Dynamic MBSFN area configuration method in consideration of radio resource efficiency and system thereof
First Claim
1. A method of dynamic multicast-broadcast single frequency network (MBSFN) area configuration in consideration of radio resource efficiency comprising:
- determining a MBSFN configuration, the MBSFN configuration defining a number of users in a currently-defined MBSFN area and a number of idle guard radio resources in an previously-defined MBSFN area, wherein the MBSFN configuration defines upper and lower thresholds of cell pool parameters;
calculating first saved radio resources by multiplying the number of users in the currently-defined MBSFN area by a first weight factor;
calculating first wasted radio resources by multiplying the number of idle guard radio resources in the previously-defined MBSFN area by a second weight factor;
selecting all cell pools adjacent to the currently-defined MBSFN area in which cell pool parameters of the adjacent cell pools exceed the lower threshold of cell pool parameters when the first saved radio resources are less than the first wasted radio resources;
selecting an adjacent cell pool from the adjacent cell pools such that second saved resources subtracted by second wasted resources achieves a maximum value when the adjacent cell pool is added to the MBSFN configuration, whereinthe second saved resources are calculated by adding the number of users in the currently-defined MBSFN area to a number of new users in cells of the adjacent cell pool and multiplying by a third weight factor, andthe second wasted resources are calculated by adding the number of idle guard radio resources in the previously-defined MBSFN area to a number of idle guard radio resources in the cells of the adjacent cell pool and multiplying by a fourth weight factor; and
setting the cells of the adjacent cell pool and the MBSFN configuration as a MBSFN final configuration.
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Abstract
A method and system determines an absolute Multicast-Broadcast Single Frequency Network (MBSFN) configuration based on a threshold. First saved radio resources and first wasted radio resources are calculated. The absolute MBSFN configuration is set as the final MBSFN configuration when the first saved radio resources are greater than or equal to the first wasted radio resources. When untrue, the absolute MBSFN configuration plus an adjacent cell pool is set as the final MBSFN configuration based on the final MBSFN configuration achieving a maximum value of second saved radio resources minus second wasted radio resources. When both of these conditions are untrue, the absolute MBSFN configuration minus an MBSFN cell pool is set as the final MBSFN configuration based on the final MBSFN configuration achieving a maximum value of third saved radio resources minus third wasted radio resources.
17 Citations
19 Claims
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1. A method of dynamic multicast-broadcast single frequency network (MBSFN) area configuration in consideration of radio resource efficiency comprising:
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determining a MBSFN configuration, the MBSFN configuration defining a number of users in a currently-defined MBSFN area and a number of idle guard radio resources in an previously-defined MBSFN area, wherein the MBSFN configuration defines upper and lower thresholds of cell pool parameters; calculating first saved radio resources by multiplying the number of users in the currently-defined MBSFN area by a first weight factor; calculating first wasted radio resources by multiplying the number of idle guard radio resources in the previously-defined MBSFN area by a second weight factor; selecting all cell pools adjacent to the currently-defined MBSFN area in which cell pool parameters of the adjacent cell pools exceed the lower threshold of cell pool parameters when the first saved radio resources are less than the first wasted radio resources; selecting an adjacent cell pool from the adjacent cell pools such that second saved resources subtracted by second wasted resources achieves a maximum value when the adjacent cell pool is added to the MBSFN configuration, wherein the second saved resources are calculated by adding the number of users in the currently-defined MBSFN area to a number of new users in cells of the adjacent cell pool and multiplying by a third weight factor, and the second wasted resources are calculated by adding the number of idle guard radio resources in the previously-defined MBSFN area to a number of idle guard radio resources in the cells of the adjacent cell pool and multiplying by a fourth weight factor; and setting the cells of the adjacent cell pool and the MBSFN configuration as a MBSFN final configuration. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A dynamic Multicast-Broadcast Single Frequency Network (MBSFN) area configuration system for comparing saved radio resources with wasted radio resources to set a MBSFN final configuration, the system comprising:
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a core network for receiving data from multiple data sources; multiple radio network subsystems coupled to the core network, each of the radio network subsystems comprising multiple radio network controllers coupled to multiple base stations, the multiple base stations defining cells, wherein contiguous cells are grouped together to comprise an MBSFN area; and a number of user equipments (UEs) configured to receive MBSFN signals from the cells; an MBSFN configuration module for defining a MBSFN configuration, the MBSFN configuration defining a number of UEs in a currently-defined MBSFN area, a number of added idle guard radio resources in an previously-defined MBSFN area and an upper and lower threshold of cell pool parameters, wherein the MBSFN configuration module for calculating first saved radio resources among the saved radio resources by multiplying a first weight factor by the number of UEs in the currently-defined MBSFN area, calculate first wasted radio resources among the wasted radio resources by multiplying a second weight factor by the number of idle guard radio resources added to the previously-defined MBSFN area, select all cell pools adjacent to the currently-defined MBSFN area in which cell pool parameters of the adjacent cell pools exceed the lower threshold of cell pool parameters when the first saved radio resources are less than the first wasted radio resources, select an adjacent cell pool from the adjacent cell pools such that second saved radio resources among the saved radio resources subtracted by second wasted radio resources among the wasted radio resources achieves a maximum value when the adjacent cell pool is added to the MBSFN configuration, wherein the second saved radio resources are calculated by adding the number of UEs in the currently-defined MBSFN area to a number of new UEs in cells of the adjacent cell pool and multiplying by a third weight factor, and the second wasted radio resources are calculated by adding the number of idle guard radio resources in the previously-defined MBSFN area to a number of idle guard radio resources in the cells of the adjacent cell pool and multiplying by a fourth weight factor; and set the cells of the adjacent cell pool and the MBSFN configuration as the MBSFN final configuration. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19)
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Specification