Bi-directional communications network
First Claim
1. An ATM-TDMA system, wherein upstream ATM cell slots are dynamically allocated, wherein marshalling is achieved within an upstream cell slot according to the inequality:
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space="preserve" listing-type="equation">td+(Im/b)<
(Is/b)where;
td is the maximum differential round-trip delay;
Im is the minimum length (in bits) of the marshalling sequence necessary to allow correct marshalling;
b is bit rate of upstream traffic;
Is is the length of cell slot minus guard band.
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Abstract
A bi-directional communications network is disclosed, and in particular a TDM/TDMA protocol for the shared coax medium downstream/upstream resource. This protocol provides a very efficient technique for resource sharing in the access network of HFC systems. A method of communicating information between a central station and a plurality of terminals in a distribution network, is also disclosed. This invention allows the ranging of the terminals of unknown distance from the central station within an upstream ATM cell slot dynamically allocated for the marshalling process by the central station.
135 Citations
4 Claims
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1. An ATM-TDMA system, wherein upstream ATM cell slots are dynamically allocated, wherein marshalling is achieved within an upstream cell slot according to the inequality:
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space="preserve" listing-type="equation">td+(Im/b)<
(Is/b)where; td is the maximum differential round-trip delay; Im is the minimum length (in bits) of the marshalling sequence necessary to allow correct marshalling; b is bit rate of upstream traffic; Is is the length of cell slot minus guard band. - View Dependent Claims (2)
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3. A method of communicating information between a central station and a plurality of terminals in a distribution network, the method comprising the steps of:
- at the central station, determining downstream TDM frames, for transmission of distribution information and overhead information from the central station to the plurality of terminals, and upstream TDMA frames, for transmission of information in respective time slots from the terminals to the central station, wherein marshalling is achieved within an upstream cell slot according to the inequality;
space="preserve" listing-type="equation">td+(Im/b)<
(Is/b)where; td is the maximum differential round-trip delay; Im is the minimum length (in bits) of the marshalling sequence necessary to allow correct marshalling; b is bit rate of upstream traffic; Is is the length of cell slot minus guard band. - View Dependent Claims (4)
- at the central station, determining downstream TDM frames, for transmission of distribution information and overhead information from the central station to the plurality of terminals, and upstream TDMA frames, for transmission of information in respective time slots from the terminals to the central station, wherein marshalling is achieved within an upstream cell slot according to the inequality;
Specification
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- Resources
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Current AssigneeRPX Clearinghouse LLC (RPX Corporation)
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Original AssigneeNorthern Telecom Limited (Nortel Networks Corporation)
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InventorsGibbs, Graeme
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Primary Examiner(s)Chan, Jason
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Assistant Examiner(s)BOAKYE, ALEXANDER O
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Application NumberUS08/798,773Time in Patent Office777 DaysField of Search370/508, 370/519, 370/252, 370/337, 370/395, 370/443, 370/458US Class Current370/310.2CPC Class CodesH04J 2203/0012 Switching modules and their...H04J 3/0682 by delay compensation, e.g....H04J 3/1694 Allocation of channels in T...H04L 2012/5605 FibreH04L 2012/5606 MetallicH04L 2012/561 Star, e.g. cross-connect, c...H04L 2012/5615 Network termination, e.g. N...H04L 2012/5616 Terminal equipment, e.g. co...H04N 7/17309 Transmission or handling of...H04Q 11/0478 Provisions for broadband co...
