Title :
Static and Dynamic Propagation-Channel Impairments in Reverberation Chambers
Author :
Remley, Kate A. ; Floris, Sander J. ; Shah, Haider A. ; Holloway, Christopher L.
Author_Institution :
Nat. Inst. of Stand. & Technol., Boulder, CO, USA
Abstract :
We study the separate and combined effects of static and dynamic multipath channels created in a reverberation chamber on bit-error-rate (BER) measurements of digitally modulated signals. We demonstrate measurement methods to identify individually sources of bit errors arising from a frequency selective channel and discuss why the speed of the mode-stirring paddle impacts the level of BER for certain modulated-signal data rates and bandwidths. An unloaded, high-Q reverberation chamber is studied in the 700 MHz frequency band to clearly illustrate both static and dynamic multipath effects. We describe a rigorous method for calculating the 95% confidence intervals of the measured BER and study the repeatability of the mode-stirring paddle. Our paper illustrates the importance of understanding the correct error bounds when identifying different sources of impairment.
Keywords :
error statistics; modulation; reverberation chambers; wireless channels; bit-error-rate measurement; digitally modulated signals; dynamic multipath channel; dynamic propagation-channel impairments; frequency 700 MHz; frequency selective channel; high-Q reverberation chamber; mode-stirring paddle; static multipath channel; static propagation-channel impairments; Antenna measurements; Bandwidth; Bit error rate; Coherence; Correlation; Receivers; Reverberation chamber; Bit error rate (BER); coherence bandwidth; digitally modulated signal; measurement; multipath; propagation channel; reverberation chamber; wireless system;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2010.2100823
