scattering centers gives a much better insight to the physical phenomena of scattering in the high frequency case.",

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language = "English",

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AB - For the simulation of the Doppler signals the ge- ometry of a walking person is determined for discretized time steps fulfilling the Nyquist theorem. For each time step a field simulation with the physical optics (P0) and the geometrical optics (GO) approximation is done. Both approaches are based on a neglect of multiple reflections on the scattering object. After simulation the time varying field is displayed in time-frequency domain. For the PO-approximation only the total scattered field can be evaluated. With GO-approximation the path for different scattering points can be extracted and evaluated individually. Although both approaches give comparable results, the extraction of scattering centers gives a much better insight to the physical phenomena of scattering in the high frequency case.

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SN - 9783981266801

T3 - German Microwave Conference, GeMIC 2009

BT - German Microwave Conference, GeMIC 2009

T2 - German Microwave Conference, GeMIC 2009

Y2 - 16 March 2009 through 18 March 2009

ER -

Simulation of the doppler signals at 24 GHz from a walking person

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