A method and system by which a base station in a Wireless Regional Area Network (WRAN), and more generally a transceiver in a cognitive radio (CR) system, can communicate with other transceivers to fairly share transmission and reception of scheduled use (“occupancy”) of frames on a single channel w
A method and system by which a base station in a Wireless Regional Area Network (WRAN), and more generally a transceiver in a cognitive radio (CR) system, can communicate with other transceivers to fairly share transmission and reception of scheduled use (“occupancy”) of frames on a single channel within a frame-based, on demand spectrum contention system. The method and system disclose how the base station currently occupying a channel responds to requests from other base stations for an increased share of the frames available in a subsequent superframe of the CR system. The method and system assure fair and efficient access to the transmission channel by a random number based contention process.
대표청구항▼
1. A method of operating a cognitive radio (CR) communication network, the method comprising: operating the (CR) communication network using synchronized transmission frames and superframes to provide communication services within cells of base stations of the CR communication network;operating a co
1. A method of operating a cognitive radio (CR) communication network, the method comprising: operating the (CR) communication network using synchronized transmission frames and superframes to provide communication services within cells of base stations of the CR communication network;operating a communication link between the base stations;maintaining a schedule of assignments (SchAs) of frames, within a single channel, to the base stations, wherein each frame is assigned to at most one base station for exclusive use for the communication services by the base stations;communicating the SchAs between the base stations on the communication link; andusing a frame contention among a plurality of contending base stations to share use of the single channel by assigning individual frames to base stations for scheduled sole use for communication services;wherein the frame contention comprises making assignments, in the SchAs, of individual frames of subsequent superframes of the single channel among the plurality of contending base stations by comparing spectrum contention numbers (SCNs) which are randomly chosen from a finite set of numbers in which each number is equally likely; andwherein the frame contention further comprises destination resolution, by which a destination base station, which has scheduled use of a set of frames in a subsequent superframe, resolves the frame contention initiated by at least one base station seeking to obtain the scheduled use of some or all of the frames in the set. 2. The method according to claim 1, wherein the frame contention is initiated by the at least one base station transmitting either of a source request message (SC REQ) or a source acknowledgement message (SC ACK), wherein each of SC REQ and SC ACK includes a source SCN generated at each of the at least one base station. 3. The method according to claim 2, wherein destination resolution further comprises the destination base station generating a destination SCN comparing each received source SCN with the destination SCN, and assigning scheduled use of the contended for frame or frames among the plurality of contending base stations on the basis of the comparison. 4. The method according to claim 3, wherein responsive to at least one base station other than the destination base station being assigned at least one of the frames of the set, further comprising the destination base station transmitting a release acknowledgement message comprising information of the frame or frames to be reassigned and the base station or base stations to which the frame or frames are reassigned. 5. The method according to claim 4, wherein the reassignment is for a frame or frames in the superframe immediately following the superframe during which the frame contention occurs. 6. The method according to claim 3, wherein responsive to the destination base station retaining the scheduled use of all the contended for data frame or frames as a result of the frame contention, the destination base station transmitting a response message comprising information that the contended for frame or frames are not reassigned. 7. The method of claim 3, wherein a base station initiates the frame contention only if the base station determines that the need for communication services within its cell exceeds the communication services available in unscheduled frames of subsequent superframes. 8. The method of claim 3, wherein the SCNs are chosen independently at each of the at least one base station initiating the frame contention, and at the destination base station. 9. The method of claim 1, wherein the finite set of numbers from which SCNs are chosen is a set of integers {0, 1, . . . , 2X−1}, where X is a number of binary digits in a fixed point integer used by the CR communication network. 10. The method of claim 1, wherein there are 16 frames in each superframe. 11. The method of claim 1, wherein the communication link between base stations is accomplished through use of beacon windows at the end of each frame. 12. The method of claim 1 further comprising, simultaneously for a plurality of channels of the CR communication network, maintaining a SchAs of frames to base stations, and using the frame contention and destination resolution to share use of one or more of the plurality of channels. 13. A system for a cognitive radio (CR) communication network, the system comprising: a plurality of base stations able to exchange messages on a communication link, and using synchronized frames and superframes for communication services within each base station's cell,wherein the system maintains a schedule of assignments (SchAs) of frames within a channel to the base stations, wherein each frame is assigned to at most one base station for exclusive use for communication services by the base station,wherein the system communicates the SchAs between the base stations on the communication link;wherein the system operates a frame contention among a plurality of contending base stations to share use of a single channel by assigning frames to base stations for scheduled exclusive use for communication services;wherein the frame contention comprises assigning individual frames of subsequent superframes of the single channel among the plurality of contending base stations by comparing spectrum contention numbers (SCNs) which are randomly chosen from a finite set of numbers in which each number is equally likely; andwherein the frame contention comprises destination resolution by which a destination base station, which has scheduled use of a set of frames in a subsequent superframe, resolves the frame contention initiated by at least one other source base station, each of the at least one other source base station seeking to obtain the scheduled use of some or all of the frames in the set, with said initiation comprising the sending of a request message by each of the at least one other source base stations.
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이 특허에 인용된 특허 (6)
Ahmadi Hamid (Somers NY) Bantz David F. (Chappaqua NY) Bauchot Frederic J. (LaTourraque Saint-Jeannet NY FRX) Krishna Arvind (Briarcliff Manor NY) La Maire Richard O. (Yorktown Heights NY) Natarajan , Adaptive medium access control scheme for wireless LAN.
Ahmadi Hamid ; Bantz David ; Bauchot Frederic,FRX ; Harrison Colin ; Krishna Arvind ; Martinez Jose Louis,FRX ; Natarajan Kadathur ; Wetterwald Michelle,FRX, Allocation method and apparatus for reusing network resources in a wireless communication system.
Ahmadi Hamid ; Bantz David ; Bauchot Frederic,FRX ; Harrison Colin ; Krishna Arvind ; Martinez Jose Louis,FRX ; Natarajan Kadathur ; Wetterwald Michelle,FRX, Allocation method and apparatus for reusing network resources in a wireless communication system.
Ahmadi, Hamid; Bantz, David; Bauchot, Frederic; Harrison, Colin; Krishna, Arvind; Martinez, Jose Louis; Natarajan, Kadathur; Wetterwald, Michelle, Allocation method and apparatus for reusing network resources in a wireless communication system.
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