RU2008145594A - DEVICE AND METHOD OF SUPPORT OF RELAY SERVICE IN A MULTI-LINK RELAY COMMUNICATION SYSTEM WITH A WIDE-BAND WIRELESS ACCESS - Google Patents

Abstract

 1. A method of forming a subframe to support relay service in a wireless communication system, comprising the steps of:! at least one link subframe of a base station (BS) -mobile station (MS), a link subframe of a primary relay station (RS) -MS and a link subframe of a BS-secondary RS in a first period of a subframe, a BS link subframe -MS, which is a subframe for the communication line between the BS and the MS, the subframe of the communication line is the primary RS-MS, which is the subframe for the communication line between the primary RS, which provides the synchronization channel, and the MS, and the subframe of the communication line is the BS-secondary RS, which is the subframe for communication between a BS and a secondary RS that does not provide a channel l synchronization; and! at least a BS-primary RS link subframe or an RS-RS link line subframe or a secondary RS-MS link subframe in a second subframe period, a BS-primary RS link subframe that is a subframe for a communication link between the BS and the primary RS, an RS-RS communication link subframe, which is a subframe for a communication link between RS and another RS, and a secondary RS-MS communication link subframe, which is a subframe for a communication link between a secondary RS and MS. ! 2. The method according to claim 1, wherein the first period and the second period are distinguished by time division and frequency division in a subframe. ! 3. The method according to claim 1, in which the duration of the first period and the second period in the subframe are constant or dynamically changing in accordance with the channel environment. ! 4. The method according to claim 1, in which the subframe is a downlink subframe, in which the subframe structure in the first period of the subframe comprises providing a synchronization channel at the beginning of the first period in the subframe

Claims (70)

1. A method of forming a subframe to support relay service in a wireless communication system, comprising the steps of: at least one sub-frame of the communication line is formed by a base station (BS) -mobile station (MS), a sub-frame of a communication line is a primary relay station (RS) -MS, and a sub-frame of a communication line is a BS-secondary RS in a first period of a sub-frame, a sub-frame of a communication line BS -MS, which is a subframe for the communication line between the BS and the MS, the subframe of the communication line is the primary RS-MS, which is the subframe for the communication line between the primary RS, which provides the synchronization channel, and the MS, and the subframe of the communication line is the BS-secondary RS, which is the subframe for communication between a BS and a secondary RS that does not provide a channel l sync; and at least a BS-primary RS link subframe or an RS-RS link line subframe or an RS-MS secondary link subframe in a second subframe period, a BS-primary RS link subframe that is a subframe for a communication link between the BS and the primary RS, an RS-RS communication link subframe, which is a subframe for a communication link between RS and another RS, and a secondary RS-MS communication link subframe, which is a subframe for a communication link between a secondary RS and MS. 2. The method according to claim 1, in which the first period and the second period are distinguished by time division and frequency division in a subframe. 3. The method according to claim 1, in which the duration of the first period and the second period in the subframe are constant or dynamically changing in accordance with the channel environment. 4. The method of claim 1, wherein the subframe is a downlink subframe, wherein the subframe structure in a first period of a subframe comprises providing a synchronization channel at the beginning of a first period in a downlink subframe, and the subframe structure in a second period of a subframe comprises providing a synchronization channel at the end of the second period in the downlink subframe. 5. The method of claim 1, wherein the subframe is an uplink subframe, wherein the subframe structure in a first period of a subframe comprises providing a ranking channel at the beginning of a first period in an uplink subframe, and the subframe structure in a second period of a subframe comprises providing a ranking channel at the end of the second period in the uplink subframe. 6. The method according to claim 1, in which the structure of the subframe in the first period of the subframe comprises forming a subframe of the communication line BS-MS, a subframe of the communication line primary RS-MS and a subframe of the communication line BS-secondary RS, using a frequency division multiple access ( FDMA), spatial division multiple access (SDMA) or orthogonal frequency division multiple access (OFDMA). 7. The method according to claim 1, wherein the sub-frame structure in the first period of the sub-frame comprises forming a BS-MS communication line sub-frame, a primary RS-MS communication sub-frame, and a BS-secondary RS sub-frame in the same structure. 8. The method according to claim 1, also containing, if the secondary RS is a lower RS with respect to the primary RS, forming a subframe of the communication line of the primary RS-secondary RS, which is a subframe for the communication line between the primary RS and the secondary RS in the first period of the subframe. 9. The method according to claim 1, wherein the subframe structure in the second period of the subframe comprises generating at least a BS-RS link subframe or at least one RS-RS link subframe or a secondary RS-MS link subframe in the second period of the subframe. 10. The method according to claim 9, in which if at least one RS-RS subframe is a subframe for downlink communication to send a signal from the upper RS to the lower RS, the subframe structure in the second period of the subframe further comprises providing a synchronization channel at the end of at least one subframe of the RS-RS communication line. 11. The method according to claim 1, wherein the subframe structure in the second period of the subframe comprises forming a BS-primary RS link subframe, an RS-RS link subframe, and a secondary RS-MS subframe, using one of the FDMA, SDMA, or OFDMA methods. 12. A method of forming a subframe for downlink communication to support relay service in a wireless communication system, comprising the steps of: a base station (BS) -mobile station (MS) communication line subframe and a relay station (RS) -MS communication subframe in a first period of a subframe for downlink communication, a BS-MS subframe, which is a subframe for communication between the BS and MS, and an RS-MS communication link subframe, which is a subframe for communication between RS and MS; form a subframe of the RS link of the 1st group-RS of the next link of the 2nd group in the second period of the subframe for downlink communication, a subframe of the RS line of the 1st group-RS of the next link of the 2nd group, which is a subframe for the communication line between the RS of the first group, including the RS stations of the odd links and the RS of the next link of the second group, including the RS stations of the even links; and form a subframe of the communication link BS-RS of the 1st link and a subframe of the communication link RS of the 2nd group-RS of the next link of the 1st group in the third period of the subframe for downlink communication, a subframe of the communication line of the BS-RS of the 1st link, being a subframe for communication between the RS and the RS of the 1st link, and a subframe of the communication line RS of the 2nd group-RS of the next link of the 1st group, which is a subframe for communication between the RS of the second group and RS of the next link of the first group. 13. The method of claim 12, wherein the first period, the second period, and the third period are distinguished by time division in a subframe for downlink communication. 14. The method of claim 12, wherein the subframe structure in a first period of a subframe for downlink communication comprises providing a synchronization channel at the beginning of a BS-MS subframe and a synchronization channel at the beginning of an RS-MS subframe in a first subframe for downlink communications. 15. The method according to item 12, in which the structure of the subframe in the second period of the subframe for downlink communication comprises providing a synchronization channel at the end of the subframe of the RS communication line of the 1st group-RS of the next link of the 2nd group in the second period of the subframe for communication downlink. 16. The method of claim 15, wherein the subframe structure in the second period of the subframe for downlink communication comprises providing a synchronization channel in front of the protection zone between the second period and the third period of the subframe for downlink communication. 17. The method of claim 15, wherein the structure of the subframe in the second period of the subframe for downlink communication comprises providing a synchronization channel in each frame or in a predetermined frame. 18. The method according to 17, in which a predetermined frame is set in accordance with a predetermined period or control signal. 19. The method according to item 12, in which the structure of the subframe in the third period of the subframe for downlink communication comprises providing a synchronization channel at the end of a subframe of a BS-RS link of the l-th link and a synchronization channel at the end of a subframe of a RS link of the 2nd RS-group of the next link of the 1st group. 20. The method according to claim 19, in which the structure of the subframe in the third period of the subframe for downlink communication comprises providing a synchronization channel in each frame or in a predetermined frame. 21. The method according to claim 20, in which a predetermined frame is set in accordance with a predetermined period or control signal. 22. The method of claim 12, further comprising the steps of: form a sub-frame of the communication line BS-MS and a sub-frame of the communication line RS of the last link of the 1st group-MS in the second period of the sub-frame for downlink communication, a sub-frame of the communication line BS-MS, which is a sub-frame for communication between the BS and MS, and a sub-frame of the line RS communications of the last link of the 1st group-MS, which is a subframe for the communication link between the RS of the last link of the 1st group and the MS; and form a subframe of the RS communication link of the last link of the 2nd group-MS in the third period of the subframe for downlink communication, a subframe of the RS communication line of the last link of the 2nd group of MS, which is a subframe for the communication line between the RS of the last link and MS. 23. A method of forming a subframe for downlink communication to support relay service in a wireless communication system, comprising the steps of: a base station (BS) -mobile station (MS) communication line subframe and a relay station (RS) -MS communication subframe in a first period of a subframe for downlink communication, a BS-MS subframe, which is a subframe for communication between the BS and MS, and an RS-MS communication link subframe, which is a subframe for communication between RS and MS; form a subframe of the communication link BS-RS of the 1st link and a subframe of the communication link RS of the 2nd group-RS of the next link of the 1st group in the second period of the subframe for downlink communication, a subframe of the communication line of the BS-RS of the 1st link, which is a subframe for the communication link between the BS and RS of the 1st link, and a subframe for the communication link of the RS of the 2nd group-RS of the next link of the 1st group, which is a subframe for the communication link of the 2nd link-RS the links of the first group, including the station RS of even links; and form a subframe of the RS line of the 1st group-RS of the next link of the 2nd group in the third period of the subframe for downlink communication, a subframe of the RS line of the 1st group-RS of the next link of the 2nd group, which is a subframe for communication between RS of the first group and RS of the next link of the second group. 24. The method of claim 23, wherein the first period, the second period, and the third period are distinguished by time division in a subframe for downlink communication. 25. The method according to item 23, in which the structure of the subframe in the first period of the subframe for downlink communication comprises providing a synchronization channel at the beginning of a sub-frame of the communication line BS-MS and a synchronization channel at the beginning of the subframe of the communication line RS-MS in the first period of the subframe for downlink communications. 26. The method according to item 23, in which the structure of the subframe in the second period of the subframe for downlink communication comprises providing a synchronization channel at the end of the sub-frame of the communication link BS-RS of the 1st link and a synchronization channel at the end of the subframe of the communication link of the 2nd RS-group of the next link of the 1st group in the second period of the subframe for communication on the downlink. 27. The method of claim 26, wherein the structure of the subframe in the second period of the subframe for downlink communication comprises providing a synchronization channel in front of the protection zone between the second period and the third period in the subframe for downlink communication. 28. The method of claim 26, wherein the structure of the subframe in the second period of the subframe for downlink communication comprises providing a synchronization channel in each frame or in a predetermined frame. 29. The method of claim 28, wherein the predetermined frame is set according to a predetermined period or control signal. 30. The method according to item 23, in which the structure of the subframe in the third period of the subframe comprises providing a synchronization channel at the end of the subframe of the RS link of the 1st group-RS of the next link of the 2nd group. 31. The method of claim 30, wherein the structure of the subframe in the third period of the subframe for downlink communication comprises providing a synchronization channel in each frame or in a predetermined frame. 32. The method according to p, in which a predetermined frame is set in accordance with a predetermined period or a control signal. 33. The method according to item 23, also containing stages in which: forming a subframe of the RS communication link of the last link of the 2nd group-MS in the second period of the subframe for downlink communication, a subframe of the RS communication link of the last link included in the 2nd group and the MS; and form a sub-frame of the communication line BS-MS and a sub-frame of the communication line RS of the last link of the 1st group-MS in the third period of the sub-frame for downlink communication, a sub-frame of the communication line BS-MS, which is a sub-frame for communication between the BS and MS, and a sub-frame of the line RS communications of the last link of the 1st group-MS, which is a subframe for the communication link between the RS of the last link included in the first group and the MS. 34. A method of generating a subframe for uplink communication in a wireless communication system, comprising the steps of: form a subframe of the communication line mobile station (MS) -base station (BS) and a subframe of the communication line MS relay station (RS) in the first period of the subframe for communication on the uplink, the subframe of the communication line MS-BS, which is a subframe for the communication line between MS and BS, and an MS-RS communication link subframe, which is a subframe for communication between the MS and RS; form a subframe of the RS link of the 2nd group-RS of the previous link of the 1st group in the second period of the subframe for uplink communication, a subframe of the RS link of the 2nd group-RS of the previous link of the 1st group, which is a subframe for the communication line between the RS of the second group, including the RS stations of the odd links and the RS of the previous link of the first group, including the RS stations of the even links; and form a subframe of the RS communication link of the 1st link-BS and a subframe of the RS communication link of the 1st group-RS of the previous link of the 2nd group in the third period of the subframe for uplink communication, a subframe of the RS communication link of the 1st link-BS, being a subframe for the communication line between the RS of the 1st link and the BS, and a subframe for the communication line of the RS of the 1st group-RS of the previous link of the 2nd group, which is a subframe for the communication line between the RS of the first and RS of the previous link of the second group. 35. The method according to clause 34, in which the first period, the second period and the third period are distinguished by time division in the subframe for communication on the uplink. 36. The method according to clause 34, also containing stages in which: an MS-BS communication link subframe and an MS-RS communication link subframe of the last link of the 1st group in the second subframe period for uplink communication, an MS-BS communication subframe being a subframe for the communication link between the MS and the BS, and a subframe MS-RS communication lines of the last link of the 1st group, which is a subframe for the communication line between MS and RS of the last link included in the first group; and form a subframe of the MS-RS link of the last link of the 2nd group in the third period of the subframe for uplink communication, a subframe of the MS-RS link of the last link of the 2nd group, which is a subframe for the link between the MS and RS of the last link in the second group. 37. A method for generating a subframe for uplink communication in a wireless communication system, comprising the steps of: form a subframe of the communication line mobile station (MS) -base station (BS) and a subframe of the communication line MS relay station (RS) in the first period of the subframe for communication on the uplink, the subframe of the communication line MS-BS, which is a subframe for the communication line between MS and BS, and an MS-RS communication link subframe, which is a subframe for communication between the MS and RS; form a subframe of the RS link of the 1st link-BS and a subframe of the RS of the 1st group-RS of the previous link of the 2nd group in the second period of the subframe for uplink communication, a subframe of the RS link of the 1st link-BS, which is a subframe for the communication line between the RS of the 1st link and the BS, and the subframe of the communication line of the RS of the 1st group-RS of the previous link of the 2nd group, which is a subframe for the communication line between the RS of the first group including the RS stations of the odd links, and the RS of the previous link the second group, including the RS station even group; and form a subframe of the RS link of the 2nd group-RS of the previous link of the 1st group in the third period of the subframe for uplink communication, a subframe of the RS line of the 2nd group-RS of the previous link of the 1st group, which is a subframe for the communication line between the RS of the second group and the RS of the previous link of the first group. 38. The method according to clause 37, in which the first period, the second period and the third period are distinguished by time division in the subframe for communication on the uplink. 39. The method according to clause 37, also containing stages in which: form a subframe of the MS-RS link of the last link of the 2nd group in the second period of the subframe for uplink communication, a subframe of the MS-RS link of the last link of the 2nd group, which is a subframe for the link between the MS and the RS of the last link included in the second group; and an MS-BS communication link subframe and an MS-RS communication link subframe of the last link of the 1st group in the third subframe period for uplink communication, an MS-BS communication subframe being a subframe for the communication link between the MS and the BS, and a subframe MS-RS communication lines of the last link of the 1st group, which is a subframe for the communication line between MS and RS of the last link included in the first group. 40. A method of a base station (BS) in a wireless communication system, comprising the steps of: allocate resources for a first period and a second period of a subframe, a first period for communicating with at least one of the mobile stations (MS) and a secondary relay station (RS) that does not provide a synchronization channel, and a second period for communication with primary RS, which provides a synchronization channel; contacting at least one MS and a secondary RS in a first period of a subframe; and bind to the primary RS in the second period of the subframe. 41. The method of claim 40, wherein the durations of the first period and the second period of the subframe are constant or dynamically changing in accordance with the channel environment. 42. The method of claim 40, wherein the subframe is a subframe for downlink communication, wherein the communication in a first period comprises providing a synchronization channel at the beginning of a first period of a subframe for downlink communication, and communication in a second period comprises providing a channel synchronization at the end of the second period of the subframe for downlink communication. 43. The method of claim 40, wherein the subframe is a subframe for uplink communication, wherein the communication in a first period comprises providing a ranking channel at the beginning of a first period in a subframe for uplink communication, and the communication in a second period comprises a ranking channel at the end of a second period in a subframe for uplink communication. 44. The method according to p, in which the first period and the second period are distinguished by time division or frequency division. 45. The method according to clause 40, in which, if the RS is a multi-link RS, the distribution of resources comprises dividing the second period into multiple periods and distributing resources into multiple periods. 46. The method of a relay station (RS), which provides a synchronization channel in a wireless communication system, comprising stages in which: set the first period and the second period according to the control information received from the upper node, the first period intended for communication with the mobile station (MS), and the second period intended for communication with at least one upper node or lower RS; contact MS in the first period; and bind to at least one upper node and lower RS in the second period. 47. The method according to item 46, in which the durations of the first period and the second period are constant or dynamically changing according to the channel environment. 48. The method according to item 46, in which the first period and the second period are distinguished by time division or frequency division. 49. The method according to item 46, in which the upper node is a base station (BS) or upper RS. 50. The method according to item 46, also containing communication with RS, which does not provide a synchronization channel in the first period. 51. The method according to item 46, in which, if the multi-link relay communication system with the BWA overlaps at least three links, the communication process in the second period comprises the steps of: checking segmentation information of the second period according to management information; bind to the lower RS in the first zone of the second period; and contact the upper node in the second zone of the second period. 52. The method of claim 51, wherein the communication in the first zone of the second period comprises providing a synchronization channel at the end of the first zone. 53. The method according to item 46, in which if the multi-link relay communication system with the BWA overlaps at least three links, the communication process in the second period comprises the steps of: checking segmentation information of the second period according to management information; contact the top node in the first zone of the second period; and bind to the lower RS in the second zone of the second period. 54. The method of claim 53, wherein the communication in the second zone of the second period comprises providing a synchronization channel at the end of the second zone. 55. The method of a relay station (RS), which does not provide a synchronization channel in a wireless communication system, comprising the steps of: set the first period and the second period according to the control information received from the upper node, the first period intended for communication with the upper node, and the second period intended for communication with the mobile station (MS); contact the top node in the first period; and contact MS in the second period. 56. The method of claim 55, wherein the durations of the first period and the second period are constant or dynamically changing according to the channel environment. 57. The method of claim 55, wherein the first period and the second period are distinguished by time division or frequency division. 58. The method of claim 55, wherein the upper node is a base station (BS) or upper RS. 59. A base station device (BS) in a wireless communication system, comprising: a synchronizer for providing a transmission and reception synchronization signal in accordance with a subframe structure in which a first period and a second period are determined, a first period for communicating with at least a mobile station (MS) and a secondary relay station (RS) that is not provides a synchronization channel, and a second period for communicating with the primary RS, which provides a synchronization channel; a transmitter for generating a first period signal or a second period signal in accordance with the clock signal and for transmitting the generated signal; and a receiver for receiving a signal of the first period or a signal of the second period in accordance with the synchronization signal and to restore the received signal. 60. The device according to § 59, in which the transmitter generates a signal for at least MS or secondary RS and transmits the generated signal to at least one MS or secondary RS in the first period and generates a signal for primary RS and transmits the generated signal primary RS in the second period. 61. The device according to § 59, in which the transmitter transmits a synchronization channel at the beginning of the first period and a synchronization channel at the end of the second period. 62. The device according to § 59, in which the receiver receives a signal from at least an MS or a secondary RS in the first period, and receives a signal from the primary RS in the second period. 63. A relay station (RS) device that provides a synchronization channel in a wireless communication system, comprising: a synchronizer for providing a synchronization signal for transmission and reception in accordance with a subframe structure in which a first period and a second period are determined, a first period for communicating with at least a mobile station (MS) or a secondary RS that do not provide a synchronization channel , and a second period intended for communication with the upper node; a transmitter for generating a first period signal or a second period signal in accordance with the clock signal and for transmitting the generated signal; and a receiver for receiving a signal of the first period or a signal of the second period in accordance with the synchronization signal and to restore the received signal. 64. The device according to item 63, in which the transmitter generates a signal for at least MS or secondary RS and transmits the generated signal to at least one MS or secondary RS in the first period of the subframe for uplink communication, and creates a signal for the upper node, and transmits the generated signal to the upper node in the second period of the subframe for uplink communication. 65. The device according to item 63, in which the receiver receives a signal from at least MS or a secondary RS in the first period of the subframe for communication on the downlink and receives a signal from the upper node in the second period of the subframe for communication on the downlink. 66. The device according to item 63, in which the upper node is a base station (BS) or upper RS. 67. A relay station (RS) device that does not provide a synchronization channel in a wireless communication system, comprising: a synchronizer for providing a synchronization signal for transmission and reception in accordance with the structure of a subframe in which a first period and a second period are determined, a first period for communicating with an upper node and a second period for communicating with a mobile station (MS); a transmitter for generating a first period signal or a second period signal in accordance with the clock signal and for transmitting the generated signal; and a receiver for receiving a signal of the first period or a signal of the second period in accordance with the synchronization signal and to restore the received signal. 68. The device according to p, in which the transmitter creates a signal for the upper node and transmits the generated signal to the upper node in the first period of the subframe for communication on the uplink and creates a signal for the upper node, and transmits the created signal to the upper node in the second period subframe for downlink communication. 69. The device according to p, in which the receiver receives a signal from the upper node in the first period of the subframe for communication on the downlink and receives a signal from the MS in the second period of the subframe for communication on the uplink. 70. The device according to p, in which the upper node is a base station (BS) or upper RS.