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This study explores the effects of ultra-wide-band antennas on communication systems in a spatial channel. It investigates the mathematical framework of UWB system models, analyzes the impact of antennas on the spatial channel, and presents simulation results. The paper also discusses future work in UWB systems, including diversity enhancement and coupling effects among antennas.
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Impact of Ultra Wide-Band Antennas onCommunications in a Spatial Channel Mohamed El-Hadidy & Thomas Kaiser University of Duisburg-Essen Faculty of Engineering, Department of Communication Systems, Bismarckstr. 81, 47057 Duisburg, Germany Email: el-hadidy@nts.uni-due.de
Mathematical frame of UWB system model How the whole chain of the UWB transmisson modeled, including the antennas‘ effects? Omni-directional or Directionl antennas? Impact of antennas on the spatial channel and some simulation results. Future work Outline
Complete UWB Chain Ant_Tx Ant_Rx Channel Tx Rx IEEE Ray Tracing Directional Omni-Directional
Complete UWB Chain Ant_Tx Ant_Rx Channel Tx Rx * *
HFSS Radiation Pattern of Horn Antenna Freq = 6.5 GHz
HFSS Gain in dB from Radiation Pattern Freq = 3 GHz
HFSS Gain in dB from Radiation Pattern Freq = 3.5 GHz
HFSS Gain in dB from Radiation Pattern Freq = 4 GHz
HFSS Gain in dB from Radiation Pattern Freq = 4.5 GHz
HFSS Gain in dB from Radiation Pattern Freq = 5 GHz
HFSS Gain in dB from Radiation Pattern Freq = 5.5 GHz
HFSS Gain in dB from Radiation Pattern Freq = 6 GHz
HFSS Gain in dB from Radiation Pattern Freq = 6.5 GHz
HFSS Gain in dB from Radiation Pattern Freq = 7 GHz
HFSS Gain in dB from Radiation Pattern Freq = 7.5 GHz
HFSS Gain in dB from Radiation Pattern Freq = 8 GHz
HFSS Gain in dB from Radiation Pattern Freq = 8.5 GHz
HFSS Gain in dB from Radiation Pattern Freq = 9 GHz
HFSS Gain in dB from Radiation Pattern Freq = 9.5 GHz
HFSS Gain in dB from Radiation Pattern Freq = 10 GHz
Bowtie Antenna Antenna radiation pattern
Ideal Omni-Directional Directional Rotating Tx & Rx by 90° Rotating Tx by 90° Overall Channel Impulse Response
Future Work • Investigating the diversity added to the UWB MIMO system using the antennas’ impact (e.g. using different types of antennas, rotating the antennas, etc.) • Investigating the coupling effect appearing among the neighbouring antennas either at transmit or receive sides for UWB MIMO system. • Embedding the whole antenna properties which is angular and frequency dependent into the system like polarization and input impedance, etc.