In a system for sharing hybrid resources in an independent network, each one of a plurality of stations preferably employs a sharing authority transferring protocol that allows the network control function to be moved from station to station depending on the network traffic. Although a distributed coordination method is normally used in the network, when an individual station determines that a real-time data stream is intended for the station, an apparatus having a method and data format for the use thereof allows control to be transferred to the targeted station. This allows the targeted station to control the sharing of the wireless hybrid resources using a centralized control method in a direct mode for the duration of the real-time service transmission, thereby optimizing network efficiency. As a result of using the distributed control authority of the present invention, a station may be freely subscribe/withdraw to/from the network.
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0. 17. A method for sharing wireless resources among stations in a wireless network, the method comprising:
assigning sharing control authority to control the sharing of the wireless resources to one station of the plurality of stations that is currently transmitting data satisfying a predetermined condition; and
controlling transmission of data by the one station after the sharing control authority has been assigned to the one station.
0. 21. A station for performing a method for sharing wireless resources among stations in a wireless network, the station comprising:
a transmission data unit and a first controller cooperating to assign sharing control authority to control the sharing of the wireless resources to the station if the station is currently transmitting data satisfying a predetermined condition;
wherein the first controller controls transmission of data by the station after the first controller has assigned the sharing control authority to the station.
0. 1. A method for sharing wireless hybrid resources among stations in a wireless independent network, the method comprising:
(a) determining whether currently transmitted data is related to a real-time service when the sharing of the wireless hybrid resources is controlled by a distributed coordination method;
(b) requesting and receiving a sharing control authority by the distributed coordination method, and controlling the sharing of the wireless hybrid resources by a centralized control method in a direct mode until the real-time service ends if it is determined that the currently transmitted data is related to the real-time service,
wherein the sharing control authority corresponds to an authority which controls the sharing of the wireless hybrid resources.
0. 2. The method as claimed in
0. 3. The method as claimed in
(b1) requesting the sharing control authority by the distributed coordination method if it is determined that the currently transmitted data is related to the real-time service;
(b2) determining whether the request for the sharing control authority is rejected;
(b3) controlling the sharing of the wireless hybrid resources with a request for periodic polling, if it is determined that the request is rejected;
(b4) determining whether the sharing of the wireless hybrid resources does not need to be controlled during the real-time service, going back to step (b1) if it is determined that the sharing of the wireless hybrid resources does not need to be controlled during the real-time service, and going back to step (b3) if it is determined the sharing of the wireless hybrid resources still needs to be controlled during the real-time service;
(b5) receiving the sharing control authority and controlling the sharing of the wireless hybrid resources by the centralized control method in the direct mode if it is determined that the request for the sharing control system is not rejected;
(b6) determining whether the real-time service ends and going back to step (b5) if it is determined that the real-time service does not end; and
(b7) returning the sharing control authority if it is determined that the real-time service ends,
wherein the sharing of the wireless hybrid resources is controlled by the distributed coordination method.
0. 4. The method as claimed in
(a) further comprises identifying a station subject to the real-time service as a subject station; and
(b) comprises requesting and receiving the sharing control authority by the subject station in accordance with the distributed coordination method, and controlling the sharing of the wireless hybrid resources by the subject station in accordance with the centralized control method in the direct mode until the real-time service ends if it is determined that the currently transmitted data is related to the real-time service.
0. 5. The method as claimed in
0. 6. A station for performing the wireless hybrid resources sharing using a method for sharing wireless hybrid resources among stations in a wireless independent network, the station comprising:
a transmission data checking unit configured to check whether currently transmitted data is related to a real-time service and to generate a control signal in response to the check result; and
a first controller configured to request and receive a sharing control authority by a distributed coordination method and to control sharing of the wireless hybrid resources by a centralized control method in the direct mode until the real-time service ends, in response to the control signal.
0. 7. The station as claimed in
0. 8. The station as claimed in
a request message broadcaster, which broadcasts a control authority requesting message requesting the sharing control authority by the distributed coordination method in response to the control signal and an enable signal;
a request rejecting message receiver, which receives a control authority request rejecting message rejecting the request for the sharing control authority and outputs a disable signal in response to the received result;
a polling requesting unit, which requests periodic polling in response to the disable signal and the enable signal;
a releasing message receiver, which receives a control authority releasing message in response to the control signal and outputs the enable signal in response to the received result;
a shared resource controller, which receives the sharing control authority in response to the disable signal and controls the sharing of the wireless hybrid resources by the centralized control method in the direct mode and transmits the sharing control authority releasing message to another station and returns the sharing control authority in response to an ending signal; and
a service checking unit, which checks whether the real-time service ends and outputs the checked result as the ending signal,
wherein a second controller controls the sharing of the wireless hybrid resources by the distributed coordination method in response to the ending signal.
0. 9. The data format as claimed in
0. 10. The data format as claimed in
0. 11. The station as claimed in
0. 12. A controller for generating a data format for use in a station for performing wireless hybrid resources sharing using a method for sharing wireless hybrid resources among stations in a wireless independent network, the controller generated data format comprising:
a control authority requesting message, which requests sharing control authority by a distributed coordination method;
a control authority releasing message, which releases the sharing control authority; and
a plurality of transmission frames, which are spaced apart from the control authority requesting message and the control authority releasing message, respectively, by a PIFS, are also spaced apart from each other by one PIFS, and have variable lengths, respectively.
0. 13. The data format as claimed in
a downlink section in which real-time service-related data is transmitted to another station and which has a variable length;
a polling section in which the other station related to the real-time service is polled and which has a variable length; and
a distribution control section in which non-real-time service-related data is transmitted to another station and which has a variable length.
0. 14. The data format as claimed in
0. 15. The data format as claimed in
0. 16. The data format as claimed in
0. 18. The method of claim 17, wherein the controlling further comprises controlling the transmission of data by the one station by a centralized control method; and
the method further comprises releasing the sharing control authority assigned to the one station after the controlling of the transmission of the data by the one station by the centralized control method.
0. 19. The method of claim 18, further comprising controlling transmission of data by the one station by a method other than the centralized control method after the releasing of the sharing control authority assigned to the one station.
0. 20. The method of claim 17, wherein the predetermined condition is whether the data currently transmitted by the one station is related to a predetermined data type.
0. 22. The station of claim 21, wherein the first controller releases the sharing control authority assigned to the station after the first controller has controlled the transmission of the data by the station.
0. 23. The station of claim 22, wherein the first controller controls the transmission of data by the station by a centralized control method; and
the station further comprises a second controller to control transmission of data by the station by a method other than the centralized control method after the first controller has released the sharing control authority assigned to the station.
0. 24. The station of claim 21, wherein the predetermined condition is whether the data currently being transmitted by the station is related to a predetermined data type.
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The second controller 54 controls the sharing of the wireless resources by the distributed coordination method in response to the control signal input from the transmission data checking unit 50. Here, the second controller 54 preferably receives data from another station via an input port IN3 and outputs the data input through the input port IN1 via the transmission data checking unit 50 to another station via an output port OUT2. Here, the second controller 54 may control the sharing of the wireless resources by the distributed coordination method in response to an ending signal generated when the real-time services ends in the first controller 52.
To perform step 20, in response to the control signal from transmission data checking unit 50 via an input port IN4 (indicating that received data is related to a real-time service,) service), the request message broadcaster 70 transmits a message requesting control authority to the other stations via an output port OUT3 using the distributed coordination method. The request message is additionally gated using an enable signal input from the releasing message receiver 76. If one of the other stations has sharing control authority (i.e., is processing data), that “control station” transmits a rejection message to the subject station. When the control station has completed its data processing activity, it transmits a sharing control authority releasing message using the distributed coordination method. If, however, there is no current active control station, no rejection message will be received.
To perform step 22, the request rejecting message receiver 72 receives any message rejecting the request for the sharing control authority via an input port IN5 and outputs the received message as a disable signal to the polling requesting unit 74 and the shared resource controller 78. In response to the disable signal from the request rejecting message receiver 72 and the enable signal input from the releasing message receiver 76, the polling requesting unit 74, which performs step 24, requests the periodic polling from the control station via an output port OUT4. In other words, the polling requesting unit 74 requests the periodic polling of the control station whenever a rejection message is received and the sharing control authority releasing message has not yet been received.
To perform steps 26 and 28, in response to the control signal input from the transmission data checking unit 50 via the input port IN4 (indicating the real-time service) the releasing message receiver 76 monitors the control station for the sharing control authority releasing message via an input port IN6. When the sharing control authority releasing message is received, releasing message receiver 76 outputs an enable signal to the request message broadcaster 70 and the polling requesting unit 74. The releasing message receiver 76 may generate an enable signal having a first logic level if the sharing control authority releasing message is received from the control station and an enable signal having a second logic level if the control authority releasing message is not received from the control station.
For the case where no rejection message is received, the shared resource controller 78, which performs steps 30 and 34, assumes the sharing control authority in response to the disable signal input from the request rejecting message receiver 72 and thus controls the sharing of the wireless resources using the centralized control method in the direct mode. Here, the shared resource controller 78 may receive data from another station via an input port IN7 or may output data for the real-time service to another station via an output port OUT5. Also, in step 34, the shared resource controller 78 preferably transmits the sharing control authority releasing message to another station via the output port OUT5 to return the sharing control authority in response to the ending signal input from the service checking unit and sharing control authority 80. Although it is not shown as a step in
The service checking unit 80, which performs step 32, checks whether the real-time service has ended and outputs the check result as the ending signal to the shared resource controller 78 and to the second controller 54 via the output port OUT6. Here, the second controller 54 controls the sharing of the wireless resources by the distributed coordination method in response to the ending signal input from the service checking unit 80.
Hereinafter, a data format for the hybrid resource-sharing method and the station according to the present invention will be described with reference to the attached drawings.
According to the present invention, step 10 of the preferred method shown in
As shown in
As shown in
In the distribution control section 144, which has a variable length 164, non-real-time service-related transmission data is preferably transmitted to another station using a DCF system. If an additional real-time AV streaming service is generated, the message requesting the periodic polling may be transmitted to the control station. Here, the downlink section 140 is spaced apart from the polling section 142 by a PIFS 170, and the polling section 142 is spaced apart from the distribution control section 144 by a DIFS 172.
As shown in
For the case where an active control station exists, as shown in
At this time the request message broadcaster 70 again transmits a control authority requesting message 192 as in
As described above, in a preferred method for sharing hybrid resources in a wireless independent network, a station for the method, and a data format for the method and the station, non-real-time service-related data packets are transmitted/received using a distributed coordination method and real-time service-related data packets are transmitted/received using a centralized control method in a direct mode. In other words, hybrid data is transmitted and received in a wireless independent network. Thus, an efficiency of using resources is maximized, a real-time service of the resources is supported, and a mesh network may be constituted. Further, loading may be prevented from concentrating in a control station and the control station is not fixed. As a result, a station can freely subscribe/withdraw to/from a subscribed network.
Preferred embodiments of the present invention have been disclosed herein and, although specific terms are employed, they are used and are to be interpreted in a generic and descriptive sense only and not for purpose of limitation. Accordingly, it will be understood by those of ordinary skill in the art that various changes in form and details may be made without departing from the spirit and scope of the present invention as set forth in the following claims.
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