INTELLIGENT BACKHAUL RADIO AND ANTENNA SYSTEM
First Claim
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1. An intelligent backhaul radio comprising:
- a directional transmit antenna array, for simultaneously transmitting a plurality of transmit symbol streams to a target radio, said directional transmit antenna array comprising a plurality of transmit antenna sub-arrays, wherein each of said plurality of transmit antenna sub-arrays comprise a plurality of transmit antenna elements;
a plurality of directional receive antenna arrays, for simultaneously receiving a plurality of receive RF signals comprising a plurality of receive symbol streams from the target radio, wherein each of said plurality of directional receive antenna arrays comprise a plurality of receive antenna sub-arrays, wherein each of said plurality of receive antenna sub-arrays comprise a plurality of receive antenna elements,wherein each of said receive antenna sub-arrays has a normalized antenna pattern similar to the normalized antenna pattern of each of the transmit antenna sub-arrays in elevation and narrower than the normalized antenna pattern of each of the transmit antenna sub-arrays in azimuth,and wherein each of the plurality of directional receive antenna arrays are positioned physically offset from said directional transmit antenna array, and distributed in azimuthal orientation such that the aggregate normalized azimuthal antenna patterns of the plurality of receive antenna sub-arrays in composite is equal to or greater than the normalized antenna pattern of each of the transmit antenna sub-arrays in azimuth;
one or more demodulator cores, wherein each demodulator core demodulates one or more of said plurality of receive symbol streams to produce a respective receive data interface stream;
a plurality of receive RF chains to convert the plurality of receive RF signals to a plurality of respective receive chain output signals;
a frequency selective receive path channel multiplexer between the one or more demodulator cores and the plurality of receive RF chains, the frequency selective receive path channel multiplexer to generate the one or more receive symbol streams from the plurality of receive chain output signals; and
one or more selectable RF connections that selectively couple certain of the plurality of said receive antenna sub-arrays to certain of the plurality of receive RF chains, wherein the number of receive antenna sub-arrays that can be selectively coupled to receive RF chains exceeds the number of receive RF chains that can accept receive RF signals from the one or more selectable RF connections; and
a radio resource controller, wherein the radio resource controller sets or causes to be set the specific selective couplings between the certain of the plurality of receive antenna sub-arrays and the certain of the plurality of receive RF chains.
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Abstract
A intelligent backhaul radio have an advanced antenna system for use in PTP or PMP topologies. The antenna system provides a significant diversity benefit. Antenna configurations are disclosed that provide for increased transmitter to receiver isolation, adaptive polarization and MIMO transmission equalization. Adaptive optimization of transmission parameters based upon side information provided in the form of metric feedback from a far end receiver utilizing the antenna system is also disclosed.
219 Citations
20 Claims
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1. An intelligent backhaul radio comprising:
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a directional transmit antenna array, for simultaneously transmitting a plurality of transmit symbol streams to a target radio, said directional transmit antenna array comprising a plurality of transmit antenna sub-arrays, wherein each of said plurality of transmit antenna sub-arrays comprise a plurality of transmit antenna elements; a plurality of directional receive antenna arrays, for simultaneously receiving a plurality of receive RF signals comprising a plurality of receive symbol streams from the target radio, wherein each of said plurality of directional receive antenna arrays comprise a plurality of receive antenna sub-arrays, wherein each of said plurality of receive antenna sub-arrays comprise a plurality of receive antenna elements, wherein each of said receive antenna sub-arrays has a normalized antenna pattern similar to the normalized antenna pattern of each of the transmit antenna sub-arrays in elevation and narrower than the normalized antenna pattern of each of the transmit antenna sub-arrays in azimuth, and wherein each of the plurality of directional receive antenna arrays are positioned physically offset from said directional transmit antenna array, and distributed in azimuthal orientation such that the aggregate normalized azimuthal antenna patterns of the plurality of receive antenna sub-arrays in composite is equal to or greater than the normalized antenna pattern of each of the transmit antenna sub-arrays in azimuth; one or more demodulator cores, wherein each demodulator core demodulates one or more of said plurality of receive symbol streams to produce a respective receive data interface stream; a plurality of receive RF chains to convert the plurality of receive RF signals to a plurality of respective receive chain output signals; a frequency selective receive path channel multiplexer between the one or more demodulator cores and the plurality of receive RF chains, the frequency selective receive path channel multiplexer to generate the one or more receive symbol streams from the plurality of receive chain output signals; and one or more selectable RF connections that selectively couple certain of the plurality of said receive antenna sub-arrays to certain of the plurality of receive RF chains, wherein the number of receive antenna sub-arrays that can be selectively coupled to receive RF chains exceeds the number of receive RF chains that can accept receive RF signals from the one or more selectable RF connections; and a radio resource controller, wherein the radio resource controller sets or causes to be set the specific selective couplings between the certain of the plurality of receive antenna sub-arrays and the certain of the plurality of receive RF chains. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
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Specification