J. Thornton scite author profile

Abstract-In a wireless communications network served by a high altitude platform (HAP) the cochannel interference is a function of the antenna beamwidth, angular separation and sidelobe level. At the millimeter wave frequencies proposed for HAPs, an array of aperture type antennas on the platform is a practicable solution for serving the cells. We present a method for predicting cochannel interference based on curve-fit approximations for radiation patterns of elliptic beams which illuminate cell edges with optimum power, and a means of estimating optimum beamwidths for each cell of a regular hexagonal layout. The method is then applied to a 121 cell architecture. Where sidelobes are modeled as a flat floor at 40-dB below peak directivity, a cell cluster size of four yields carrier-to-interference ratios (CIRs), which vary from 15 dB at cell edges to 27 dB at cell centers. On adopting a cluster size of seven, these figures increase, respectively, to 19 and 30 dB. On reducing the sidelobe level, the improvement in CIR can be quantified. The method also readily allows for regions of overlapping channel coverage to be shown.Index Terms-Antenna sidelobes, cellular communications network, cochannel interference, elliptic beams, frequency reuse, high altitude platforms (HAP), microwave antenna array.

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Broadband communications from a high-altitude platform: the European HeliNet programme

Thornton¹,

Grace²,

Spillard³

et al. 2001

125

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Improving the system capacity of broadband services using multiple high-altitude platforms

Grace

Thornton

Chen

et al. 2005

IEEE Trans. Wireless Commun.

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Wide-scanning multi-layer hemisphere lens antenna for Ka band

Thornton

2006

IEE Proc., Microw. Antennas Propag.

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Effects of self-heating on planar heterostructure barrier varactor diodes

Stake

Dillner

Jones

et al. 1998

IEEE Trans. Electron Devices

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The conversion efficiency for planar Al0:7GaAs/ GaAs heterostructure barrier varactor triplers is shown to be reduced from a theoretical efficiency of 10% to 3% due to selfheating. The reduction is in accordance with measurements on planar Al0:7GaAs/GaAs heterostructure barrier varactor (HBV) triplers to 261 GHz at room temperature and with low temperature tripler measurements to 255 GHz. The delivered maximum output power at 261 GHz is 2.0 mW. Future HBV designs should carefully consider and reduce the device thermal resistance and parasitic series resistance. Optimization of the RF circuit for a 10-m diameter device yielded a delivered output power of 3.6 mW (2.5% conversion efficiency) at 234 GHz.

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J. Thornton

Optimizing an array of antennas for cellular coverage from a high altitude platform

Broadband communications from a high-altitude platform: the European HeliNet programme

Improving the system capacity of broadband services using multiple high-altitude platforms

Wide-scanning multi-layer hemisphere lens antenna for Ka band

Effects of self-heating on planar heterostructure barrier varactor diodes

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