Full-duplex, bi-directional, analog relay
First Claim
1. A full-duplex analog relay comprising:
- (a) an analog uplink relay; and
(b) an analog downlink relay,wherein(i) the downlink relay is configured to receive wireless downlink signals from a transmitter and to transmit the downlink signals to a backscatter node, the downlink signals having a first spectrum when transmitted by the downlink relay,(ii) the uplink relay is configured to receive wireless uplink signals from the backscatter node and to transmit the uplink signals to the transmitter, the uplink signals having a second spectrum when received by the uplink relay from the backscatter node, the second spectrum being different than the first spectrum,(iii) the downlink relay includes an analog downlink filter,(iv) the uplink relay includes an analog uplink filter, and(v) the uplink and downlink filters are configured to filter the uplink and downlink signals, respectively, in such a way as to attenuate a first leakage and a second leakage, the first leakage being leakage, to the uplink relay, of downlink signals transmitted by the downlink relay, and the second leakage being leakage, to the downlink relay, of uplink signals transmitted by the uplink relay.
1 Assignment
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Accused Products
Abstract
A full-duplex analog relay may comprise an analog uplink relay and an analog downlink relay, and may relay signals between a transmitter and a backscatter node. The spectrum of the downlink signal transmitted by the downlink relay may be different than the spectrum of the uplink signal received by the uplink relay. Filtering may attenuate leakage from the downlink relay to the uplink relay, and vice versa. The uplink relay may create a phase offset that is opposite in sign and substantially equal in magnitude to the phase offset created by the downlink relay. The downlink and uplink relays, taken together, may created a substantially constant net phase offset. The full-duplex relay may be housed in a vehicle that moves, and may be used to determine spatial coordinates of backscatter sources that are located in the relay'"'"'s environment.
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Citations
12 Claims
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1. A full-duplex analog relay comprising:
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(a) an analog uplink relay; and (b) an analog downlink relay, wherein (i) the downlink relay is configured to receive wireless downlink signals from a transmitter and to transmit the downlink signals to a backscatter node, the downlink signals having a first spectrum when transmitted by the downlink relay, (ii) the uplink relay is configured to receive wireless uplink signals from the backscatter node and to transmit the uplink signals to the transmitter, the uplink signals having a second spectrum when received by the uplink relay from the backscatter node, the second spectrum being different than the first spectrum, (iii) the downlink relay includes an analog downlink filter, (iv) the uplink relay includes an analog uplink filter, and (v) the uplink and downlink filters are configured to filter the uplink and downlink signals, respectively, in such a way as to attenuate a first leakage and a second leakage, the first leakage being leakage, to the uplink relay, of downlink signals transmitted by the downlink relay, and the second leakage being leakage, to the downlink relay, of uplink signals transmitted by the uplink relay. - View Dependent Claims (2, 3, 4, 5)
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6. A system comprising two or more full-duplex analog relays, wherein:
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(a) each full-duplex analog relay, respectively, in the system comprises (i) an analog downlink relay that is configured to receive and retransmit wireless downlink signals, and (ii) an analog uplink relay that is configured to receive and retransmit wireless uplink signals; and (b) the system is configured to relay the downlink signals and the uplink signals in such a way that (i) a first full-duplex analog relay in the system receives the downlink signals from a first transmitter, (ii) a second full-duplex analog relay in the system transmits the downlink signals to a backscatter node, (iii) the second full-duplex analog relay receives the uplink signals from the backscatter node, (iv) the first full-duplex analog relay transmits the uplink signals to the first transmitter, and (v) for each respective full-duplex analog relay in the system (A) the downlink relay of the respective full-duplex relay transmits at a center frequency that is different than at which all other downlink relays in the system transmit, (B) the uplink relay of the respective full-duplex relay transmits at a center frequency that is different than at which all other uplink relays in the system transmit, (C) the downlink signals transmitted by the downlink relay of the respective full-duplex relay have a first spectrum, (D) the uplink signals received by the uplink relay of the respective full-duplex relay have a second spectrum that is different than the first spectrum, (E) the downlink relay of the respective full-duplex relay includes an analog downlink filter, (F) the uplink relay of the respective full-duplex relay includes an analog uplink filter, and (G) the uplink and downlink filters are configured to filter the uplink and downlink signals, respectively, in such a way as to attenuate a first leakage and a second leakage, the first leakage being leakage, to the uplink relay of the respective full-duplex relay, of downlink signals transmitted by the downlink relay of the respective full-duplex relay, and the second leakage being leakage, to the downlink relay of the respective full-duplex relay, of uplink signals transmitted by the uplink relay of the respective full-duplex relay.
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7. A system comprising:
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(a) a vehicle; (b) a full-duplex analog relay; (c) a first transceiver; and (d) one or more computers; wherein (i) the full-duplex analog relay comprises (A) an analog uplink relay; and (B) an analog downlink relay, (ii) the downlink relay is configured to receive wireless downlink signals from the first transceiver and to transmit the downlink signals to a second transceiver, (iii) the uplink relay is configured to receive wireless uplink signals from the second transceiver and to transmit the uplink signals to the first transceiver, (iv) the downlink relay is configured to create a first phase offset in the downlink signals, (v) the uplink relay is configured to create a second phase offset in the uplink signals, the second phase offset being opposite in sign and substantially equal in magnitude to the first phase offset, (vi) the full-duplex analog relay is housed in the vehicle, (vii) the vehicle is configured to move in a trajectory, and (viii) the full-duplex analog relay is configured to, at different times while the vehicle moves in the trajectory, relay the uplink signals in such a way that spatial coordinates of the second transceiver are inferable from information about the trajectory and from phase of the uplink signals as received by the relay. - View Dependent Claims (8, 9, 10, 11, 12)
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Specification