Method for network controlled access selection

The invention claimed is: 1. An Access Selection Server (ASS), comprising: a processor and memory, wherein said memory contains instructions executable by said processor, the ASS being adapted for location in a communication network according to 3 rd Generation Partnership Project (3GPP) having at least one User Equipment (UE) and communication nodes, wherein: at least one of the communication nodes is a Policy and Charging Rules Function (PCRF); at least one of the communication nodes is a Packet Data Network Gateway (PDN GW); one of the communication nodes is an Access Selection Server subscriber Data Base (ASS DB); one of the communication nodes is an Application Function (AF); and, one of the communication nodes is a Network Management System (NMS); and, wherein control of multiple UE accesses is enabled from the ASS by: the ASS being arranged to allow each UE to have multiple accesses to at least one PDN GW, each access comprising one Internet-protocol (IP)-session; the ASS being arranged to store access information in the memory of all accesses for each UE in the communication network and status information of overall load status of the communication network; the ASS being arranged to collect the access information through interactions with the communication nodes and a UE, the ASS being further arranged to communicate with the PCRF through a reference point Rx 2 or a node-internal interface and for transfer of session information concerning IP-sessions in the PCRF to the ASS; the ASS being arranged to communicate control messages, based on the access information and the status information, from the ASS to the UE; and, the ASS being arranged to receive the session information from the PCRF, via the reference point Rx 2 , about the session information stored in a PCRF session data base, the ASS being arranged to report acknowledgement to the PCRF of activation, modification and deactivation of all UE Internet protocol-Connectivity Access Networks (IP-CANs). 2. The ASS according to claim 1 , wherein the session information concerning IP sessions comprises Radio Access Technology (RAT) and UE source IP address. 3. The ASS according to claim 1 , wherein the control messages comprise access selection criteria. 4. The ASS according to claim 1 , wherein the ASS is arranged to be connected to the UE through an IP-based interface. 5. The ASS according to claim 1 , wherein the ASS is a separate node and further in that the ASS is arranged to communicate through a reference point Rx 1 with the AF to enable the ASS to receive a request from the AF, for updating multi-access policy rules in the UE due to AF session establishment/modification/deactivation, and to receive activation/modification information from the AF concerning activations and modifications of IP-sessions. 6. The ASS according to claim 5 , wherein the ASS is arranged to communicate with the PCRF through the reference point Rx 2 being an Rx or Gx reference point or an aggregation of an Rx-reference point and a Gx-reference point. 7. The ASS according to claim 1 , wherein the ASS is a separate node or the ASS and the PCRF are arranged to be integrated into one logical node or the ASS, the PCRF and the AF are arranged to be integrated into one logical node. 8. The ASS according to claim 7 , wherein the ASS is arranged to handle communication with the PCRF through the reference point Rx 2 being an Rx or Gx reference point or an aggregation of an Rx-reference point and a Gx-reference point: for transfer of the session information concerning IP-sessions in the PCRF to the ASS, to enable the ASS to receive a request for updating multi-access policy rules in the UE due to AF session establishment/modification/deactivation from the AF via the Rx reference point and the PCRF, and to handle communication between the AF and the ASS via the Rx reference point and the PCRF. 9. The ASS according to claim 7 , wherein the ASS is arranged to receive from the PCRF: the session information, via the reference point Rx 2 , about the session information stored in the PCRF session data base in a first new message and in a second new message the ASS is arranged to report acknowledgement to the PCRF of the activation, modification and deactivation of all UE IP-CANs, and a request for updating multi-access policy rules in the UE due to AF session establishment/modification/deactivation from the AF through the reference point Rx 2 . 10. The ASS according to claim 1 , wherein the ASS is arranged to receive the status information about load status for different Radio Access Technologies (RATs) within the communication network from the NMS through a management interface. 11. The ASS according to claim 1 , wherein the ASS software is arranged to perform the following steps: handling a single access or multiple accesses in parallel, guiding the UE in activating, modifying or changing an access in order to request the correct RAT that the ASS software comprises access selection criteria being arranged to be communicated to the UE through an IP-based interface, thus establishing a control of the UE from the ASS. 12. The ASS according to claim 11 , wherein the access selection criteria is a direct instruction to the UE to use a certain RAT or a preference list of available RATs for different services arranged to instruct the UE which RAT to use depending on parameters such as location, time of the day and load status. 13. A method for using an Access Selection Server (ASS) comprising enabling control of multiple User Equipment (UE) accesses from the ASS by: the ASS allowing each UE to have multiple accesses to at least one Packet Data Network Gateway (PDN GW), each access comprising one Internet protocol (IP)-session; the ASS storing access information in a memory of all accesses for each UE in a communication network and status information of overall load status of the communication network; the ASS collecting the access information through interactions with communication nodes and a UE in the communication network, the ASS communicating with a Policy and Charging Rules Function (PCRF) through a reference point Rx 2 or a node-internal interface and for transfer of session information concerning IP-sessions in the PCRF to the ASS; the ASS communicating control messages, based on the access information and the status information, from the ASS to the UE; and, the ASS receiving the session information from the PCRF, via the reference point Rx 2 , about the session information stored in a PCRF session data base, the ASS further reports acknowledgement to the PCRF of activation, modification and deactivation of all UE Internet protocol-Connectivity Access Networks (IP-CANs). 14. A User Equipment (UE) arranged to interact with a communication network, wherein the UE comprises: a processor and memory, wherein said memory contains instructions to be executed by said processor, whereby said UE is operative to perform an Access Selection Server (ASS) function and to communicate through an Internet protocol (IP)-based interface with an ASS in the communication network, the ASS function in the UE being arranged to handle requests from the ASS to perform activation of new accesses and/or modification or deactivation of existing accesses, the requests from the ASS being based on access information of all accesses for each UE in the communication network and status information of overall load status of the communication network. 15. The UE according to claim 14 , wherein the UE is further operative to perform one or more of: informing the ASS about available passive acc