RU2008139301A - DEVICE AND METHOD OF SUPPORTING THE RELAY SERVICE IN THE SYSTEM OF COMMUNICATION OF A WIDE-BAND WIRELESS ACCESS WITH MULTIPLE STEPS OF RELAY - Google Patents

Abstract

 1. A method of forming a subframe to support a relay service in a wireless communication system with several relay steps, comprising the steps of:! form a first subframe zone for at least one of a communication between the base station (BS) and the first mobile station (MS) within the radio coverage area of the base station and communication between the at least one relay station (RS) and the second mobile station within radio coverage areas of this at least one relay station; and! form a second subframe zone for at least one of communicating between said base station and said at least one relay station and communicating between said at least one relay station and another relay station. ! 2. The method of claim 1, wherein the first zone and the second zone are distinguished in a subframe by at least one of time division and frequency division. ! 3. The method of claim 1, wherein the first subframe zone includes at least one of a link subframe between the base station and the mobile station (BS-MS) and a link subframe between the relay station and the mobile station (RS-MS) . ! 4. The method of claim 3, wherein the subframe of the communication link between the base station and the mobile station (BS-MS) and the subframe of the communication line between the relay station and the mobile station (RS-MS) are distinguished by either frequency division multiple access (FDMA) or spatial division multiple access (SDMA) or orthogonal frequency division multiple access

Claims (40)

1. A method of forming a subframe to support a relay service in a wireless communication system with several relay steps, comprising the steps of: form a first subframe zone for at least one of a communication between the base station (BS) and the first mobile station (MS) within the radio coverage area of the base station and communication between the at least one relay station (RS) and the second mobile station within radio coverage areas of this at least one relay station; and form a second subframe zone for at least one of communicating between said base station and said at least one relay station and communicating between said at least one relay station and another relay station. 2. The method of claim 1, wherein the first zone and the second zone are distinguished in a subframe by at least one of time division and frequency division. 3. The method of claim 1, wherein the first subframe zone includes at least one of a link subframe between the base station and the mobile station (BS-MS) and a link subframe between the relay station and the mobile station (RS-MS) . 4. The method of claim 3, wherein the subframe of the communication link between the base station and the mobile station (BS-MS) and the subframe of the communication line between the relay station and the mobile station (RS-MS) are distinguished by either frequency division multiple access (FDMA) or spatial division multiple access (SDMA) or orthogonal frequency division multiple access (OFDMA). 5. The method according to claim 3, in which the subframe of the communication line between the base station and the mobile station (BS-MS) and the subframe of the communication line between the relay station and the mobile station (RS-MS) have the same configuration. 6. The method of claim 3, wherein said at least one relay station is either a primary relay station that provides a synchronization channel or an auxiliary relay station that does not provide a synchronization channel. 7. The method of claim 6, wherein if said at least one relay station is an auxiliary relay station, a subframe of a communication link between the relay station and the mobile station (RS-MS) is zero in the areas for the synchronization channel and the control channel. 8. The method of claim 1, wherein the second zone of the subframe includes at least one of a subframe of a communication link between a base station and a relay station (BS-RS) and a subframe of a communication line between a relay station and a relay station (RS-RS) . 9. The method of claim 8, wherein the subframe of the communication link between the base station and the relay station (BS-RS) and the subframe of the communication line between the relay station and the relay station (RS-RS) are multiplexed by at least one of a time division and a frequency separation. 10. The method according to claim 1, in which the first zone and the second zone of the subframe have either fixed lengths or variable lengths in accordance with the service environment. 11. The method of claim 1, wherein a protective region is inserted between the first zone and the second zone of the subframe. 12. A method of forming a subframe to support a relay service in a wireless communication system with several relay steps, comprising the steps of: forming a first subframe zone for at least one of communicating between a base station and a mobile station (BS-MS) and communicating between a relay station and a mobile station (RS-MS); forming a second subframe zone for at least one of communicating between the base station and the relay station (BS-RS), communicating between the relay station and the relay station (RS-RS), and communicating between the relay station and the mobile station (RS-MS ); and form a third subframe zone for at least one of a communication between the base station and the mobile station (BS-MS) and communication between the relay station and the relay station (RS-RS). 13. The method of claim 12, wherein the first zone, second zone, and third zone are distinguished in a subframe by at least one of time division and frequency division. 14. The method of claim 12, wherein the first subframe zone includes at least one of a link subframe between the base station and the mobile station (BS-MS) and a link subframe between the relay station and the mobile station (RS-MS) . 15. The method of claim 14, wherein the subframe of the communication link between the base station and the mobile station (BS-MS) and the subframe of the communication link between the relay station and the mobile station (RS-MS) are distinguished by either frequency division multiple access (FDMA) or spatial division multiple access (SDMA) or orthogonal frequency division multiple access (OFDMA). 16. The method of claim 14, wherein the subframe of the communication link between the base station and the mobile station (BS-MS) and the subframe of the communication line between the relay station and the mobile station (RS-MS) have the same configuration. 17. The method according to p. 12, in which the second zone of the subframe includes at least one of a subframe of the communication line between the base station and the relay station (BS-RS), a subframe of the communication line between the relay station and the relay station (RS-RS) and a subframe of a communication link between the relay station and the mobile station (RS-MS). 18. The method according to p. 17, in which the subframe of the communication line between the base station and the relay station (BS-RS), the subframe of the communication line between the relay station and the relay station (RS-RS) and the subframe of the communication line between the relay station and the mobile station ( RS-MSs) are distinguished by at least one of time division and frequency division. 19. The method of claim 12, wherein the third zone of the subframe includes at least one of a subframe of a communication link between a base station and a mobile station (BS-MS) and a subframe of a communication link between a relay station and a relay station (RS-RS) . 20. The method of claim 19, wherein the subframe of the communication link between the base station and the mobile station (BS-MS) and the subframe of the communication line between the relay station and the relay station (RS-RS) are distinguished by at least one of a time division and a frequency separation. 21. The method according to p. 12, in which the first zone, the second zone and the third zone of the subframe have either fixed lengths or variable lengths in accordance with the service environment. 22. The method according to p. 12, in which the synchronization channel is located at the beginning of the first zone of the subframe. 23. The method according to p. 12, in which the synchronization channel is located either at the beginning or at the end of each of the first zone and the second zone of the subframe. 24. A method for implementing a base station (BS) of support for a relay service in a wireless communication system with several relay steps, comprising the steps of: communicating with a mobile station (MS) in a first area of a subframe in accordance with a predetermined configuration of the subframe and communicate with a relay station (RS) in the second zone of this subframe. 25. The method according to p. 24, in which the first zone and the second zone have either fixed lengths or variable lengths in accordance with the service environment. 26. The method according to p. 25, further containing a stage in which, if the first zone and the second zone have variable lengths, allocate resources for the first and second zones so that the base station communicates in accordance with the allocation of resources for the first and second zones . 27. The method of claim 24, wherein a protective region is inserted between the first zone and the second zone of the subframe. 28. The method of claim 24, wherein the first zone and the second zone are distinguished in a subframe by at least one of time division and frequency division. 29. The method according to p. 24, in which the synchronization channel is located at the beginning of the first zone of the subframe. 30. The method according to p. 24, in which the synchronization channel is located either at the beginning or at the end of the second zone of the subframe. 31. A method for implementing a relay station (RS) of supporting a relay service in a wireless communication system with several relay steps, comprising the steps of: performing a network input based on control information received from an upstream node, and receiving subframe configuration information to support a relay service; receive a synchronization channel, control information and a traffic packet from this upstream node for the second subframe zone in the frame with sequence number n and send the synchronization channel and the received control information and the traffic packet to the mobile station (MS) for the first zone of the subframe in the frame with a sequence number (n + 1). 32. The method of claim 31, wherein the relay station is either a primary relay station that provides a synchronization channel or an auxiliary relay station that does not provide a synchronization channel. 33. The method according to p. 32, in which, if the relay station is a secondary relay station, the relay station fills with zeros areas for the synchronization channel and the control channel. 34. The method of claim 31, wherein the upstream node is either a base station (BS) or an upstream relay station. 35. The method according to p. 31, in which the network input comprises the steps of: receiving control information from an upstream node in a set of zones for an upstream node to communicate with a mobile station in accordance with a predetermined subframe configuration and perform a network entrance to the upstream node based on the received control information. 36. The method according to p. 31, in which the network input comprises the steps of: receiving control information from an upstream node in a set of zones for an upstream node to communicate with a relay station in accordance with a predetermined subframe configuration and perform a network entrance to the upstream node based on the received control information. 37. An apparatus for supporting a relay service in a wireless communication system with multiple relay steps, comprising: a timing controller for providing a transmission and reception timing signal for a signal for a communication area of a mobile station (MS) for communicating with a mobile station and for a signal for a communication zone of a relay station (RS) for communicating with a relay station in accordance with a frame configuration; a radio frequency (RF) antenna switch for separating a signal for a communication zone of a mobile station and a signal for a communication zone of a relay station, and a transceiver for communicating with either a mobile station or a relay station in accordance with a transmission and reception timing signal. 38. The device according to p. 37, in which the transceiver contains: a first transceiver for communicating with a mobile station and a second transceiver for communicating with the relay station. 39. The device according to p. 38, in which the first transceiver contains: a transmitter for generating a subframe for the mobile station in accordance with a transmission and reception timing signal; a receiver for receiving a signal from the mobile station in accordance with a transmission and reception timing signal and for recovering data and a switch for connecting either a transmitter or a receiver to a radio frequency antenna switch under the control of a timing controller. 40. The device according to p. 38, in which the second transceiver contains: a transmitter for generating a subframe for the relay station in accordance with a transmission and reception timing signal; a receiver for receiving a signal from the relay station in accordance with the transmission and reception timing signal and for recovering data and a switch for connecting either a transmitter or a receiver to a radio frequency antenna switch under the control of a timing controller.