Abstract:
The invention is a method and a system for the providing of service to user equipment (UE). A method of providing services to user equipment in accordance with the invention includes providing from a database ( 420 ) to a policy decision entity ( 405 ) subscriber information regarding permitted conditions for the users to obtain the services; providing service information from at least one network or server ( 100 ), regarding service offered by the at least one network or server to the user equipment, forming policy rules at the policy decision entity based upon the subscriber information and the service information. A requesting user equipment transmits a request for service to the communications network which is processed by the policy decision entity in accordance with the policy rules to determine if the service is to be allowed and if the service is allowed characteristics of the service to be provided to the requesting user equipment and the policy enforcement entity enforces at least one characteristic of an allowed service upon the communication network to insure that the allowed service obtained by the requesting user equipment has the at least one characteristic of the allowed service.

Description:
CROSS REFERENCE TO RELATED APPLICATION  
       [0001]    This application claims the benefit of the filing date of U.S. Provisional Application Serial No. 60/413,877, filed Sep. 27, 2002, entitled “Enhanced QoS Control”. 
     
    
     
       BACKGROUND OF THE INVENTON  
         [0002]    1. Field of the Invention  
           [0003]    The present invention relates to wireless communications. In particular, the present invention relates to control of the Quality of Service (QoS) for wireless communications.  
           [0004]    2. Description of the Prior Art  
           [0005]    Conventional wireless communication networks suffer from the problem of static, limited traffic classification capability. FIG. 1 shows a network having a plurality of application provider networks (APNs)  100 - 1  to  100 - n  connected to a Gateway GPRS Service Node (GGSN)  440  through respective QoS controls  110 - 1  to  110 - n . Communication services are provided to terminals  160  through corresponding radio access networks  150  and Service GPRS Service Nodes  130 . The radio access networks  150  may be R99 compliant GPRS networks including a base station system or 3GPP R99/R4 compliant WCDMA radio access networks. A Home Location Register (HLR)  140  contains one QoS profile for each APN  100 .  
           [0006]    At least some of terminals  160  are likely to be unable to make any QoS request, or to make a QoS request for different communication services. Thus, the communications services cannot depend on a traffic class based classification from the terminals  160 . Instead, the network applies the same HLR based QoS control for all services provided by a single APN and is not able to give differentiated treatment for Wireless Application Protocol (WAP) browsing and Multimedia Media Messaging Service (MMS) from the same APN even if HLR  140  can set the maximum QoS profile per traffic class. Such a static HLR based control is not service-aware and has disadvantages. It is not possible to achieve differentiated treatment for different types of service usage within one traffic class and the network is sufficient only for short-term simple communication services.  
           [0007]    The 3 rd  Generation Partnership Project (3GPP) has attempted to provide for policy based admission control in Release  5  of their specifications. See www.3gpp.org. This specification includes a Policy Control Function (PCF), which although a separate logical entity from the Proxy Connection State Control Function (P-CSCF), is described as being a physical part of the P-CSCF in Release  5 . FIG. 2 illustrates the implementation of the PCF as part of the P-CSCF  180 . Consequently, policy based admission control is only available for communication services provided through the IP multimedia subsystem and only the IP multimedia subsystem may request resources of the radio access network (for example, GSM or UMTS) for the communication services. The Gateway GPRS Service Node (GGSN)  440  initiates policy requests at packet data protocol (PDP) context activation or modification. For QoS control of a PDP context, the PCF of the P-CSCF/Policy Control Function  180  sends an indication of the maximum allowable QoS to the GGSN  440 , and the GGSN then sets a QoS (no higher than the maximum allowable QoS) for the PDP context.  
           [0008]    The 3GPP TS 23.207 (V5.50 (2002-09) and TS 29.207 V5.1.0 (2002-09) describe the function of the PCF. These publications are incorporated herein by reference in their entirety.  
           [0009]    The policy control procedure of 3GPP Release  5  of the PCF is described in more detail in FIG. 3. This policy control procedure comprises the following six steps:  
           [0010]    1. A SIP message containing SDP payload is received by the P-CSCF  210 . The Session Description Protocol (SDP) payload includes the session QoS related information such as media type and bit rate.  
           [0011]    2. The PCF  220  is a decision point and authorizes the required QoS resources for the session and installs the IP bearer level policy based on information from the P-CSCF  210 . The PCF  220  generates an authorization token and sends the token to the P-CSCF  210 . Upon successful authorization of the session, the P-CSCF  210  forwards (the methodology is not illustrated, but is well known) the SDP payload to the UE  160  for the originating side, with the authorization token.  
           [0012]    3. The UE  160  sends an Activate (Secondary) PDP Context Request to the SGSN  130  with the UMTS QoS parameters. The UE  160  includes the Binding Information (authentication token and flow IDs) in the Activate PDP Context Request. The SGSN  130  sends the corresponding Create PDP Context Request to the GGSN  440 .  
           [0013]    4. The GGSN  440  sends a Common Open Policy Service Protocol (COPS) protocol REQ message with the Binding Information to the PCF  220  in order to obtain relevant policy information. The message includes a token and flow identification(s).  
           [0014]    5. The PCF  220  sends a COPS decision (DEC) message back to the GGSN  440 . A DEC message from the PCF  220  to the GGSN  440  contains decision objects. A Decision object shall include one of the following commands:  
           [0015]    NULL Decision (No configuration data available)  
           [0016]    Install (Admit request/Install configuration, Commit)  
           [0017]    Remove (Remove request/Remove configuration)  
           [0018]    These commands are used to: (a) Authorize QoS/Revoke QoS authorization for one or more IP flows (b) Control forwarding for one or more IP flows  
           [0019]    6. The GGSN  440  maps IP flow based policy information into PDP context based policy information and uses the PDP context based policy information to accept the PDP activation request, and  
           [0020]    sends a Create PDP Context Response message back to SGSN  130 . The SGSN  130  sends an Activate (Secondary) PDP Context Accept to UE  160 .  
           [0021]    The 3 rd  Generation Partnership Project (3GPP) is currently developing Release  6  of their specifications, including enhanced policy based admission control. It has been proposed to separate the PCF  220  from P-CSCF  210  so that services other than those provided through the IP multimedia subsystem could benefit from the policy based admission control.  
           [0022]    A method of providing services to user equipment in a communications network including a database storing subscriber information regarding users of the user equipment obtaining the services, a policy enforcement entity to which the user equipment is coupled to obtain connection to sessions and a policy decision entity which is coupled to the policy enforcement entity and to the database which determines policy governing the providing of the services from at least one network or server coupled to the policy decision entity, in accordance with the invention includes providing from the database to the policy decision entity the subscriber information regarding permitted conditions for the users to obtain the services; providing service provider information from the at least one network or server regarding the services offered to the user equipment, which is utilized by the policy decision entity; and forming policy rules at the policy decision entity based upon the subscriber information and the service information; and wherein a requesting user equipment transmits a request for a session to the communications network which is processed by the policy decision entity in accordance with the policy rules to determine if a session is to be allowed and if the session is allowed determining characteristics of the service to be provided to the requesting user equipment and the policy enforcement entity enforces at least one characteristic of an allowed session upon the communication network to insure that the allowed session obtained by the requesting user equipment has the at least one characteristic of the allowed session. The policy decision entity may be a policy control function. The policy enforcement entity may be a Gateway General Packet Radio Access Node (GGSN). The subscriber information may comprise allowed services which may be provided to the user equipment by the at least one network or server. The allowed services may be defined by a service name, a quality of service class and a bit rate at which the requested session is provided to the requesting user equipment by the at least one network or server. The subscriber information may comprise allowed services which may be provided to the user equipment by the at least one network or server. The list of services may include a service name, quality of service class and an allowed bit rate is processed by the policy decision entity as part of forming the policy rules. The service information may comprise quality of service information. The quality of service information may comprise bandwidth. The service information may comprise quality of service information. The policy rules may be default policy rules when the subscriber information is not available which is not dependent upon information the varies with different subscribers. The communications may be a packet switched network.  
           [0023]    A system for controlling the providing of service to user equipment in accordance with the invention includes a communication system including a database storing subscriber information regarding subscription of users of the user equipment to obtain sessions of the services, a policy enforcement entity to which the user equipment is coupled to obtain the services, and a policy decision entity which is coupled to the policy enforcement entity and to the database; and at least one network or server which is coupled to the policy decision entity that provides the sessions of the services to the user equipment through the policy decision entity; and wherein the at least one network or server provides service information to the policy decision entity regarding the sessions of the services which are offered to the user equipment, the database provides the stored subscriber information to the policy decision entity regarding subscription of the users of the user equipment to obtain the sessions of the services provided by the at least one network or server, the policy decision entity formulates policy rules defining characteristics of the sessions which may be obtained by users of the user equipment from the at least one network or server in response to the subscriber information and the service information and the policy enforcement entity in response to the policy rules enforces the obtaining of the sessions of the services by the user equipment through the wireless system in accordance with at least one characteristic. The policy decision entity may be a policy control function. The policy enforcement entity may be a Gateway General Packet Radio Access Node (GGSN). The characteristics may comprise a name of service, quality of service and a bit rate of the session to be provided to a requesting user equipment. The subscriber information may comprise allowed services which may be provided to the user equipment. The allowed services may be defined by information including a service name, a quality of service class and a bit rate at which the requested session is provided to the requesting user equipment. The service information may comprise quality of service information. The communications network may be a packet switched network.  
           [0024]    In a system for controlling the providing of services to user equipment comprising a communication system including a policy enforcement entity to which the user equipment is coupled to obtain the services, and a policy decision entity which is coupled to the policy enforcement entity and to a database, and at least one network or server which is coupled to the policy decision entity that provides the services to the user equipment through the policy enforcement entity, an entity in accordance with the invention includes a database in the communication system which stores subscriber information regarding subscription of users of the user equipment to obtain the services from the at least one network or server; and wherein the at least one network or server provides service information to the policy decision entity regarding the services which are offered to the user equipment, the database provides the stored subscriber information to the policy decision entity regarding subscription of the users of the user equipment to obtain the services provided by the at least one network or server, the policy decision entity formulates policy rules defining characteristics of the services which may be obtained by users of the user equipment from the at least one network or server in response to the subscriber information and the service information and the policy enforcement entity in response to the policy rules enforces the obtaining of the services by the user equipment through the system in accordance with at least one characteristic. The policy decision entity may be a policy control function. The policy enforcement entity may be a Gateway General Packet Radio Access Node (GGSN). The characteristics may comprise a name of service, quality of service and a bit rate of the session to be provided to a requesting user equipment. The subscriber information may comprise allowed services which may be provided to the user equipment. The allowed services may be defined by information including a service name, a quality of service class and a bit rate at which the requested session is provided to the requesting user equipment. The service information may comprise quality of service information. The quality of service information may comprise bandwidth. The communications system may be a packet switched network.  
           [0025]    In a communications system including a policy enforcement entity to which user equipment is coupled to obtain connection to services and a policy decision entity which is coupled to the policy enforcement entity which determines policy governing the providing of the services from at least one network or server coupled to the policy decision entity, wherein service information is provided from at least one network or server, regarding service offered by the at least one network or server to the user equipment, which is utilized by the policy decision entity to formulate, policy rules based upon subscriber information and the service information, and a requesting user equipment transmits a request for a service with at least one of the at least one network or server which is processed in accordance with the policy rules to determine if the service is to be allowed and if the service is allowed determining characteristics of the service to be provided to the requesting user equipment and the policy enforcement entity enforces at least one characteristic of an allowed service upon the communication network to insure that the allowed service obtained by the requesting user equipment has the at least one characteristic of the allowed service, a method in accordance with the invention includes providing from a database to the policy decision entity the subscriber information regarding permitted conditions for the user equipment to obtain the service which is used by the policy decision entity as part of the formulation of the policy rules; and providing services to the user equipment in accordance with the at least one characteristic of the allowed service. The policy decision entity may be a policy control function. The policy enforcement entity may be a Gateway General Packet Radio Access Node (GGSN). The subscriber information may comprise allowed services which may be provided to the user equipment by the at least one network or server. The allowed services may be defined by a service name, a quality of service class and a bit rate at which the requested session is provided to the requesting user equipment by the at least one network or server. The subscriber information may comprise allowed services which may be provided to the user equipment by the at least one network or server. The requests for services may be transmitted to the policy enforcement entity and from the policy enforcement entity to the policy decision entity; and wherein an identification and an access point name of the at least one network or server from which the service is requested may be transmitted to the policy decision entity and to a system, including the database, which in response thereto transmits a list of services allowed to be provided to the requesting user equipment. The service information may comprise quality of service information. The quality of service information may comprise bandwidth. The requests for services may be transmitted to the policy enforcement entity and from the policy enforcement entity to the policy enforcement entity; and an identification and an access point name of the at least one network or server from which the service is requested may be transmitted to the policy decision entity and to a system, including the database, which in response thereto transmits a list of services allowed to be provided to the requesting user equipment. The communications system may be a packet switched network. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0026]    [0026]FIG. 1 illustrates QoS control problems in a prior art wireless communication network.  
         [0027]    [0027]FIG. 2 illustrates the implementation of a policy control function in a prior art wireless communication network according to 3GPP Release  5 .  
         [0028]    [0028]FIG. 3 illustrates a detailed flow diagram of the prior art policy control control procedure of 3GPP Release  5 .  
         [0029]    [0029]FIG. 4 illustrates an embodiment of network controlled QoS in accordance with the invention providing different exemplary communication services.  
         [0030]    [0030]FIG. 5 illustrates an embodiment of the invention enabling operators to dynamically allocate QoS according to service need and business potential.  
         [0031]    [0031]FIG. 6 describes the control procedure for a primary PDP context setup when the user equipment has not established any communication with at least one network or server providing services.  
         [0032]    [0032]FIG. 7 illustrates the control procedure of a detected new flow in an existing PDP context.  
         [0033]    [0033]FIG. 8 illustrates the control procedure when the PCF and a service logic associated with a network or server providing services exchange information prior to applying and/or updating policy.  
         [0034]    [0034]FIG. 9 is an example of the invention enabling QoS control over a streaming communication service.  
         [0035]    [0035]FIG. 10 illustrates the process of obtaining information from the subscription manager database which is used to define a quality of service provided to a requesting user equipment. 
     
    
       [0036]    Like reference numerals identify like parts throughout the drawings.  
       DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS  
       [0037]    This invention provides policy based admission QoS control of different networks or servers providing services. An embodiment  250  of implementation of the policy based admission QoS control in accordance with the invention is illustrated in FIG. 4. Unlike the prior art network illustrated in FIG. 1, the fully network controlled QoS in FIG. 4 provides separate QoS controls for a collective group  260  of networks or servers in a packet switched network even if individual networks or servers  100  are provided from the same operator. The network or servers  100  are either service provider networks or service provider servers of diverse designs. The QoS controls  110  are preferably enabled within one APN operator  270  making offering multimedia service combinations simple, terminal realizations simple, and providing consistent treatment of the same service over all of the vendor&#39;s terminals. Preferably, the QoS controls  110  can be hidden from the end user, are always linked to the offered services and are always part of the user service selection and the user receives what was purchased.  
         [0038]    An embodiment  400  of the invention, which enables operators to dynamically allocate QoS according to service need and business potential, is illustrated in FIG. 5. Subscription Manager Database  420  is connected to PCF  405  which functions as the policy decision point/entity. The PCF  405  may be in accordance with the 3GPP TS which are referred to above. The PCF  405  decides what QoS treatment to allocate, binding of service and PDP context. From the subscription manager database  420 , PCF  405  receives subscriber information, which may include subscriber specific information networks or servers  100  providing services to the UE  160 , to which the subscriber subscribes to obtain access (for example, streaming services with a maximum bandwidth “X”) to the services. The service logic  410  provides service information from the networks or servers  100 , including the identification of services and QoS to PCF  405 . The PCF  405  formulates policy rules based upon the subscriber and subscription information provided from the subscription manager database  420  and the service information provided from the at least one network or servers  100  providing service to the UE  160  and/or from the service logic  410 . The local rules repository  425  stores default policy information in the form of decision logic. If the subscriber information is somehow absent from the subscription manager database  420 , default policy rules may be applied. The default policy rules do not vary in dependence upon different customers requesting service.  
         [0039]    Preferably, the GGSN  440  initiates policy based admission control by sending a request to the PCF  405 . This may happen either at PDP context activation, at PDP context modification, or when the GGSN  440  notices that a new flow is introduced in the user plane. In order to identify a new flow in the user plane, the GGSN  440  stores information on existing flows, such as source and destination IP addresses, source and destination ports, and protocol. The GGSN  440  also may filter user plane traffic and understand when user plane traffic does not match any of the existing flows.  
         [0040]    The PCF  405  receives a request from the GGSN  440  and decides what QoS treatment to allocate to the PDP context or flow. For the decision, the PCF  405  may use service/QoS information received from the service logic  410  (for example, service logic  1  associated with the P-CSCF  210 ) involving for example, the outcome of a SDP negotiation), subscriber specific information received from the subscription manager database  420  and static information configured in the PCF  405  (for example, priority of streaming traffic in the operator&#39;s network). Any or all of this information may be stored in local repository  425  of the PCF  405 . The PCF  405  also provides binding of service and PDP context.  
         [0041]    The PCF  405  sends a decision on the QoS treatment to the GGSN  440 . The QoS treatment may include maximum values for QoS attributes or target values for QoS attributes. The GGSN  440  functions as the policy enforcement point entity in the wireless network (not illustrated) which provides connectivity to the UE  160 . The GGSN  440  enforces the QoS policy treatment decision based upon the policy rules set by the PCF received from PCF  405 . Based on the treatment decision, the GGSN  440  may downgrade or upgrade the QoS requested for the PDP context or flow.  
         [0042]    Policy control examples of the invention are described in conjunction with FIGS.  6 - 8 . FIG. 6 illustrates the control procedure for a primary PDP context setup where the user has not yet established any communication with a service provider network or server  100 ; FIG. 7 illustrates the control procedure for a detected new flow in the existing PDP context; and FIG. 8 describes the control procedure when the PCF  405  and the service logic  410  exchange information prior to applying and/or updating.  
         [0043]    The control procedure of FIG. 6 has six steps:  
         [0044]    1. The UE  160  sends an Activate (primary) PDP Context message to the SGSN  130  with the UMTS QoS parameters. The SGSN  130  validates the request against PDP context subscription records earlier received from the HLR (not illustrated in FIG. 6, but may be in accordance with FIG. 1). The SGSN  130  may downgrade the QoS Requested. The SGSN  130  sends the corresponding Create PDP Context message to the GGSN  440 .  
         [0045]    2. The GGSN  440  sends a COPS REQ message with the Binding Information to the PCF  400  in order to obtain relevant policy information. The binding information used here includes the Subscriber identity (IMSI) and the accessed Access Point Name (APN). In the backbone network of the wireless system, the APN is a reference to the GGSN to be used. In addition the APN may, in the GGSN, identify the network or server  100  to be used to provide service to the UE  160  and optionally, a service to be offered.  
         [0046]     APN as defined in 3GPP TS 23.003, which is incorporated by reference herein in its entirety and is not a limitation of the present invention, is described as follows:  
         [0047]     The APN Network Identifier is mandatory and is a label (for example “corporation” or “service”) or a set of labels separated by dots, which is a fully qualified domain name according to the DNS naming conventions (for example “company.com” or “service.company.com”). In order to guarantee the uniqueness of the APN, the packet-domain public land mobile network should allocate, to an ISP or corporation, an APN Network Identifier identical to their domain name in the public Internet. The APN Network Identifier shall not end with “.gprs”. An APN Network Identifier of 3 or more labels and that starts with a Reserved Service Label, or an APN Network Identifier that consists of a Reserved Service Label alone, indicates that for the APN a GGSN supports additional services such as external PDN address allocation or Mobile IP support. Reserved Service Labels, e.g., “dhcp” or “MIPv4FA”, and the corresponding services that they stand for, e.g., external PDN address allocation via DHCP, or Mobile IP Foreign Agent support, are to be agreed upon among operators.  
         [0048]     The APN Operator Identifier is optional. It is a fully qualified domain name according to the DNS naming conventions, and consists of three labels. The APN Operator Identifier shall end in “.gprs”. For example, it may be “MNCyyy.MCCzzzz.gprs”. The exact format is defined in 3G TS 29.060. The APN stored in the HLR shall not contain the APN Operator Identifier. A wild card may be stored in the HLR instead of the APN. This wild card indicates that the user may select an APN that is not stored in the HLR. The use of the wild card is described in Annex A.  
         [0049]    3. The PCF  400  may retrieve subscription data from the Subscription Manager Database  420 , if the information is not already present locally in the local rules repository  425 . It should be noted that the subscription data represents information about each subscription that a subscriber has for receiving service sessions from the APNs  100  as illustrated for example in FIG. 5. Each subscriber, who is a user of the UE  160 , may have multiple subscriptions each defining different service parameters. The PCF  405  uses the Subscriber identity provided by the GGSN  440  for this purpose. Additionally, PCF  405  may also use the accessed network or server  100  to search for more specific subscription data.  
         [0050]    4. The subscription data stored in the Subscription Manager Database  420  includes for each subscription allowed services for the given subscriber, and QoS class and bitrate information.  
         [0051]    5. Based on subscription information, as well as the rules stored locally in the local rules repository  425  of the PCF  405 , the PCF makes the treatment decision to be allocated. The PCF  405  sends a COPS DEC message back to the GGSN  440 . A Decision (DEC) message from the PCF  405  to the GGSN  440  contains decision objects. A Decision object includes the PDP context QoS class and bit rates, a list of allowed services to be carried by the PDP context, and the QoS class and bit rates for each service.  
         [0052]    6. The GGSN  440  uses the PDP context based policy information to accept the PDP activation request, and sends a Create PDP Context Response message back to SGSN  130 . The GGSN  440  may propose new UMTS QoS attributes, based on the policy decision. The SGSN  136  sends an Activate (Secondary) PDP Context Accept message to UE  160 .  
         [0053]    The procedure of FIG. 7 has three steps:  
         [0054]    1. The GGSN  440  detects a new flow from UE  160  in the user plane of an on-going PDP context that requires policy control. To make this happen, the GGSN  440  contains the pre-configured information of classifiers which, for example, are source and destination IP addresses, source and destination ports, and protocol.  
         [0055]    2. The GGSN  440  associates the flow with the service which is described by the service name. The GGSN  440  sends a COPS REQ message with the Binding Information to the PCF  405  in order to obtain relevant policy information used for formulating the policy rules. The binding information used here includes the service name and/or the classifier.  
         [0056]    3. Based on subscription information, the policy rules stored locally in the local repository  430  in the PCF  405 , and the communication with the relevant Service Provider Networks  100  prior to this point of time, the PCF makes a new treatment decision to be allocated. The PCF  405  sends a COPS DEC message back to the GGSN  440 . The GGSN  440  enforces the authorization decision and may modify the QoS requested for the PDP context or flow.  
         [0057]    The procedure of FIG. 8 has six steps:  
         [0058]    1. The PCF  405  receives, such as through service logic  410  associated with P-CSCF  210  of FIG. 5, the QoS related information (for example, media type and bit rate) of a service provided to the UE from the particular network or server (not illustrated).  
         [0059]    2. The PCF  405  authorizes the required QoS resources for the session based jointly on subscription and service information as previously described, local rules, and optionally, any default rules when applicable. For example, the PCF  405  may limit the bit rate to be used by the service. The PCF  405  generates an authorization token and sends this to the P-CSCF (not illustrated). Upon successful authorization of the session, the P-CSCF (not illustrated) forwards the SDP payload to the UE  160  for the originating side, with the authorization token.  
         [0060]    3. The UE  160  sends an Activate (Secondary) PDP Context to the SGSN  130  with the UMTS QoS parameters. The UE  160  includes the Binding Information (authentication token and flow IDs) in the Activate PDP Context. The SGSN  130  sends the corresponding Create PDP Context to the GGSN  440 .  
         [0061]    4. The GGSN  440  sends a COPS REQ message with the Binding Information (authorization token and flow Ids) to the PCF  405  in order to obtain relevant policy information.  
         [0062]    5. The PCF  405  binds the REQ with the policy decision. The PCF  405  sends a COPS DEC back to the GGSN  440 . A Decision (DEC) from the PCF  405  to the GGSN  440  contains decision objects. A Decision object includes the PDP context QoS class and bit rates, a list of the allowed services flows to be carried by the PDP context, and the QoS class and bit rates for each service flow.  
         [0063]    6. The GGSN  440  uses the PDP context based policy information to accept the PDP activation request, and sends a Create PDP Context Response back to SGSN  130 . The SGSN  130  sends an Activate (Secondary) PDP Context Accept to UE  160 .  
         [0064]    [0064]FIG. 9 is an example which enables QoS control over a streaming communication service. A streaming bearer PDP context request is passed between GGSN  440  and terminal  160 . PCF  405  functions as described above and provides binding of the streaming session with the streaming bearer PDP context, etc. The Service Logic  410  of the streaming server or RTSP proxy  100  decides what QoS information to provide based on SDP.  
         [0065]    This embodiment enables QoS control on a per session basis, as well as static service subscriptions based upon policy rules determined from consideration of the subscriber information and service provider information. It also ensures that the bearer only carries authorized traffic and, for example, the user can not use the streaming bearer to carry email traffic.  
         [0066]    [0066]FIG. 10 illustrates the process of obtaining subscriber information from the subscription manager database  420  based upon the IMSI and APN provided through the PCF  405 . The PCF  405  creates the PDP context class, bitrate, list of allowed services including service name which is stored in the local rules repository and passed to the GGSN  440 .  
         [0067]    There are numerous advantages provided by the embodiments of the invention. One single architecture can be used to control QoS allocation to all the traffic of different service usage and user service selection/subscription. QoS allocation may be combined with session QoS information dynamically. The invention enables the network to offer differentiated treatment of interactive and background traffic in a controlled and consistent manner. There is better control resolution compared to traffic class based static subscription control from a HLR, but backwards compatibility with the conventional HLR is provided. This solution also inter-works well with multi-vendor radio access networks  150 , since it utilizes the UMTS QoS bearer architecture and standard PDP context negotiation procedures. This enables the QoS policy enforcement not only in the GGSN  440  but also throughout the mobile network.  
         [0068]    The invention achieves the following:  
         [0069]    1. Enabling differentiation: Differentiation between individual subscribers, services and providers can be achieved via admission control and QoS negotiation leading to classification of the generated traffic. The classification then results in different kind of prioritization of the traffic in the network and hence, impacts to the probability of the service maintaining best possible quality level. This architecture enables QoS differentiation based on user selected services as well as the business potentials of different services.  
         [0070]    2. Enabling centralized policy decision functions: The key value of this invention is to enforce operator business logic, that is to enable the utilization of mobile network resource according to the business priority of different customers and services. This architecture supports a centralized policy decision function at the mobile network edge, and more specifically, enables the mapping of business importance of user traffic into relevant GPRS bearer QoS attribute(s), and consequently enable the radio access network to handle the traffic according to the right priority.  
         [0071]    While the invention has been described in terms of its preferred embodiments, it should be understood that numerous modifications may be made thereto without departing from the spirit and scope of the present invention. It is intended that all such modifications fall within the scope of the appended claims.