METHOD AND APPARATUS FOR ANTENNA SELECTION AND POWER CONTROL IN A MULTIPLE INPUT MULTIPLE OUTPUT WIRELESS COMMUNICATION SYSTEM
First Claim
1. A method for setting a transmit gain for one or more antennas of an antenna array comprising a plurality of antennas, the method comprising:
- determining whether a transmission to a user equipment will be a Multiple-Input Multiple-Output (MIMO) transmission;
if the transmission to the user equipment will not be a MIMO transmission;
determining one or more of a path gain, signal attenuation, or path loss associated with each antenna of the antenna array;
setting a power gain of an antenna with one or more of the largest path gain, smallest signal attenuation, and smallest path loss, to a non-zero value; and
setting a power gain of the other antennas of the antenna array to zero;
if the transmission to the user equipment will be a MIMO transmission;
determining whether the transmission will be a ‘
rank=1’
transmission or a ‘
rank=2’
transmission; and
setting a power gain of each antenna of the plurality of antennas of the antenna array to a value that is based on whether the transmission will be a ‘
rank=1’
transmission or a ‘
rank=2’
transmission.
4 Assignments
0 Petitions
Accused Products
Abstract
A MIMO base station is provided that includes a multi-channel transmitter having an input Fourier Transform Matrix (FTM) and an output FTM that are each coupled to an intervening signal processing section having multiple radio frequency (RF) amplifiers. A signal applied to an input port of the input FTM is distributed to all RF amplifiers of the transmitter by the input FTM and then is recombined by the output FTM such that the signal is routed to a single antenna of the multiple antennas of an antenna array. Thus, for both MIMO and non-MIMO transmissions, all RF amplifiers are used to amplify each input signal, but the non-MIMO transmission signal then is recombined such that only a single transmit antenna then is used to transmit the signal. The base station further provides antenna selection for a single antenna transmission and gain allocation among the multiple antennas for a MIMO transmission.
61 Citations
19 Claims
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1. A method for setting a transmit gain for one or more antennas of an antenna array comprising a plurality of antennas, the method comprising:
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determining whether a transmission to a user equipment will be a Multiple-Input Multiple-Output (MIMO) transmission; if the transmission to the user equipment will not be a MIMO transmission; determining one or more of a path gain, signal attenuation, or path loss associated with each antenna of the antenna array; setting a power gain of an antenna with one or more of the largest path gain, smallest signal attenuation, and smallest path loss, to a non-zero value; and setting a power gain of the other antennas of the antenna array to zero; if the transmission to the user equipment will be a MIMO transmission; determining whether the transmission will be a ‘
rank=1’
transmission or a ‘
rank=2’
transmission; andsetting a power gain of each antenna of the plurality of antennas of the antenna array to a value that is based on whether the transmission will be a ‘
rank=1’
transmission or a ‘
rank=2’
transmission. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for antenna selection by a Multiple-Input Multiple-Output (MIMO) base station associated with an antenna array having a plurality of antennas, the method comprising:
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determining whether a transmission to a user equipment will be a MIMO transmission; if the transmission to the user equipment will be a MIMO transmission, transmitting to the user equipment via each antenna of the plurality of antennas; and if the transmission to the user equipment will be a non-MIMO transmission, selecting an antenna of the plurality of antennas for the transmission based on a number of users associated with each antenna of the of the plurality of antennas. - View Dependent Claims (8)
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9. A Multiple-Input Multiple-Output base station comprising:
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a multi-channel transmitter comprising; an input Fourier Transform Matrix (FTM) having a plurality of input ports and a plurality of output ports that receives an input signal at one or more input ports of the plurality of input ports and, for each input signal received at an input port, routes at least a portion of the input signal to each output port of the plurality of output ports to produce a plurality of input FTM output signals; a signal processing section having plurality of amplifiers, wherein each amplifier of the plurality of amplifiers of the signal processing section receives an input FTM output signal of the plurality of input FTM output signals, amplifies the received input FTM output signal to produce an amplified signal, and routes the amplified signal to an input port of an output FTM; an output FTM having a plurality of input ports and a plurality of output ports, wherein each input port of the plurality of input ports of the output FTM receives a signal that has been amplified by an amplifier of the signal processing section and produces an output signal at an output port of the plurality of output ports based on the plurality of received amplified signals, wherein each output signal at an output port of the plurality of output ports of the output FTM is an amplified version of an input signal received at an input port of the plurality of input ports of the input FTM; and an antenna array comprising a plurality of antennas, wherein each antenna of the plurality of antennas is operably coupled to an output port of the plurality of output ports of the output FTM and receives the output signal produced at the output port for transmission to a user equipment. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
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Specification