| 摘要 |
<p>A Common radio resource management method (CRRM) is performed in a mobile radio communication network employing different radio access technologies (UTRAN, GERAN) that overlap over a geographic area subdivided into cells belonging to the domains of respective controllers (RNC, BSC) which are connected to each other in overlapping or adjacent domains and to a core network (CN) by means of relevant interfaces (Iu, Iur, A, Gb). The controllers calculate new traffic-related Information Elements (IEs) to be exchanged over the existing interfaces to the aim of planning handovers and/or cell reselections towards adjacent cells either of the same or different RAT. Cell capabilities and mobile terminal capabilitiess being also specified by respective IEs. Diversely from the conventional traffic-related IEs based on Cell Load parameters or Free Capacity, the new IEs include indications of the <<availability>> of bearer services in the cell in terms of maximum bitrate, either guaranteed or not guaranteed, that can currently be allowed to each bearer service. The bearer services are subdivided into: Conversational, Streaming, Interactive, and Background QoS classes and then further subdivided into radio access technology and sub-technology types. In particular, for the UTRA technology the HSDPA sub-technology is foreseen for all the bearer services other than Conversational. For the GERAN technology there are: Conversational HSCSD, Conversational ECSD, Streaming EGPRS, Interactive EGPRS, and Background EGPRS. Said maximum bitrate is indicated by an integer number assuming values from zero to a maximum range for indicating either total unavailability or the maximum permissible bitrate for that type of bearer service, respectively. Said IEs also include the number of bearer services of specified bitrate that can be provided in the cell and a specification of the Cell Change Reason for which the bearer services can be provided (fig.7). <IMAGE></p> |
