RU2010115777A - MUTUAL INTERFERENCE MANAGEMENT USING PROFILES OF POWER AND SIGNAL ATTENUATION - Google Patents

Abstract

 1. A communication method comprising the steps of:! determining a transmission power profile, wherein the transmission power profile sets different power values over time; ! determining the maximum and minimum power levels for the transmission power profile; ! determining a time period for the transmission power profile; and! transmit at least one indicator of the transmission power profile, the maximum and minimum power levels and the time period in many access points. ! 2. The method according to claim 1, additionally containing stages in which:! receive information regarding the mutual level of interference in the downlink; and! adapt the maximum and minimum power levels and / or time period based on this information. ! 3. The method according to claim 2, in which the information contains at least one report with the results of measurements in the downlink, received from at least one access terminal associated with at least one of the access points. ! 4. The method according to claim 1, further comprising stages in which: adapt the maximum and minimum power levels and / or time period based on the number of active access terminals associated with access points, and / or based on data traffic in the downlink, associated with access points. ! 5. The method according to claim 1, in which at least part of the access points are neighboring access points, a method further comprising stages in which:! set different values of the phase shift of the transmit power profile for different one of the neighboring access points to reduce the level of mutual interference in the downlink

Claims (75)

1. A communication method comprising the steps of: determining a transmission power profile, wherein the transmission power profile sets different power values over time; determining the maximum and minimum power levels for the transmission power profile; determining a time period for the transmission power profile; and transmit at least one indicator of the transmission power profile, the maximum and minimum power levels and the time period in many access points. 2. The method according to claim 1, additionally containing stages in which: receive information regarding the mutual level of interference in the downlink; and adapt the maximum and minimum power levels and / or time period based on this information. 3. The method according to claim 2, in which the information contains at least one report with the results of measurements in the downlink, received from at least one access terminal associated with at least one of the access points. 4. The method according to claim 1, further comprising stages in which: adapt the maximum and minimum power levels and / or time period based on the number of active access terminals associated with access points, and / or based on data traffic in the downlink, associated with access points. 5. The method according to claim 1, in which at least part of the access points are neighboring access points, a method further comprising stages, in which: set different phase shift values of the transmit power profile for different one of the neighboring access points to reduce the level of mutual interference in the downlink; and transmit the phase offset value of the transmit power profile to neighboring access points. 6. A communication device comprising: a mutual interference controller configured to determine a transmit power profile, determine a maximum and minimum power level for a transmit power profile, and determine a time period for a transmit power profile, the transmit power profile setting different power values over time; and a communication controller configured to transmit at least one indicator of the transmit power profile, maximum and minimum power levels, and a time period to a plurality of access points. 7. The device according to claim 6, in which: a communication controller, further configured to receive information related to mutual interference in the downlink; and a mutual interference controller, further configured to adapt the maximum and minimum power levels and / or time period based on this information. 8. The device according to claim 7, in which the information contains at least one report with the results of measurements in the downlink, received from at least one access terminal associated with at least one of the access points. 9. The device according to claim 6, in which the mutual interference controller is further configured to adapt the maximum and minimum power levels and / or the time period based on the number of active access terminals associated with the access points, and / or based on downlink data traffic communication associated with access points. 10. The device according to claim 6, in which: at least a portion of the access points are neighboring access points; the mutual interference controller is further configured to set various phase offset values of the transmit power profile for different one of the neighboring access points to reduce mutual interference in the downlink; and the communication controller is further configured to transmit phase offset values of the transmit power profile to neighboring access points. 11. A communication device comprising: means for determining the transmission power profile, the maximum and minimum power levels for the transmission power profile and the time period for the transmission power profile, wherein the transmission power profile sets different power values over time; and means for transmitting at least one indicator of a transmit power profile, maximum and minimum power levels, and a time period to a plurality of access points. 12. The device according to claim 11, in which: the transmission means is configured to receive information related to mutual interference in the downlink; and determination means is adapted to adapt the maximum and minimum power levels and / or time period based on this information. 13. The device according to item 12, in which the information contains at least one report with the results of measurements in the downlink, received from at least one access terminal associated with at least one of the access points. 14. The device according to claim 11, in which the determination means is adapted to adapt the maximum and minimum power levels and / or time period based on the number of active access terminals associated with the access points, and / or based on data traffic in the downlink, associated with access points. 15. The device according to claim 11, in which: at least a portion of the access points are neighboring access points; determination means is configured to set various phase offset values of the transmit power profile for different neighboring access points to reduce mutual interference in the downlink; and the transmission means is configured to transmit phase shift values of the transmit power profile to neighboring access points. 16. A computer software product containing: a computer-readable storage medium containing codes enabling the computer to execute: determining a transmission power profile, wherein the transmission power profile sets various power values over time; determining the maximum and minimum power levels for the transmission power profile; determining a time period for transmitting a power profile; and transmitting at least one indicator of the transmit power profile, the maximum and minimum power levels, and the time period to the plurality of access points. 17. The computer software product according to clause 16, additionally containing codes that ensure the execution of the computer: receiving information related to mutual interference in the downlink; and adapting the maximum and minimum power levels and / or time periods based on this information. 18. The computer program product according to clause 16, in which at least a portion of the access points are neighboring access points, additionally containing codes that enable the computer to execute: establishing different values of the phase offset of the transmit power profile for different neighboring access points to reduce mutual interference in the downlink; and transmitting phase shift values of the transmit power profile to neighboring access points. 19. A wireless communication method, comprising the steps of: determining a phase offset for the transmission power profile, wherein the transmission power profile sets various power values over time; and transmitting in accordance with the transmission power profile and the determined phase offset. 20. The method according to claim 19, further comprising the steps of: determining mutual interference in the downlink, the determination of the phase offset based on the level of mutual interference. 21. The method according to claim 19, in which the determination of the phase shift comprises the steps of: selecting a phase shift associated with a relatively low level of mutual interference in the downlink. 22. The method according to claim 19, in which the determination of the phase offset comprises the steps of: exchanging data with a neighboring access point to select a phase offset that is different from the phase offset used by the neighboring access point. 23. The method according to claim 19, further comprising stages, which: take at least one indicator of the maximum and minimum power levels and the time period for transmitting the power profile from the network node, the transmission is additionally based on the maximum and minimum power levels and period of time. 24. The method according to claim 19, in which the node that performs the transfer is limited in that it does not provide for at least one node at least one of the group consisting of: signal transmission, data access, registration and service. 25. A communication device comprising: a mutual interference controller configured to determine a phase offset for transmitting the power profile, wherein the transmit power profile sets various power values over time; and a communication controller configured to transmit in accordance with the transmission power profile and the determined phase offset. 26. The device according A.25, in which the mutual interference controller is additionally configured to determine mutual interference in the downlink, and the determination of the phase offset is based on the mutual interference. 27. The device according A.25, in which the determination of the phase offset contains the steps in which: select the phase offset associated with a relatively low level of mutual interference in the downlink. 28. The device according A.25, in which the determination of the phase offset comprises the steps of: performing data exchange with a neighboring access point to select a phase offset that is different from the phase offset used by the neighboring access point. 29. The device according A.25, in which the communication controller is additionally configured to receive at least one indicator of the maximum and minimum power levels and the time period for the transmission power profile from the network node, the transmission is additionally based on the maximum and minimum power levels and time period. 30. A communication device comprising: means for determining a phase offset for the transmission power profile, wherein the transmission power profile determines various power values over time; and transmission means in accordance with the transmission power profile and the determined phase offset. 31. The device according to clause 30, in which the determination means determines the mutual interference in the downlink, and the determination of the phase offset is based on mutual interference. 32. The device according to item 30, in which the determination of the phase offset contains the steps in which: select the phase offset associated with a relatively low level of mutual interference in the downlink. 33. The device according to item 30, in which the determination of the phase offset comprises the steps of: performing data exchange with a neighboring access point to select a phase offset that is different from the phase offset used by the neighboring access point. 34. The device according to clause 30, in which the transmission means receives at least one indicator of the maximum and minimum power levels and time period for the profile of the transmission power from the network node, the transmission is additionally based on the maximum and minimum power levels and time period. 35. A computer software product comprising: a computer-readable storage medium containing codes enabling the computer to execute: determining a phase offset for the transmission power profile, wherein the transmission power profile sets different power values over time; and performing transmission in accordance with the transmission power profile and the determined phase offset. 36. The computer program product according to clause 35, further comprising codes that enable the computer to determine the level of mutual interference in the downlink, and the determination of the phase offset is based on mutual interference. 37. The computer program product of claim 35, wherein determining the phase offset comprises exchanging data with a neighboring access point to select a phase offset that is different from the phase offset used by the neighboring access point. 38. The computer program product according to clause 35, further comprising codes for the computer to receive at least one indicator of the maximum and minimum power levels and the time period for the transmission power profile from the network node, the transmission being further based on the maximum and minimum power levels and time period. 39. A communication method comprising the steps of: determining a reception attenuation profile, the reception attenuation profile determining various attenuation values over time; determining the maximum and minimum attenuation levels for the reception attenuation profile; determining a time period for a reception attenuation profile; and transmit at least one measure of the reception attenuation profile, the maximum and minimum attenuation levels, and the time period for multiple access points. 40. The method according to § 39, further comprising stages in which: receive information related to mutual interference in the uplink; and adapt the maximum and minimum attenuation levels and / or time periods based on the information. 41. The method according to p, in which the information relates to mutual interference in the uplink, monitored at least one of the access points. 42. The method of claim 39, further comprising the steps of: adapting the maximum and minimum attenuation levels and / or the time period based on the number of active access terminals associated with the access points and / or based on data traffic in the uplink, associated with access points. 43. The method according to § 39, in which at least a portion of the access points are neighboring access points, a method further comprising stages in which: setting different phase offset values of the reception attenuation profile for different neighboring access points to reduce mutual interference in the uplink; and transmit the phase offset value of the reception attenuation profile to neighboring access points. 44. A communication device comprising: a mutual interference controller configured to determine a reception attenuation profile, a maximum and a minimum attenuation level for a reception attenuation profile, and a time period for a reception attenuation profile, wherein the reception attenuation profile determines different attenuation values over time; and a communication controller configured to transmit at least one measure of the reception attenuation profile, maximum and minimum attenuation levels, and a time period for a plurality of access points. 45. The device according to item 44, in which: the mutual interference controller is configured to receive information related to mutual interference in the uplink; and the communication controller is configured to adapt the maximum and minimum levels of attenuation and / or time period based on this information. 46. The device according to item 45, in which the information relates to mutual interference in the uplink, monitored in at least one of the access points. 47. The device according to item 44, in which the mutual interference controller is further configured to adapt the maximum and minimum attenuation levels and / or time period based on the number of active access terminals associated with access points and / or based on uplink data traffic communication associated with access points. 48. The device according to item 44, in which: at least a portion of the access points are neighboring access points; the mutual interference controller is further configured to set various phase offset values of the reception attenuation profile for different neighboring access points to reduce mutual interference in the uplink; and the communication controller is further configured to transmit the phase offset value of the reception attenuation profile to neighboring access points. 49. A communication device comprising: means for determining a reception attenuation profile, maximum and minimum attenuation levels for a reception attenuation profile, and a time period for a reception attenuation profile, wherein the reception attenuation profile determines various attenuation values over time; and means for transmitting at least one indicator of a reception attenuation profile, maximum and minimum attenuation levels, and a time period to a plurality of access points. 50. The device according to 49, in which: the transmission means receives information related to mutual interference in the uplink; and the determination means adapts the maximum and minimum attenuation levels and / or the time period based on the information. 51. The device according to item 50, in which the information relates to mutual interference in the uplink, monitored in at least one of the access points. 52. The apparatus of claim 49, wherein the determining means adapts the maximum and minimum attenuation levels and / or the time period based on the number of active access terminals associated with the access points and / or based on uplink data traffic associated with the points access. 53. The device according to 49, in which: at least a portion of the access points are neighboring access points; determination means determines different phase offset values of the reception attenuation profile for different neighboring access points to reduce mutual interference in the uplink; and the transmission means transmits the phase offset value of the reception attenuation profile to neighboring access points. 54. A computer software product comprising: a computer-readable storage medium containing codes enabling the computer to execute: determining a reception attenuation profile, the reception attenuation profile determining various attenuation values over time; determining the maximum and minimum attenuation levels for the reception attenuation profile; determining a time period for a reception attenuation profile; and transmitting at least one measure of the reception attenuation profile, the maximum and minimum attenuation levels, and the time period to the plurality of access points. 55. The computer software product according to item 54, further comprising codes that enable the computer to execute: receiving information related to mutual interference in the uplink; and adapting the maximum and minimum levels of attenuation and / or time period based on the information. 56. The computer program product according to item 54, further comprising codes that allow the computer to adapt the maximum and minimum levels of attenuation and / or time period based on the number of active access terminals associated with access points and / or based on data traffic in the uplink associated with access points. 57. The computer program product according to item 54, in which at least a portion of the access points are adjacent access points, additionally containing codes that enable the computer to execute: setting different phase offset values of the reception attenuation profile for various neighboring access points to reduce mutual interference in the uplink; and transmitting phase offset values of the reception attenuation profile to neighboring access points. 58. A wireless communication method, comprising the steps of: determining a phase shift for a reception attenuation profile, the reception attenuation profile determining various attenuation values over time; and perform reception in accordance with the profile of attenuation of reception and a certain phase shift. 59. The method of claim 58, further comprising the steps of: determining mutual interference in the uplink, the determination of the phase offset based on mutual interference. 60. The method according to § 58, wherein determining the phase offset comprises the steps of: exchanging data with a neighboring access point to select a phase offset that is different from the phase offset used by the neighboring access point. 61. The method according to § 58, further comprising stages, which: take at least one indicator of the maximum and minimum levels of attenuation and the time period for the profile of attenuation of reception from the network node, and the reception is additionally based on the maximum and minimum levels of attenuation and period of time. 62. The method according to § 58, in which the node that performs the reception is limited so that it does not provide for at least one node at least one of the group consisting of: signaling, data access registration and service. 63. A communication device comprising: a mutual interference controller configured to determine a phase offset for the reception attenuation profile, wherein the reception attenuation profile determines various attenuation values over time; and a communication controller configured to receive in accordance with the reception attenuation profile and the determined phase offset. 64. The device according to item 63, in which the mutual interference controller is additionally configured to determine mutual interference in the uplink, and the determination of the phase offset is based on mutual interference. 65. The device according to item 63, in which the determination of the phase offset comprises exchanging data with a neighboring access point to select a phase offset that is different from the phase offset used by the neighboring access point. 66. The device according to item 63, in which the communication controller is further configured to receive at least one indicator of the maximum and minimum attenuation levels and the time period for the reception attenuation profile from the network node, the reception is further based on the maximum and minimum attenuation levels and time period. 67. The device according to item 63, in which the node that performs the reception is limited so that it does not provide for at least one node, at least one of the group consisting of: signal transmission, data access registration and service. 68. A communication device comprising: means for determining a phase shift for receiving an attenuation profile, the reception attenuation profile determining various attenuation values over time; and reception means in accordance with the reception attenuation profile and the determined phase shift. 69. The device according to p, in which the determination means determines the mutual interference in the uplink, and the determination of the phase offset is based on mutual interference. 70. The device according to p, in which the determination of the phase offset comprises exchanging data with a neighboring access point to select a phase offset that is different from the phase offset used by the neighboring access point. 71. The apparatus of claim 68, wherein the reception means receives at least one of an indicator of maximum and minimum attenuation levels and a time period for a reception attenuation profile from a network node, the reception being further based on the maximum and minimum attenuation levels and a time period . 72. A computer software product comprising: a computer-readable storage medium containing codes enabling the computer to execute: determining a phase offset for the reception attenuation profile, the reception attenuation profile determining various attenuation values over time; and reception in accordance with the profile of attenuation of reception and a certain phase shift. 73. The computer program product according to claim 72, further comprising codes for determining by a computer mutual interference in an uplink, the determination of the phase offset based on mutual interference. 74. The computer program product of claim 72, wherein determining the phase offset comprises exchanging data with a neighboring access point to select a phase offset that is different from the phase offset used by the neighboring access point. 75. The computer program product according to paragraph 72, further comprising codes that provide the computer with at least one indicator of the maximum and minimum attenuation levels and a time period for the attenuation profile of reception from a network node, the reception being further based on the maximum and minimum attenuation levels and time period.