This paper proposes an efficient method to estimate interference between antennas on large platforms. Due to the large size of the platform, calculation of interference between antennas on large platforms is time cons...
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ISBN:
(纸本)9781509014415
This paper proposes an efficient method to estimate interference between antennas on large platforms. Due to the large size of the platform, calculation of interference between antennas on large platforms is time consuming even using a fast integral equation method like the multi-level fast multi-pole method (MLFMM).After analyzing coupling mechanisms, it is found that interference between antennas is mainly affected by a small portion of the large platform. Based on this observation, the large platform is truncated to save computational effort. The truncation model is then analyzed by MLFMM. Simulation results are presented to illustrate the effectiveness of the proposed method.
We present a computationally efficient general Hybrid Spectral Ray Tracing (HSRT) method that requires one spectral domain integration step for each observation point. The HSRT method is capable of modeling arbitrary ...
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ISBN:
(纸本)9781424495610
We present a computationally efficient general Hybrid Spectral Ray Tracing (HSRT) method that requires one spectral domain integration step for each observation point. The HSRT method is capable of modeling arbitrary three-dimensional dielectric and metallic structures. As an example, the HSRT method is applied to on-chip dipole antenna backed by Silicon lens and integrated with a 180-GHz VCO in SiGe:C BiCMOS technology. We compare and validate the HSRT method for different reflection orders with measurements.
We present a computationally efficient general Hybrid Spectral Ray Tracing (HSRT) method that requires one spectral domain integration step for each observation point. The HSRT method is capable of modeling arbitrary ...
详细信息
ISBN:
(纸本)9781424495627;9781424495634
We present a computationally efficient general Hybrid Spectral Ray Tracing (HSRT) method that requires one spectral domain integration step for each observation point. The HSRT method is capable of modeling arbitrary three-dimensional dielectric and metallic structures. As an example, the HSRT method is applied to on-chip dipole antenna backed by Silicon lens and integrated with a 180-GHz VCO in SiGe:C BiCMOS technology. We compare and validate the HSRT method for different reflection orders with measurements.
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