초록 ▼

The invention relates to a method and an arrangement of efficiently utilizing radio resources in a communication network, comprising a communication network node communicating with one or more user equipments over a radio interface, wherein at least two communication services are provided on said ra

The invention relates to a method and an arrangement of efficiently utilizing radio resources in a communication network, comprising a communication network node communicating with one or more user equipments over a radio interface, wherein at least two communication services are provided on said radio interface, each having a certain amount of power allocated in an interactively way. The interaction between said at least two communication services is minimized in order to obtain an enhanced power utilization.

대표청구항 ▼

1. A method of efficiently utilizing radio resources in a communication network, the communication network comprising a communication network node communicating with one or more user equipments over a radio interface, wherein at least two communication services are provided on said radio interface,

1. A method of efficiently utilizing radio resources in a communication network, the communication network comprising a communication network node communicating with one or more user equipments over a radio interface, wherein at least two communication services are provided on said radio interface, each having a certain amount of power allocated in an interactive way, the method comprising: reducing the power interaction, by the communication network node, between said at least two communication services when allocating power to said at least two communication services, so as to allocate more power to a first one of said at least two communication network services than to a second one of said at least two communication network services when there is a high traffic load on said first communication network service and a relatively lower traffic load on said second communication network service or vice versa;wherein reducing the power interaction comprises: predicting when a power peak will arise in said first communication service;pre-adjusting the power of said second communication service based on said prediction. 2. The method according to claim 1, further comprising decreasing a peak to average power ratio by setting a dynamic power limit for said first communication service. 3. A method of efficiently utilizing radio resources in a communication network, the communication network comprising a communication network node communicating with one or more user equipments over a radio interface, wherein at least two communication services are provided on said radio interface, each having a certain amount of power allocated in an interactive way, the method comprising: reducing the power interaction, by the communication network node, between said at least two communication services when allocating power to said at least two communication services, so as to allocate more power to a first one of said at least two communication network services than to a second one of said at least two communication network services when there is a high traffic load on said first communication network service and a relatively lower traffic load on said second communication network service or vice versa;wherein reducing the power interaction further comprises:determining available power for said first communication service in next time transmission interval of said first communication service;predicting a transmit power of said first communication service in the next time transmission interval based on said determined available power;determining a pre-adjustment factor based on said predicted transmit power;using said factor in order to pre-adjust the power of said second communication service;determining available power for said first communication service when said power of said second communication service has been pre-adjusted;scheduling users of said first communication service based on said available power for said first communication service when said power of said second communication service has been pre-adjusted. 4. A method of efficiently utilizing radio resources in a communication network, the communication network comprising a communication network node communicating with one or more user equipments over a radio interface, wherein at least two communication services are provided on said radio interface, each having a certain amount of power allocated in an interactive way, the method comprising: reducing said power interaction, by the communication network node, between said at least two communication services when allocating power to said at least two communication services, so as to allocate more power to a first one of said at least two communication network services than to a second one of said at least two communication network services when there is a high traffic load on said first communication network service and a relatively lower traffic load on said second communication network service or vice versa;wherein reducing the power interaction comprises: improving an outer loop power control in said communication network by adjusting a signal to interference ratio target for said second communication service to a pre-determined level after a power peak in said first communication service has disappeared. 5. A method according to claim 4, further comprising: checking if there were first communication service users scheduled in a last time transmission interval;if there were first communication service users scheduled in the last time transmission interval and there are first communication service users scheduled in next time transmission interval, using a normal power down step in said outer loop power control;if there were first communication service users scheduled in the last time transmission interval but there are no first communication service users scheduled in next time transmission interval and, if for each user of said second communication service a current signal to interference ratio target is larger than an original signal to interference ratio target, using a larger than normal power down step in said outer loop power control;if there were first communication service users scheduled in the last time transmission interval but there are no first communication service users scheduled in next time transmission interval and, if for each user of said second communication service the current signal to interference ratio target is less than the original signal to interference ratio target, using the normal power down step in said outer loop power control;if there were no first communication service users scheduled in the last time transmission interval but there are first communication service users scheduled in next time transmission interval, saving for each user of said second communication service a signal to interference ratio target;if there were no first communication service users scheduled in the last time transmission interval and there are no first communication service users scheduled in next time transmission interval, checking if a larger than normal power down step already is used in said outer loop power control;it a larger than normal power down step already is used in said outer loop power control and a block error occurs or the signal to interference target of said second communication service is hit, using the normal power down step in said outer loop power control. 6. A communication network node arranged to efficiently utilize radio resources in a communication network and to communicate with one or more user equipments over a radio interface, wherein at least two communication services are provided on said radio interface, each having a certain amount of power allocated in an interactive way, the communication network node comprises a computer configured to execute instructions for reducing said power interaction between said at least two communication services when allocating power to said at least two communication services, so as to allocate more power to a first one of said at least two communication network services than to a second one of said at least two communication network services when there is a high traffic load on said first communication network service and a relatively lower traffic load on said second communication network service or vice versa; wherein the computer is configured to execute instructionsfor predicting when a power peak will arise in said first communication service;for pre-adjusting the power of said second communication service based on said prediction. 7. The communication network node according to claim 6, wherein the computer is further configured to execute instructions: for decreasing a peak to average power ratio arranged to set a dynamic power limit for said first communication service. 8. A communication network node arranged to efficiently utilize radio resources in a communication network and to communicate with one or more user equipments over a radio interface, wherein at least two communication services are provided on said radio interface, each having a certain amount of power allocated in an interactive way, the communication network node comprises a computer configured to execute instructions for reducing said power interaction between said at least two communication services when allocating power to said at least two communication services, so as to allocate more power to a first one of said at least two communication network services than to a second one of said at least two communication network services when there is a high traffic load on said first communication network service and a relatively lower traffic load on said second communication network service or vice versa; wherein the computer is configured to execute instructions:for improving an outer loop power control in said communication network arranged to adjust a signal to interference ratio target for said second communication service to a pre-determined level after a power peak in said first communication service has disappeared. 9. A non-transistory computer-readable medium containing computer executable instructions for efficiently utilizing radio resources in a communication network, comprising a communication network node communicating with one or more user equipments over a radio interface, wherein at least two communication services are provided on said radio interface, each having a certain amount of power allocated in an interactively way, wherein when executed the computer executable instructions performs the steps of: reducing said power interaction between said at least two communication services when allocating power to said at least two communication services, so as to allocate more power to a first one of said at least two communication network services than to a second one of said at least two communication network services when there is a high traffic load on said first communication network service and a relatively lower traffic load on said second communication network service or vice versa;predicting when a power peak will arise in said first communication service;pre-adjusting the power of said second communication service based on said prediction. 10. A non-transistory computer-readable medium of claim 9, wherein in reducing the power interaction the computer executable instructions perform the further step of decreasing a peak to average power ratio by setting a dynamic power limit for said first communication service. 11. A non-transistory computer-readable medium containing computer executable instructions for efficiently utilizing radio resources in a communication network, comprising a communication network node communicating with one or more user equipments over a radio interface, wherein at least two communication services are provided on said radio interface, each having a certain amount of power allocated in an interactively way, wherein when executed the computer executable instructions perform the steps of: reducing said power interaction between said at least two communication services when allocating power to said at least two communication services, so as to allocate more power to a first one of said at least two communication network services than to a second one of said at least two communication network services when there is a high traffic load on said first communication network service and a relatively lower traffic load on said second communication network service or vice versa;wherein in reducing the power interaction the computer executable instructions perform the further steps of:determining available power for said first communication service in next time transmission interval of said first communication service;predicting a transmit power of said first communication service in the next time transmission interval based on said determined available power;determining a pre-adjustment factor based on said predicted transmit power;using said factor in order to pre-adjust the power of said second communication service;determining available power for said first communication service when said power of said second communication service has been pre-adjusted;scheduling users of said first communication service based on said available power for said first communication service when said power of said second communication service has been pre-adjusted. 12. A non-transistory computer-readable medium containing computer executable instructions for efficiently utilizing radio resources in a communication network, comprising a communication network node communicating with one or more user equipments over a radio interface, wherein at least two communication services are provided on said radio interface, each having a certain amount of power allocated in an interactively way, wherein when executed the computer executable instructions perform the steps of: reducing said power interaction between said at least two communication services when allocating power to said at least two communication services, so as to allocate more power to a first one of said at least two communication network services than to a second one of said at least two communication network services when there is a high traffic load on said first communication network service and a relatively lower traffic load on said second communication network service or vice versa;wherein in reducing the power interaction the computer executable instructions perform the further step of: improving an outer loop power control in said communication network by adjusting a signal to interference ratio target for said second communication service to a pre-determined level after a power peak in said first communication service has disappeared.