USRE43667EExpiredUtility

System for multiple use subchannels

71
Assignee: GEILE MICHAEL JPriority: Feb 6, 1995Filed: Jan 7, 2011Granted: Sep 18, 2012
Est. expiryFeb 6, 2015(expired)· nominal 20-yr term from priority
H04H 60/97H04W 24/08H04M 9/027H04L 2027/0057H04L 2027/0036H04L 41/064H04L 27/2652H04L 27/2601H04K 3/255H04H 60/96H04H 60/86H04H 20/80H04H 20/79H04H 20/78H04H 20/69G06F 17/142G06F 17/14H04L 43/0847H04N 21/6137H04L 1/004H04L 43/0823H04L 43/067H04L 43/0811H04H 20/77H04K 3/226H04H 60/11H04N 7/22H04J 3/14H04L 12/44H04L 43/0882H04M 7/006H04N 21/2221H04L 27/2657H04L 43/0864H04L 43/0858H04L 43/0829H04K 1/00H04L 43/16H04N 21/2385H04L 5/143H04L 2027/0067H04L 43/00H04L 27/34H04L 43/0852H04L 1/0057H04L 2001/0093H04B 10/272H04L 27/2655H03M 13/1515H03M 13/356H04N 21/6118H04N 21/2383H04L 43/0817H04N 21/4382H04L 12/10H04L 1/24H04J 14/0298H04N 21/6168H04L 12/2801H04L 12/12H04N 21/2402H04L 41/0213H04L 5/023H04L 5/14H04N 7/17309H04L 27/2662H04L 27/2647H04L 43/022H04L 25/03866H04L 5/0044H04L 5/0037H04L 5/0007H04L 1/0071H04L 1/0045H04L 27/2614H04L 5/1484H04L 41/0896H04L 27/2654H04L 27/26524H04L 27/2634H04L 27/2631H04W 24/00Y02D30/50
71
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Cited by
175
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10
Claims

Abstract

Systems for multiple use subchannels are provided. In one embodiment, a bidirectional communication system comprises: a first remote for communicating with a host using orthogonal frequency division multiplexing (OFDM), the host communicatively coupled to a plurality of remotes in a multipoint-to-point configuration; wherein the first remote is configured to transmit up to a plurality of tones modulated with upstream information using OFDM; the first remote including a modulator for modulating the up to a plurality of tones with upstream information using OFDM, wherein the modulator is configured to adjust a carrier frequency of the plurality of tones such that when any tones are transmitted from the first remote and at least one other remote of the plurality of remotes, the orthogonality of the tones when received at the host is improved; and wherein both control data and payload data are transmitted on a first tone of the plurality of tones.

Claims

exact text as granted — not AI-modified
1. A bidirectional communication system, the system comprising:
 a first remote unit for communicating with a host unit using orthogonal frequency division multiplexing, the host unit communicatively coupled to a plurality of remote units in a multipoint-to-point configuration; 
 wherein the first remote unit is configured to transmit up to a plurality of tones, the up to a plurality of tones modulated with upstream information using orthogonal frequency division multiplexing; 
 the first remote unit including a modulator for modulating the up to a plurality of tones with upstream information using orthogonal frequency division multiplexing, wherein the modulator is configured to adjust a carrier frequency of the plurality of tones such that when any tones are transmitted from the first remote unit and at least one other remote unit of the plurality of remote units, the orthogonality of the tones when received at the host unit is improved; 
 wherein both control data and payload data are transmitted on a first tone of the plurality of tones; and 
 wherein the modulator is configured to adjust a carrier amplitude and a phase of the plurality of tones such that when any tones are transmitted from the first remote unit and at least one other remote unit of the plurality of remote units, the orthogonality of the tones when received at the host unit is improved. 
 
     
     
       2. The system of  claim 1 , wherein the control data comprises control symbols and the payload data comprises payload symbols. 
     
     
       3. The system of  claim 1 , wherein upstream bandwidth capacity is shared among the plurality of remote units using a time division multiple access scheme in which the control data is transmitted on the first tone of the plurality of tones during a first time period and payload data is transmitted on the first tone of the plurality of tones during a second time period. 
     
     
       4. The system of  claim 1 , wherein a plurality of tones are transmitted concurrently from at least two of the plurality of remote units. 
     
     
       5. A bidirectional communication system, the system comprising:
 a host unit to communicate with a plurality of remote units using orthogonal frequency division multiplexing, the plurality of remote units communicatively coupled to the host unit in a multipoint-to-point configuration; 
 the host unit receiving an orthogonal frequency division multiplexing waveform, the orthogonal frequency division multiplexing waveform comprising a plurality of tones transmitted by the plurality of remote units; 
 wherein the host unit is configured to transmit carrier frequency adjustment information to a first remote unit of the plurality of remote units such that when any tones are transmitted from the first remote unit and at least one other remote unit of the plurality of remote units, the orthogonality of the tones when received at the host unit is improved; 
 wherein both control data and payload data are received on a first tone of the plurality of tones; and 
 wherein the host unit is configured to adjust a carrier amplitude and a phase of the plurality of tones such that when any tones are transmitted from the first remote unit and at least one other remote unit of the plurality of remote units, the orthogonality of the tones when received at the host unit is improved. 
 
     
     
       6. The system of  claim 5 , wherein the control data comprises control symbols and the payload data comprises payload symbols. 
     
     
       7. The system of  claim 5 , wherein upstream bandwidth capacity is shared among the plurality of remote units using a time division multiple access scheme in which the control data is transmitted on the first tone of the plurality of tones during a first time period and payload data is transmitted on the first tone of the plurality of tones during a second time period. 
     
     
       8. The system of  claim 5 , wherein the plurality of tones are transmitted concurrently from at least two of the plurality of remote units. 
     
     
       9. A bi-directional communication system, the system comprising:
 a multipoint-to-point host unit; and 
 a plurality of remote units communicatively coupled to the multipoint-to-point host unit through an orthogonal frequency division multiplexing waveform; 
 wherein the multipoint-to-point host unit is configured to receive the orthogonal frequency division multiplexing waveform, the orthogonal frequency division multiplexing waveform comprising a plurality of tones transmitted by the plurality of remote units; 
 wherein the plurality of remote units are configured to modulate the plurality of tones with upstream information and adjust a carrier frequency of the plurality of tones such that when any tones are transmitted from the first remote unit and at least one other remote unit of the plurality of remote units, the orthogonality of the tones when received at the host unit is improved; 
 wherein both control data and payload data are transmitted on a first tone of the plurality of tones; and 
 wherein the plurality of remote units are configured to modulate the plurality of tones with upstream information and adjust a carrier amplitude and a phase of the plurality of tones such that when any tones are transmitted from the first remote unit and at least one other remote unit of the plurality of remote units, the orthogonality of the tones when received at the host unit is improved. 
 
     
     
       10. The system of  claim 9 , wherein upstream bandwidth capacity is shared among the plurality of remote units in a manner that permits at least two of the remote units to transmit to the host at any one time using the upstream bandwidth capacity, the upstream bandwidth capacity comprising a plurality of tones generated using inverse fast Fourier transforms.

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