EP3777309A1 - Equipement orchestrateur dans un système de télécommunication cellulaire - Google Patents
Equipement orchestrateur dans un système de télécommunication cellulaireInfo
- Publication number
- EP3777309A1 EP3777309A1 EP19715479.2A EP19715479A EP3777309A1 EP 3777309 A1 EP3777309 A1 EP 3777309A1 EP 19715479 A EP19715479 A EP 19715479A EP 3777309 A1 EP3777309 A1 EP 3777309A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- equipment
- crisis
- orchestrator
- user equipment
- gateway
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/90—Services for handling of emergency or hazardous situations, e.g. earthquake and tsunami warning systems [ETWS]
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W12/00—Security arrangements; Authentication; Protecting privacy or anonymity
- H04W12/06—Authentication
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/14—Reselecting a network or an air interface
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W48/00—Access restriction; Network selection; Access point selection
- H04W48/02—Access restriction performed under specific conditions
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
- H04W76/12—Setup of transport tunnels
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/50—Connection management for emergency connections
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/14—Reselecting a network or an air interface
- H04W36/144—Reselecting a network or an air interface over a different radio air interface technology
- H04W36/1443—Reselecting a network or an air interface over a different radio air interface technology between licensed networks
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/18—Service support devices; Network management devices
Definitions
- the present invention relates to a crisis situation management, such as a situation of intervention of the police and / or the civil security services at an incident site, within the framework of a network administration.
- a crisis situation management such as a situation of intervention of the police and / or the civil security services at an incident site, within the framework of a network administration.
- cellular telecommunication
- LTE technology Long Term Evolution
- 4G (4th Generation) relies solely on a packet-switched model.
- Telecommunications Future technologies such as LTE-B technology, also known as 5G (5th Generation), should follow the same approach.
- LTE Internet Protocol
- UE User Equipment
- PDN Packet Data Network
- SAE System Architecture Evolution
- EPC Evolved Packet Core
- GPRS General Packet Radio Service
- the EPS cellular telecommunications system uses a concept of radio bearers in English, called EPS bearers in order to route IP traffic between a gateway of the PDN network and any UE user equipment.
- An EPS radio carrier is a set of coordinated resources dedicated to transporting an IP packet stream with a quality of service (QoS) predetermined between said gateway and the user equipment UE.
- QoS quality of service
- the E-UTRAN radio access part and the core EPC network part set up (“set up") and release ("release” in English) radio carriers according to the application requirements vis-à-vis UE user equipment present in the EPS cellular telecommunication system.
- radio carriers can be established, and active simultaneously, for the same user equipment UE, to provide several different quality of service data streams QoS or to provide connectivity to different PDN networks.
- a user UE may be engaged in a VoIP conversation ("Voice over IP" in English) and simultaneously perform web browsing or download according to the FTP ("File Transfer Protocol"), to which case a first radio carrier provides the QoS quality of service required for the VoIP conversation and a second best-effort radio carrier provides support adapted to web browsing or download according to the protocol FTP.
- FTP File Transfer Protocol
- the radio bearers that can be established in the EPS cellular telecommunication system depend on subscriptions made to telecommunication operators for the UE user equipment to which these radio carriers are intended.
- the EPS cellular telecommunication system therefore acts according to these subscriptions.
- crisis situations in which this behavior of the EPS cellular telecommunication system is unsuitable.
- Such crisis situations are, for example, demonstrations requiring a reinforced law enforcement presence or a terrorist attack requiring the joint intervention of the police and the civil security services ...
- the EPS cellular telecommunication system may be congested by communications or more generally by the use of the services of the cellular telecommunication system EPS which comply with the subscriptions associated with the UE user equipment concerned but which are not prioritized in view of the situation of ongoing crisis.
- the lack of availability of the EPS cellular telecommunication system can have a significant negative impact on the management of the crisis situation by law enforcement and / or civil security and its resolution.
- the invention relates to a method for accessing services of a cellular telecommunication system comprising: a radio access part allowing user equipment to access services of the cellular telecommunication system for which radio carriers must be established; and a core network portion including quality of service policy control equipment connected to a gateway through which said radio carriers are established to access said services.
- an orchestrator device connected to said gateway performs the following steps: receiving from said gateway regular reports concerning the radio bearers established in the cellular telecommunications system for the user equipment attached to said gateway; detect an occurrence of a crisis situation; identify cells in the cellular telecommunication system affected by the crisis situation; apply, during the crisis, crisis management rules: by refusing to authenticate user equipment for which the crisis management rules indicate that access to these services is prohibited during the crisis situation, when said gateway makes an authentication request to the orchestrator equipment for said user equipment; and by requiring the gateway to terminate any session established for user equipment for which the crisis management rules indicate that access to such services is prohibited during the crisis, when regular reports indicate that such sessions exist for said user equipment.
- the orchestrator equipment applies crisis management rules during the crisis situation, in addition: by refusing to authenticate user equipment for which the crisis management rules indicate that the attachment to a predefined access point name is prohibited during the crisis situation, when said gateway makes an authentication request for the user equipment to the orchestrator equipment; and requesting the gateway to terminate any session established for user equipment for which the crisis management rules indicate that attachment to a predefined access point name is prohibited during the crisis situation, when Regular reports indicate that such sessions exist for these user devices.
- the availability of the services of the cellular telecommunication system is increased by attachment management with access point names.
- the orchestrator equipment applies, during the crisis, the crisis management rules further by refusing to establish said radio carrier of a user equipment when the situation management rules of crisis indicate that the quality of service class identifier of said radio carrier is prohibited during the crisis situation.
- the availability of the services of the cellular telecommunication system is increased by management of the radio bearer establishments by class of quality of service.
- the orchestrating equipment applies, during the crisis, the crisis management rules in addition: by asking the gateway to close any radio carrier established for user equipment for which the rules of Crisis management indicates that a QoS class identifier is prohibited, when regular reports indicate that such sessions exist for such user equipment.
- the availability of the services of the cellular telecommunication system is increased by management of radio carriers already established by quality of service class.
- the orchestrator equipment applies, during the crisis situation, the crisis management rules in addition: by decreasing a quality of service associated with session institutions by interception and modification of messages exchanged during said sessional institutions between the QoS policy control equipment and said gateway, when the session facilities relate to equipment where the crisis management rules indicate an authorized quality of service limit.
- the availability of the services of the cellular telecommunication system is increased by managing the session facilities by intervening directly in the exchanges between the QoS policy control equipment and said gateway.
- the orchestrator equipment applies, during the crisis, the crisis management rules in addition: by decreasing a quality of service associated with previously established radio carriers, by emulation of messages transmitted by the quality of service policy control equipment at said gateway, when the sessions relate to user equipment for which the crisis management rules indicate an authorized quality of service limit.
- the availability of the services of the cellular telecommunication system is increased by managing the sessions already established by intervening directly with said gateway on behalf of the quality of service policy control equipment.
- the orchestrator equipment applies, during the crisis situation, the crisis management rules in addition: by decreasing a quality of service associated with radio bearer establishments by interception and modification of messages exchanged at said radio carrier establishments between QoS control equipment and an application function, where the session facilities concern user equipment for which the crisis management rules indicate an authorized quality of service limit .
- the availability of cellular telecommunication system services is increased by managing radio bearer facilities by directly intervening with the quality of service policy control equipment.
- the orchestrator equipment applies, during the crisis, the crisis management rules in addition: by decreasing a quality of service associated with previously established radio carriers, by emulation of messages transmitted by an application function to the quality of service policy control equipment, when said radio bearers relate to user equipment for which the crisis management rules indicate an authorized quality of service limit.
- the availability of cellular telecommunication system services is increased by management of the already established radio carriers by intervening directly with said gateway on behalf of the quality of service policy control equipment.
- the orchestrator equipment declares a proxy device as a domain name server with said gateway, in that the orchestrator equipment serves as authentication and authorization server with the proxy equipment for domain name resolution requests made to the proxy equipment, and that the orchestrating equipment refuses to authenticate or authorize user equipment for which the crisis management rules indicate that the name of the domain to be solved is prohibited during the crisis situation for said user equipment.
- the orchestrator equipment serves as authentication and authorization server with the proxy equipment for domain name resolution requests made to the proxy equipment, and that the orchestrating equipment refuses to authenticate or authorize user equipment for which the crisis management rules indicate that the name of the domain to be solved is prohibited during the crisis situation for said user equipment.
- the orchestrator equipment implements filtering of at least one level, from: a user equipment identification filtering table for which at least one rule can be applied during the crisis situation to the user equipment in question; and / or a cell identifier filtering table for which at least one rule can be applied during the crisis situation to the cell in question among the cells concerned by the crisis situation; and / or an access point name filtering table for which at least one rule can be applied during the crisis situation for any connection to the access point name in question; and / or a quality of service class identifier filtering table for which at least one associated rule may be applied during the crisis situation for any radio bearer associated with said quality of service class; and / or an application service filtering table for which at least one associated rule can be applied during the crisis situation for any access to said application service; and / or a quality of service parameter modification table for which at least one associated rule may be applied during the crisis situation for any radio bearer associated with the quality of service parameter in question.
- a user equipment identification filtering table for which at least one rule can be
- the orchestrator equipment comprises a user interface adapted to enable a human operator to declare the occurrence of the crisis situation, to identify the cells of the cellular telecommunications system concerned by the crisis situation, select at less a user equipment or group of user equipment likely to intervene in the cells concerned to resolve the crisis situation, and to associate sets of crisis management rules with at least one user equipment or group of user equipment .
- the management of various scenarios of crisis situation is facilitated.
- the user interface is further adapted to allow the human operator to define a set of rules for any other user equipment not belonging to said at least one user equipment or group of user equipment.
- the implementation of the rules is flexible.
- the invention also relates to an orchestrator equipment in the context of access to services of a cellular telecommunication system comprising: a radio access part enabling user equipment to access services of the cellular telecommunications system for which radio carriers must be established; and a core network portion including quality of service policy control equipment connected to a gateway through which said radio carriers are established to access said services.
- the orchestrator equipment is intended to be connected to said gateway, and comprises: means for receiving from said gateway regular reports concerning the radio carriers established in the cellular telecommunications system for the user equipment attached to said gateway; means for detecting an occurrence of a crisis situation; means for identifying cells of the cellular telecommunications system affected by the crisis situation; means to apply, during the crisis, crisis management rules: by refusing to authenticate user equipment for which crisis management rules indicate that access to these services is prohibited during the situation crisis, when said gateway makes an authentication request for the user equipment to the orchestrator equipment; and by asking the gateway to terminate any session established for user equipment for which the crisis management rules indicate that access to it is prohibited during the crisis situation, where regular reports indicate that such sessions exist for said user equipment.
- the invention also relates to a computer program, which can be stored on a medium and / or downloaded from a communication network, in order to be read by a processor.
- This computer program includes instructions for implementing the method mentioned above in any of its embodiments, when said program is executed by said processor.
- the invention also relates to storage means on which is stored such a computer program.
- FIG. 1 schematically illustrates a cellular telecommunication system in which the present invention is implemented
- FIG. 2 schematically illustrates an example of hardware architecture of an orchestrator equipment of the cellular telecommunications system
- FIG. 3 schematically illustrates an algorithm for collecting data relating to the use of the cellular telecommunications system
- FIG. 4 schematically illustrates an algorithm for processing the data received in the context of the algorithm of FIG. 3;
- FIG. 5 schematically illustrates an algorithm for responding to the occurrence of a crisis situation
- FIG. 6 schematically illustrates a connection management algorithm established via the cellular telecommunication system in a crisis situation
- FIG. 7 schematically illustrates a particular arrangement in the context of a domain name resolution service
- FIG. 8 schematically illustrates a particular arrangement of the cellular telecommunication system
- FIG. 9 schematically illustrates first exchanges in connection with a session setup when the particular arrangement of FIG. 8 is implemented
- FIG. 10 schematically illustrates second exchanges within the context of a session setup when the particular arrangement of FIG. 8 is implemented.
- Fig. 1 schematically illustrates an EPS cellular telecommunication system in which the present invention is implemented.
- the cellular telecommunication system EPS comprises an E-UTRAN radio access part 110 via which at least one user equipment UE 100, and typically several UE user equipment, accesses the services of the EPS cellular telecommunication system, and an EPC core network portion 120 giving access to different PDN networks.
- the E-UTRAN radio access part 110 comprises a plurality of base stations, called "eNodeBs", with which UE UEs communicate by radio to access services offered by the EPS cellular telecommunication system.
- FIG. 1 shows a single eNB base station 111 and a single user equipment UE 100 interconnected by the wireless link 151.
- the user equipment UE 100 accesses the services of the cellular telecommunication system EPS through a wireless link 151 with the base station eNB 111.
- the base station eNB 111 is connected to a gateway SGW ("Serving GateWay") 123 of the core network portion EPC 120 through a link 153 and to a mobility management entity MME (" Mobility Management Entity 122) of the core network portion EPC 120 through a link 152.
- the cellular telecommunication system EPS typically comprises a plurality of such SGW gateways, at each of these SGW gateways being connected a plurality of such gateway stations. eNB basis.
- the cellular telecommunication system EPS typically comprises a plurality of such mobility management entities MME, with each of these mobility management entities MME being connected to a plurality of SGW gateways.
- the core network portion EPC 120 further comprises at least one PGW gateway
- the cellular telecommunication system EPS typically comprises a plurality of such PGW gateways, at each of these PGW gateways being connected a plurality of such SGW gateways and at each of these SGW gateways being connected a plurality of such PGW gateways.
- the PCRF 124 is responsible for making QoS QoS policy control decisions, as well as controlling billing features implemented in a PCEF (Policy Control Enforcement Function) component of each PGW gateway. Quality of service QoS policy control decisions are enforced according to control rules predetermined quality of service QoS policies, by the PCEF component of each PGW gateway concerned.
- PCEF Policy Control Enforcement Function
- the entity MME 122 is a device in charge of the control plan, and more particularly of signaling operations, between the core network portion EPC 120 of the cellular telecommunication system EPS and the user equipments UE connected to the gateways SGW whose entity MS 122 is in charge.
- the HSS server 121 is a database management equipment in which information relating to a profile of each user who has made a subscription to the services of the cellular telecommunication system EPS, as well as information relating to said subscription, is stored.
- the HSS server 121 stores in particular, for each user, information as to the PDN networks to which said user is authorized to access via his user equipment UE.
- the HSS server 121 also stores in particular dynamic information representative of the MME entity to which said user equipment UE is currently attached.
- the HSS server 121 can also integrate an authentication center AUC ("AUthentication Center" in English), in charge of generating vectors of authentication and security keys.
- AUC authentication center
- the PGW 125 is also responsible for enforcing quality of service QoS policies vis-à-vis GBR (Guaranteed Bit Rate) radio bearers and enabling a billing system.
- GBR Guard Bit Rate
- OCS Online Charging System
- the PGW gateway 125 uses an ORCH orchestrator 140 to allocate IP addresses to UEs authorized to access the PDN network (s) at which the PGW gateway 125 provides access.
- the PGW 125 uses the ORCH orchestrator 140 to authenticate the UEs and, in return for successful authentication, the ORCH orchestrator 140 provides an IP address for each UE UE concerned.
- the PGW gateway 125 is configurable to provide ORCH 140 orchestrator equipment with reports of ongoing communications in the EPS cellular telecommunications system and notifications of changes in current communications in the system. of EPS cellular telecommunication (establishment of a new communication, change of cell of UE user equipment, end of a communication, ).
- the SGW gateway 123 is in charge of routing the data flows to and from the UEs connected to the eNB base stations under the responsibility of the SGW 123 gateway.
- the SGW 123 serves as a mobility anchor point. Local (“local mobility anchor” in English), when the user equipment UE 100 migrates from the base station eNB 111 to another base station eNB under the responsibility of the gateway SGW 123, and vice versa.
- ORCH Orchestrator 140 is in charge of temporarily modifying the QoS QoS policy control rules that are applied by the PCEF component of each PGW gateway concerned, so as to adapt the behavior of the heart EPC network portion 120 to a crisis situation.
- the ORCH orchestrator equipment 140 is further in charge of indicating to the PGW gateway 125 which domain name server, eg of the DNS ("Domain Name Service") type, refers to to perform domain name resolutions and possibly reverse resolutions.
- the orchestrator equipment ORCH 140 indicates to the gateway PGW 125 to refer, for domain name resolutions and possibly reverse resolutions, to a proxy equipment as described below in connection with FIG. 7.
- the SGW gateway 123 is connected to the PGW gateway 125 through a link 156.
- the SGW gateway 123 is connected to the MME entity 122 through a link 155.
- the MME entity 122 is connected to the HSS server 121 through a link 154.
- the PGW gateway 125 is connected to the equipment
- the PCRF equipment 124 is connected to the HSS server 121 through a link 159.
- the PGW gateway 125 is connected to the equipment to the orchestrator equipment ORCH 140 via a link 141.
- PCRF equipment 124 can be connected to AF equipment
- orchestral equipment ORCH 140 is seen, in one embodiment particular, as an AF equipment by the PCRF equipment 124 and it is connected via a link 157.
- the interfaces (as well as the applicable message formats) - also called "reference points" according to the English terminology of the LTE technology - between the different elements constituting the EPS cellular telecommunications system are standardized. . Especially:
- Gx the interface between the PGW gateway 125 and the PCRF equipment 124 is called Gx and is defined in the specifications 3GPP TS 23.203: “Policy and Charging Control Architecture” and 3GPP TS 29.212 “Policy and Charging Control (PCC); Reference Points ";
- Rx the interface between the PCRF equipment 124 and the orchestrator equipment ORCH 140 is called Rx and is defined in the specifications 3GPP TS 23.203: “Policy and Charging Control Architecture” and 3GPP TS 29.214 "Policy and Charging Control over Rx Reference Point" " and
- SGi SGi and is defined in the specifications 3GPP TS 29.061 "Interworking between the Public Land Mobile Network (PLMN) and Packet Data Networks (PDN)".
- PLMN Public Land Mobile Network
- PDN Packet Data Networks
- Gx, Rx and SGi interfaces are based on the DIAMETER protocol, as specified in the normative document RFC 3588, which has been defined to replace the RADIUS protocol ("Remote Authentication Dial-In User Service"), as specified in RFC 2865 and RFC 2866, in AAA (Authentication, Authorization, Accounting / Auditing) infrastructures.
- RADIUS protocol Remote Authentication Dial-In User Service
- AAA Authentication, Authorization, Accounting / Auditing
- the links between the radio access portion E-UTRAN 110 and the core network portion EPC 120, as well as the links within the core network portion EPC 120, and the links between the core network portion EPC 120 and the Orchestrator ORCH 140 devices are logical links. This means that network devices, such as routers or switches, are typically present on these links to provide transmissions of IP packets in which any message exchanged is encapsulated.
- Fig. 2 schematically illustrates an example of hardware architecture of ORCH orchestrator equipment 140.
- the orchestrator ORCH 140 then includes, connected by a communication bus 210: a processor or CPU ("Central Processing Unit” in English) 201; Random Access Memory (RAM) 202; a ROM (Read Only Memory) 203; a storage unit 204, such as a hard disk drive HDD ("Hard Disk Drive” in English), or a storage medium drive, such as a SD card reader ("Secure Digital” in English); and at least one COM 205 communication interface configured to allow the ORCH orchestrator 140 to communicate, especially within the EPS cellular telecommunication system.
- a processor or CPU Central Processing Unit
- RAM Random Access Memory
- ROM Read Only Memory
- storage unit 204 such as a hard disk drive HDD ("Hard Disk Drive” in English), or a storage medium drive, such as a SD card reader ("Secure Digital” in English
- COM 205 communication interface configured to allow the ORCH orchestrator 140
- the processor 201 is capable of executing instructions loaded in RAM RAM 202 from ROM 203, or external memory, or storage medium, or communication network. When the ORCH orchestrator 140 is turned on, the processor 201 is capable of reading RAM 202 from instructions and executing them. These instructions form a computer program causing the implementation, by the processor 201, of all or part of the algorithms and steps described below.
- ORCH orchestrator equipment 140 includes electronic circuitry configured to implement the algorithms and steps described hereinafter.
- Fig. 3 schematically illustrates an algorithm for collecting data relating to the use of the cellular telecommunication system.
- the algorithm of the Lig. 3 is implemented by orchestrator equipment ORCH 140. It is considered in the Lig. 3 that the PGW gateway 125 is preconfigured to transmit CDR (Charging Data Record) periodic reports to the ORCH 140 orchestrator equipment for each session established via the PGW gateway 125. It is recalled that each session includes least a radio carrier, namely a default radio carrier ("default EPS bearer" in English) implemented during a registration procedure of the UE user equipment considered, and possibly one or more dedicated radio bearers ("dedicated EPS bearer" in English).
- the PGW gateway 125 is preconfigured to transmit a CDR report of each usage change of a said session (for example, in the case of a cell change by a UE UE).
- the frequency of transmissions of CDR reports is also preconfigured.
- ORCH orchestrator equipment 140 is thus informed of each session established via the PGW gateway 125 and the UE concerned by said session. ORCH orchestrator equipment 140 is thus informed of any communication activity in any cell managed by the PGW gateway 125.
- the PGW gateway 125 is configured to use the ORCH 140 orchestrator equipment as an AAA server during session creations and session endings.
- the PGW gateway 125 requests the ORCH orchestrator equipment 140 to authenticate the UE concerned and to validate, or not, the creation of session for said UE user equipment.
- the exchanges of messages described in ⁇ 16 of 3GPP TS 29.061 specifications already mentioned are preferentially used.
- the ORCH orchestrator 140 is then in charge of allocating an IP address for each user terminal UE, as already mentioned.
- the ORCH orchestrator equipment 140 is initialized and, for example, by setting up the AAA services and opening the associated ports
- the ORCH 140 orchestrator equipment waits to receive a CDR report from the PGW gateway 125.
- CDR reports CDR are transmitted in messages of the type Accounting-Request ( start), Accounting-Request (stop) or Accounting- Request (interim).
- the ORCH orchestrator equipment 140 may also be required to receive authentication and authorization request messages, in particular of the Access-Request type, as an AAA-type server.
- a step S303 the orchestrator equipment ORCH 140 receives a report
- ORCH orchestrator 140 places the CDR report or the authentication and authorization request message, received at the step S302, in a FIFO buffer ("First-In First-Out"). A process Dedicated is then in charge of unstacking the CDR reports or messages stored in the FIFO buffer, as described below in relation to FIG. 4.
- ORCH 140 orchestrator equipment can directly process the CDRs or messages upon receipt. An advantage of relying on a FIFO-type memory is to allow some asynchronism between the receipt of CDR reports or messages and their processing.
- the ORCH orchestrator 140 may process the authentication and authorization request messages upon receipt, and place the CDRs in the FIFO buffer for subsequent asynchronous processing by the process. dedicated.
- ORCH orchestrator equipment 140 then waits to receive a new CDR report, or a new authentication request and authorization message, from the PGW gateway 125. Step S302 is thus repeated.
- Fig. 4 schematically illustrates an algorithm for processing the data received in the context of the algorithm of FIG. 3.
- the algorithm of FIG. 4 is implemented by orchestrator equipment ORCH 140.
- a step S401 the orchestrator ORCH 140 is waiting for the FIFO buffer, introduced in connection with FIG. 3, ie non-empty.
- the ORCH orchestrator 140 detects that the FIFO buffer is not empty, and extracts a CDR report or an authentication and authorization request message.
- step S403 the ORCH orchestrator equipment 140 fills management tables based on the data contained in the CDR report, or authentication request and authorization message, extracted in step S402.
- the orchestrator equipment ORCH 140 thus includes dynamically updated management tables based on the data received from the PGW gateway 125.
- ORCH orchestrator equipment 140 includes a radio carrier description table established in the EPS cellular telecommunications system, called BEARERS-DESC.
- the BEARERS-DESC table thus comprises a descriptor for each radio carrier, which comprises at least: a BEARER-ID radio bearer identifier identifying said radio bearer, a SESSION-ID session identifier to which the radio bearer is associated, an identifier of QCI quality of service class ("QoS Class Identifier") in English, where "QoS" means "Quality of Service") associated with said radio bearer, a maximum authorized rate information MBR ("Maximum Bit Rate" in English) via said radio bearer, priority information ARP ("Retention Allowance") Priority "in English) associated with said radio carrier.
- Other information can complete said descriptor, such as guaranteed bitrate information GBR ("Guaranteed Bit Rate” in English) via said radio carrier, a data volume information transported via said radio carrier, etc.
- Orchestrator equipment ORCH 140 also has a session description table, called SESSIONS-DESC.
- the SESSIONS-DESC table thus comprises a descriptor for each session, which comprises at least: a session identifier SESSION-ID identifying said session, a cell identifier CELL-ID in which is located the user UE UE in question, an identifier International Mobile Subscriber Identity (IMSI).
- IMSI International Mobile Subscriber Identity
- Other information may supplement said descriptor, such as for example a radio access technology (RAT) technology information used by the UE in question, an IP address allocated to the user equipment UE for which the session has been established, an access point name (APN) of the PDN packet data network with which the session has been established, ...
- RAT radio access technology
- API access point name
- ORCH 140 orchestrator equipment may further comprise static management tables providing for example a description of the structure of the EPS cellular telecommunications system, a description of the network resources made available by the EPS cellular telecommunications system, a list of identifiers IMSI subscription obtained from the HSS 121 local subscription server.
- a step S404 the orchestrator equipment ORCH 140 checks whether a crisis situation is in progress, or not. If this is the case, a step S405 is performed; otherwise, a step S406 is performed.
- ORCH orchestrator equipment 140 applies crisis management rules. These rules define a temporary behavior to be adopted by the cellular telecommunication system EPS, vis-à-vis institutions and changes in sessions and radio carriers during the crisis. This aspect is detailed below in relation to FIGS. 5 and 6.
- ORCH orchestrator equipment 140 checks whether the FIFO buffer contains other data. If this is the case, step S402 is repeated; otherwise, step S401 is repeated.
- Fig. 5 schematically illustrates an algorithm for responding to the occurrence of a crisis situation.
- the algorithm of FIG. 5 is implemented by orchestrator equipment ORCH 140.
- a step S501 the orchestrator ORCH 140 detects the occurrence of a crisis situation.
- Such a crisis situation is, for example, triggered by the occurrence of a fire, a gas leak, or a terrorist attack, or any other incident that requires the intervention of specific operational services (forces of the order, civil security services, military ...) with specific communication needs for which it is necessary to adapt the behavior of the EPS cellular telecommunication system during the duration of the crisis situation.
- the occurrence of the crisis situation can be reported to ORCH 140 orchestrator equipment by a human operator via a human-machine interface of ORCH orchestrator equipment 140, for example via a Graphical User Interface (GUI). ) dedicated.
- GUI Graphical User Interface
- the occurrence of the crisis situation can be reported to ORCH orchestrator equipment 140 by a sensor connected, for example via the Internet, to orchestrator equipment ORCH 140.
- the occurrence of a fire can be reported to ORCH orchestrator equipment 140 by a smoke detector connected to orchestrator equipment ORCH 140 via the Internet or a LPWAN type network ("Low-Power Wide Area Network" in English) for example according to LoRa technology.
- the orchestrator equipment ORCH 140 identifies which cells of the cellular telecommunication system EPS are affected by the crisis situation.
- An indication of each cell of the cellular telecommunication system EPS concerned by the crisis situation can be provided by a human operator via a dedicated GUI GUI of ORCH orchestrator equipment 140.
- the GUI graphical interface displays on a map a location where the incident that triggered the crisis occurred, the map further showing the position of the base stations, eg eNodeB, of the cellular telecommunication system EPS and their respective radio ranges.
- the human operator selects the cells surrounding the location of the incident in a given radius.
- An automatic selection of the cells in question is possible by selecting the cells of the cellular telecommunication system EPS whose position of the base stations, eg eNodeB, is located at a distance less than a predefined threshold with respect to the place where said incident.
- the amount of cells involved may differ depending on the type of incident that triggered the crisis.
- the orchestrator equipment ORCH 140 identifies which UE user equipment is affected by the crisis situation.
- ORCH orchestrator equipment 140 identifies which UE user equipment should be given priority in order to benefit from certain services, so as to facilitate the exit of crisis situation in the field.
- the orchestrator equipment ORCH 140 accesses, in a database, a list of user equipment identifiers UE, eg IMSI subscription identifiers, used by the police and / or civil security services to intervene at the scene of the incident.
- ORCH 140 orchestrator equipment classifies the user UEs into predefined groups, each predefined group being associated with its own crisis management rules.
- ORCH orchestrator equipment 140 has: a first class which corresponds to a first list of UE UEs likely to be used by the police, to which a first set of rules is associated; and a second class which corresponds to a second UE user equipment list likely to be used by the civil security forces, to which a second set of rules is associated; and a third class that groups all other UE user equipment, to which a third set of rules is associated.
- the orchestrator equipment ORCH 140 activates crisis management rules. These crisis management rules define an action plan to be applied by the cellular telecommunication system EPS vis-à-vis UE user equipment present in the cells identified in step S502.
- a human operator selects a crisis situation profile via a dedicated GUI graphical interface of the orchestrator equipment ORCH 140, which selects a predefined set of crisis management rules. For example, considering that the crisis situation is triggered by a terrorist act, the human operator selects a crisis situation profile that corresponds to a terrorist act scenario and the predefined set of crisis management rules that derives from it defines:
- the voice service is authorized with a level of quality of service
- the voice and video services are authorized with a guaranteed quality of service QoS level, as well as access to one or more business applications, while access to non-critical services such as browsing the Internet is prohibited;
- the voice service is authorized with a QoS quality of service guaranteed and access to non-critical services such as navigation on the Internet are forbidden;
- the data service is authorized with a level of quality of service Guaranteed QoS (for example, for gas presence sensors in case of sarin gas attack); and
- the voice services are authorized with an unsecured QoS quality of service level, and accesses to non-critical services such as the data service and browsing the Internet are prohibited.
- the rules presented above are illustrative, and different behaviors of the EPS cellular telecommunication system can be predefined depending on the scenario of crisis situation encountered.
- the crisis situation management rules can be dynamically modified by the human operator, so as to adapt them to particularities of the crisis situation encountered.
- the application of these rules implies an intervention of the orchestrator equipment ORCH 140 so as to enforce said rules.
- the application of said rules may be different depending on the implementation context of the ORCH orchestrator equipment 140, and more particularly according to the communication means available to the orchestrator equipment ORCH 140 in particular with the PCRF equipment 124.
- the link 158 between the PGW gateway 125 and the PCRF equipment 124 may be made accessible or not accessible to the orchestrator equipment ORCH 140 for interception and possible modification of messages passing through it.
- the ORCH orchestrator equipment 140 preferably implements filtering tables. Preferred examples of filter tables are presented below.
- ORCH 140 orchestrator equipment creates a table, called IMSI-FILTR, filtering UE user equipment identifier for which at least one associated rule can be applied during the crisis situation.
- the IMSI-FILTR table thus has at least one descriptor for each user UE UE identified in step S503, which includes: an identifier of said user equipment UE, for which at least one associated rule can be applied during the crisis situation.
- the descriptor may further include an organization identifier (e.g. law enforcement agencies, civil security services, technical services, etc.) to which said UE user equipment belongs. For example, such a descriptor indicates that the UE can not establish a communication session
- ORCH orchestrator equipment 140 creates a cell identifier filtering table CELL-FILTR for which at least one associated rule can be applied during the crisis situation.
- the CELL-FILTR table thus has at least one descriptor for each cell identified in step S503, which includes: an identifier of the cell, for which at least one associated rule can be applied during the crisis situation. For example, such a descriptor indicates that any user equipment UE in said cell can not access this or that service of the cellular telecommunications system EPS.
- ORCH orchestrator equipment 140 creates a table, called APN-FILTR, filtering by APN access point name for which at least one associated rule can be applied during the crisis situation.
- the APN-FILTR table thus has at least one descriptor for each APN access point name for which at least one an associated rule must be applied during the crisis situation. For example, such a descriptor indicates that the user UEs seeking to connect to a particular APN access point name must be denied authentication during the crisis situation and that UE user devices already connected to such or such APN access point name must be disconnected.
- ORCH orchestrator equipment 140 creates a table, called QCI-FILTR, filtering by QCI quality of service class identifier for which at least one associated rule can be applied during the crisis situation.
- the QCI-FILTR table thus comprises at least one descriptor for each QCI quality of service class identifier for which at least one associated rule can be applied during the crisis situation. For example, such a descriptor indicates that the radio bearers associated with this or that class of quality of service QCI, or with a higher class, must be refused or closed during the crisis situation.
- Orchestrator ORCH 140 creates a table, called APP-FILTR, application service filtering for which at least one associated rule can be applied during the crisis situation.
- the APP-FILTR table thus comprises at least one descriptor for each application service (eg access to a specific URL ("Uniform Resource Locator") and associated domain name resolution) for which at least one associated rule can be applied during the crisis situation.
- a descriptor indicates that this or that domain name is accessible during the crisis situation or vice versa that it is not accessible only by UE user equipment associated with such or such organization identifier (eg forces of Order, civil security services, technical services ).
- Orchestrator ORCH 140 creates a table, called QOS-MOD, for modifying quality of service parameters.
- the QOS-MOD table thus has at least one descriptor for each quality of service level for which at least one associated rule can be applied during the crisis situation. For example, such a descriptor indicates that any QoS level of service should be lowered to a QoS QoS level by default.
- filter tables can be implemented to facilitate the filtering of CDR reports and authentication and authorization request messages, and possibly domain name resolution requests. Combinations of filter tables can be performed. Thus, the rules can be defined by combining several levels of filtering using the filtering tables. For example, a user equipment UE IMSI identifier filtering and a CELL-ID cell identifier filtering makes it possible to refuse the session establishment or to close those already in progress for the identified UE user equipment for one or more predetermined cells from the cells identified in step S502. Outside of said predetermined one or more cells, this same user equipment UE is allowed to establish a communication session among the cells identified in step S502.
- CELL-ID cell identifier filtering with APN access point name filtering or with QCI quality of service class identifier filtering or filtering.
- APP application or QoS QoS filtering for limiting the application of the respective filter rules to any user UE UE present in one or more predetermined cells from the cells identified in step S502. It is also possible to combine filtering by UE user equipment IMSI identifier with APN access point name filtering or with QCI quality of service class identifier filtering or with APP application filtering or with filtering.
- QoS quality of service modification to limit the application of the respective rules to one or more predetermined user UE UE regardless of the cell among the cells identified in step S502.
- UE user equipment which allows APN filtering to be applied to a predetermined UE user device in one or more of the cells identified in step S502.
- the rules defining two different filtering levels it is possible to combine filtering by CELL-ID cell identifier and filtering by UE user equipment identifier IMSI with application filtering APP or with class identifier filtering.
- QCI quality of service or quality of service QoS modification filtering to limit the application of the respective rules to a device predetermined UE user in one or more of the cells identified in step S502.
- these filtering tables are created from models ("templates" in English), stored in the database, which have been pre-established according to the type of crisis situation (fire, bombing, gas leakage, etc.). ).
- the implementation of the crisis situation management rules entails, during the crisis period, the implication of the ORCH 140 orchestrator equipment in the management of the connections established via the EPS cellular telecommunications system. This aspect is detailed below in relation to FIG. 6.
- a step S505 the orchestrator equipment ORCH 140 checks whether the crisis situation is ended or not. For example, the end of the crisis situation can be signaled to ORCH 140 orchestrator equipment by a human operator via a dedicated GUI GUI of orchestrator equipment ORCH 140. If the crisis situation is ended, a step S506 is performed; otherwise, the step S505 is repeated, for example after expiry of a predefined duration time delay.
- Fig. 6 schematically illustrates a connection management algorithm established via the EPS cellular telecommunication system in a crisis situation.
- the algorithm of FIG. 6 is implemented by ORCH Orchestrator 140 and is triggered upon updating of the aforementioned management tables (see step S403).
- a step S601 the orchestrator equipment ORCH 140 analyzes the data and messages received from the PGW gateway 125. In other words, the orchestrator equipment ORCH 140 traverses the aforementioned management tables.
- the orchestrator equipment ORCH 140 identifies, among the connections described in the management tables, which UE user equipments for which at least one crisis management rule is applicable.
- step S603 the orchestrator ORCH 140 selects a UE from one of the UEs identified in step S602.
- ORCH 140 orchestrator equipment applies each crisis management rule that has been defined for the UE user equipment that was selected in step S603. More particularly, ORCH orchestrator equipment 140 refers to the filter tables to determine which rule to apply for which UE user equipment. When the orchestrator equipment ORCH 140 is informed by the gateway PGW 125 that a connection has been established for such user equipment UE, the orchestrator equipment ORCH 140 checks whether a crisis management rule must or not be applied for said connection.
- the orchestrator equipment ORCH 140 when the ORCH orchestrator equipment 140 detects that an UE has established a session in a cell concerned by the crisis situation, the orchestrator equipment ORCH 140 requests the PGW gateway 125 to close said session. To do this, the orchestrator equipment ORCH 140 may request the PGW gateway 125 to close the default radio bearer of said session, which has the effect of closing all the radio carriers of said session.
- the orchestrator equipment ORCH 140 when the orchestrator equipment ORCH 140 detects that a user equipment UE has established in a cell concerned by the crisis situation a session with an APN access point name which is forbidden to it, the orchestrating equipment ORCH 140 requests the PGW gateway 125 to terminate the relevant radio bearer.
- the ORCH orchestrator equipment 140 when the ORCH orchestrator equipment 140 detects that a user equipment UE has established in a cell concerned by the crisis situation a radio carrier, the ORCH orchestrator equipment 140 verifies that said radio carrier is associated with an identifier. expected quality of service QCI class. If said radio bearer is associated with a forbidden QCI quality of service class identifier, the ORCH orchestrator 140 instructs the PGW gateway 125 to close the relevant radio bearer. If said radio bearer is associated with an inappropriate QCI quality of service class identifier, the ORCH 140 orchestrator equipment forces an adaptation of the QCI quality of service class for said radio bearer to be associated with the quality class identifier. expected QCI service.
- ORCH 140 orchestrator equipment 140 when the ORCH orchestrator equipment 140 detects that an UE has set up a session in a cell concerned by the crisis situation and that a crisis management rule requires that quality constraints must be met. Specific QoS service is applied, ORCH 140 orchestrator equipment provides with the PGW gateway 125 and / or PCRF equipment 124 that said quality of service QoS constraints are applied. These constraints can be taken into account when establishing the session or during the session, as detailed below in relation to FIGS. 8 to 10.
- ORCH 140 orchestrating equipment may also prevent the establishment of certain sessions. For example, when the management rules define that a session establishment is prohibited with such an APN access point for a UE considered, the ORCH orchestrator 140 may return a negative response to any authentication request message. and authorization related to said APN access point on behalf of said UE user equipment.
- two application cases stand out for crisis management rules relating to a cell or a group of cells: during an attachment of a user UE UE in question; and after attachment, during mobility detection via the receipt of CDR reports.
- ORCH orchestrator equipment 140 applies one or more of said crisis management rules to the authentication of said UE.
- ORCH 140 orchestrator equipment may refuse, via link 141, the authentication of said UE UE when an authentication request and authorization message in connection with an APN access point which, according to said rules crisis management system, is prohibited from being accessed by the UE in question during the duration of the crisis situation.
- Orchestrator equipment ORCH 140 can also refuse, via link 141, the authentication of said user equipment UE when the user equipment UE in question is not entitled to access, according to said crisis management rules. , to the cellular telecommunication system EPS during the duration of the crisis situation.
- ORCH 140 orchestrator equipment may intercept and modify QoS QoS characteristics. (guaranteed bandwidth ...) to the establishment of radio sessions or carriers, by intercepting messages transiting on the link 158, as described below in relation to FIGS. 8 and 9. It would be the same when establishing radio carriers by an application function AF, by interception of messages transiting between said application function and the PCRF equipment 124, as described below in relation to FIGS. 8 and 10.
- ORCH 140 orchestrator equipment applies one or more rules among said crisis management rules for previously established sessions (for example, established in a cell). not concerned by the crisis situation).
- the ORCH orchestrator 140 may detect in a CDR report that an UE is in relation to an APN access point which, according to said crisis management rules, is prohibited from being accessed by the UE user equipment in question during the duration of the crisis situation.
- the orchestrator equipment ORCH 140 can then request the PGW gateway 125, via the link 141, to close the session concerned.
- ORCH orchestrator equipment 140 may do the same when the UE user equipment in question is not entitled to access, according to said crisis management rules, to the cellular telecommunication system EPS for the duration of the crisis situation.
- the crisis management rules define that the radio bearers for the UE in question are limited in quality of QoS service, the orchestrating equipment ORCH
- the ORCH orchestrator device 140 can emulate a QoS quality of service decrease request from the PCRF equipment 124 to the PGW gateway 125. This aspect is discussed below with FIG. 9.
- the ORCH orchestrator device 140 can emulate a QoS quality of service decrease request from an application function intended for the PGW gateway 125 via the link 157. This aspect is discussed below with the link Fig. 10.
- step S605 the orchestrator equipment ORCH 140 checks whether all UEs identified in step S602 have been processed, or not. If it exists at least one other user UE UE identified in step S602 to be processed, step S603 is repeated by selecting another UE UE from the user UEs identified in step S602; otherwise, the algorithm of FIG. 6 in a step S606.
- Fig. 7 schematically illustrates a particular arrangement in the context of a domain name resolution service and possibly reverse resolution.
- Fig. 7 schematically illustrates a proxy equipment 710 adapted to provide DNS domain name resolution services, and preferably reverse resolution.
- the proxy equipment 710 is thus adapted to provide, in response to a request for resolution of a domain name, an IP address corresponding to a domain name included in said request.
- the equipment 110 may also be adapted to provide, in response to an identification request of an IP address included in said request (i.e. to a reverse resolution request), an associated domain name.
- the equipment 710 is adapted to receive requests, for example DNS type queries, from client devices (such as the user equipment UE 100), to perform domain name resolutions.
- the proxy equipment 710 is adapted to receive requests, for example requests of the DNS type, from client devices (such as the user equipment UE 100), to perform inverse resolutions.
- each client device that can use the services offered by the proxy equipment 710 is previously configured so that the IP address of the proxy device 710 is indicated as the server IP address to be contacted for name resolution. domains and inverse resolutions.
- the proxy equipment 710 is declared as a DNS server with said client devices.
- the proxy equipment 710 includes a client interface unit 711, also called in English Front-End Unit.
- the client interface unit 711 is in charge of receiving the requests from the client devices and to provide possible responses to said requests.
- the client interface unit 111 is preferably in charge of performing a filtering to verify that the received request is correctly formatted, and this, in particular to counter any attempt at malicious tunneling, eg DNS tunneling (DNS tunneling) , or denial of service attack DoS (Deny of Service) or Distributed Deny of Service (DDoS) Distributed Denial of Service.
- DNS tunneling DNS tunneling
- DoS Denial of service attack
- DoS Distributed Deny of Service
- the client interface unit 711 is in charge of triggering authentication operations of the client devices having respectively emitted the received requests.
- the proxy equipment 710 also includes an authentication unit 712 responsible for coordinating said authentication operations.
- the proxy equipment 710 uses an external authentication server that is the orchestrator device ORCH 140.
- the orchestrator device ORCH 140 then serves to authenticate the client device that has issued a request for resolution of a domain name, or reverse resolution.
- Crisis management rules may define that, in a crisis situation, such UE user equipment located in a cell affected by the crisis situation must be denied access to Internet browsing; in which case, ORCH orchestrator equipment 140 may refuse authentication of the client device that has issued a request for resolution of a domain name, or reverse resolution.
- the exchanges between the authentication unit 712 and the orchestrator equipment ORCH 140 are preferably performed via a secure tunnel, but can also be performed in clear.
- the authentication unit 712 is also in charge of triggering authorization operations vis-à-vis the client devices having respectively issued the received requests.
- the proxy equipment 710 also includes an authorization unit 713 in charge of coordinating said authorization operations.
- the authorization operations are intended to ensure that the client device (such as the user equipment UE 100), or the user of said client device, only accesses the resources to which said client device or said user is actually entitled to access .
- These authorization operations are thus used to check, for each request for resolution of a domain name authenticated by the authentication unit 712, whether the client device having sent the request, or the user of said client device, actually law access to resources of said domain name.
- the proxy equipment 710 uses the orchestrator equipment ORCH 140 as an external authorization server.
- the exchanges between the authorization unit 713 and the orchestrator equipment ORCH 140 are preferably carried out via a secure tunnel, but can also be performed in clear.
- the authentication unit 712 is also in charge of triggering domain name resolution operations, and preferably reverse resolution operations (depending on the request received from the client device).
- the proxy equipment 710 also includes a domain name resolution unit 714 in charge of performing said domain name resolution operations and preferably said reverse resolution operations.
- the domain name resolution unit 714 includes a cache 716 for storing, at least temporarily, associations between domain names and corresponding IP addresses, obtained through information transmitted by one or more external name servers 724a, 724b , such as DNS servers.
- orchestrator equipment ORCH 140 can prevent any UE user equipment in a cell concerned by said crisis situation from accessing navigation services on the ORCH 140 Internet. It then suffices for the orchestrator equipment ORCH 140 to refuse the authorization of domain name resolution to said UE user device that would make the request to the proxy equipment 710. Outside the crisis situation or if the rules of crisis management indicate that said UE user equipment is not limited in browsing the Internet at least for said domain name considered ORCH orchestrator equipment 140 allows the resolution of domain name. The same behavior can be applied in case of reverse resolution.
- orchestrator equipment ORCH 140 can prevent any UE user equipment in a cell concerned by said crisis situation from accessing browsing the Internet using a name resolution to a "honeypot server" type server. This makes it easy to trace these inappropriate name resolution requests and / or to cause the server to export a web page with a message. informing of the blocking of Internet browsing services because of the current crisis situation, while limiting the exchanges to do so.
- FIG. 8 schematically illustrates the cellular telecommunication system EPS, according to a particular embodiment of the present invention.
- FIG. 3 different elements already presented in connection with FIG. 1, namely the PCRF equipment 124, the PGW gateway 125, ORCH 140 orchestrator equipment and the links 141 and 158.
- the remainder of the EPS cellular telecommunications system does not appear there for reasons of simplification of the scheme.
- Fa 8 also shows an AF (Application Function) 830, also called IMS ("IP Multimedia Subsystem" in English), which is outside the framework of the heart EPC network portion 120, and which implements a function application.
- the PCRF equipment 124 is connected to the AF 830 equipment via a link 812.
- the interface between the PCRF equipment 124 and the AF 830 equipment is of the Rx type, as defined in the specifications 3GPP TS 23.203 already mentioned. .
- the orchestrator ORCH 140 is connected, via a link 820, to a first network device (eg router or switch) 810 present on the link 812.
- the orchestrator ORCH 140 is also connected, via a link 821, to a second network equipment (eg router or switch) 811 present on the link 158.
- Fe first network equipment 810 is configured to divert to the orchestrator equipment ORCH 140 any message transiting on the link 812, ie on the Rx interface as part of the ETE technology
- the second network equipment 811 is configured to divert to ORCH orchestrator equipment 140 any message transiting on the link 158, ie on the Gx interface as part of the ETE technology.
- the first network equipment 810 and the second network equipment 811 each have a dedicated link with the orchestrator equipment ORCH 140, for example in the form of a tunnel.
- the first network equipment 810 and the second network equipment 811 encapsulate and then transmit via their respective tunnels any incoming message.
- the first network device 810 and the second network device 811 de-encapsulate any message from their respective tunnels and propagate it as if the message had not been baffled.
- Another preferred approach is to deceive the IP address of the PCRF equipment 124 with the PGW gateway 125, to deceive the IP address of the PGW gateway 125 with the PCRF equipment 124, and to lure the IP address of the PCRF equipment 124 to the AF 830 equipment, to lure the IP address of the AF 830 equipment to the PCRF equipment 124.
- the EPS cellular telecommunications system is such that the PCRF equipment 124 is assumed to have knowledge of the IP address of the PGW gateway 125, and vice versa.
- the cellular telecommunication system EPS is such that the IP address of the PGW gateway 125 is replaced by the IP address of the ORCH orchestrator device 140 with the PCRF equipment.
- the IP address of the PCRF equipment 124 is replaced by the IP address of the ORCH 140 orchestrator equipment with the PGW gateway 125.
- the PCRF equipment 124 thus believes to exchange messages with the PGW gateway.
- the cellular telecommunication system EPS is such that the IP address of the equipment AF 830 is replaced by the IP address of the orchestrating equipment. ORCH 140 with the PCRF equipment 124, and the IP address of the PCRF equipment 124 is replaced by the IP address of the orchestrator equipment ORCH 140 with the AF equipment 830.
- the PCRF equipment 124 thus believes exchanging messages with the AF 830 equipment on the link 812, whereas in fact the PCRF 124 exchanges these messages with the orchestrator equipment ORCH 140.
- the AF 830 equipment thus believes exchanging er messages with the PCRF equipment 124, whereas, in fact, the AF 830 equipment exchanges these messages with the orchestrator equipment ORCH 140.
- the orchestrator equipment ORCH 140 thus intercepts any message transiting on the links 158 and 812, thus enabling it to modify QoS quality of service parameters desired at radio carrier establishments. This aspect is detailed later in connection with Figs. 9 and 10 in the context of establishing sessions.
- a step S901 the user equipment UE 100 initiates with the base station eNB 111 an attachment procedure ("attach procedure").
- the eNB base station 111 contacts the MME entity 122, which decides whether or not to authorize the session creation for the user equipment UE 100.
- the MME entity 122 obtains subscription information relating to the user equipment UE 100. , selects the SGW gateway 123 as the local mobility anchor for the UE 100, and instructs the SGW 123 to internally create an environment necessary to support the session for the UE 100.
- the gateway SGW 123 then transmits a session creation request message to the PGW gateway 125.
- This attachment procedure and the transmission of the session creation request message to the PGW gateway 125 are schematized. by a single arrow (901) in FIG. 9 for the sake of simplification.
- the PGW gateway 125 seeks to initiate a session establishment procedure with the PCRF equipment 124.
- the PGW gateway 125 initiates this procedure by sending a dedicated message on the link 158.
- the PGW gateway 125 sends a CCR message ("Credit Control Request" in English) via the Gx interface.
- This message contains in particular information representative of QoS QoS parameters desired for said session.
- orchestrator equipment ORCH 140 is intercepted by orchestrator equipment ORCH 140.
- the orchestrator equipment ORCH 140 analyzes in particular the information representative of the QoS quality of service parameters desired for said session which are contained in said intercepted message, and puts them in front of the crisis management rules. The orchestrator equipment ORCH 140 then decides accordingly whether said session can be established, or not, in view of the crisis management rules and under which conditions said session can be established. In an alternative embodiment, the actions described herein in connection with step S903 are performed upon return of PCRF equipment 124, namely between steps S908 and S909 described below. If the orchestrator equipment ORCH 140 decides that the session can not be established in accordance with the crisis management rules, ORCH 140 orchestrator equipment rejects the session setup procedure by responding to the PGW gateway 125 at the same time. Placing the PCRF equipment 124. As part of the LTE technology, the orchestrator ORCH 140 rejects the session establishment procedure by sending the PGW gateway 125 via the Gx interface a message CCA representative of a response. negative.
- the orchestrator equipment ORCH 140 decides that said session can be established in view of the crisis management rules, the orchestrator equipment ORCH 140 optionally modifies the information representative of the desired QoS quality of service parameters for said session which are contained in said intercepted message, in order to adjust them in accordance with the crisis management rules. Then, in a step S904, the orchestrator equipment ORCH 140 sends the message, possibly modified, to the PCRF equipment 124 via the link 158.
- the PCRF equipment 124 When the PCRF equipment 124 receives the initiation message of the session establishment procedure (possibly modified by the orchestrator equipment ORCH 140), the PCRF equipment 124 performs a check with the HSS server 121 that the subscription of the UE user equipment user 100 is compliant with the session to be established. To do this, the PCRF equipment 124 sends a profile request message to the HSS server 121 in a step S905.
- the HSS server 121 identifies the user profile concerned in a step S906, and derives information on the user subscription of the user equipment UE 100.
- the PCRF equipment 124 receives from the HSS server 121 subscription information enabling it to perform said verification.
- the equipment PCRF 124 confirms, in step S908, the establishment of the session, by sending to the gateway PGW 125 a dedicated acknowledgment message on the link 158.
- the PCRF equipment 124 sends via the Gx interface a CCA message representative of a positive response.
- this acknowledgment message is intercepted by the ORCH orchestrator 140.
- the ORCH orchestrator 140 detects that the intercepted message is an acknowledgment message, which follows a message from query that was previously intercepted and that has already been processed by ORCH 140 orchestrating equipment.
- ORCH orchestrator equipment 140 can then know if the PCRF equipment 124 has accepted, or not, the establishment of the session. In fact, in the event that the PCRF equipment 124 rejects the establishment of the session, the PCRF equipment 124 sends a negative response message to the gateway PGW 125, which is also intercepted by the orchestrator equipment ORCH 140. In this case, as part of the ETE technology, the PCRF equipment 124 sends via the interface Gx a message CCA representative of a negative response.
- step S909 the ORCH orchestrator 140 then returns said acknowledgment message to the PGW gateway 125 via the link 158.
- This acknowledgment message indicates which QoS QoS parameters have finally been granted.
- the PGW gateway 125 sets up the resources necessary to establish the session for the user equipment UE 100.
- the gateway PGW 125 implements, thanks to its component PCEF, operations QoS Policy Enforcement, in line with the needs of the session concerned.
- Acknowledgment is then propagated as a result of messages from the PGW gateway 125 to the UE user equipment 100, via the SGW gateway 123, the MME entity 122 and the eNB base station 111.
- This set of operations constitutes an acknowledgment procedure schematized by a single arrow (S911) in FIG. 9 for the sake of simplification.
- step S912 signaling is set up between the PGW gateway 125 and the UE user equipment 100.
- step S913 the PGW gateway 125 transmits an acknowledgment message to the PCRF equipment 124 via the link 158, to indicate that the establishment of the session in question is completed.
- this acknowledgment message is a CCR message transmitted via the Gx interface.
- this acknowledgment message is intercepted by the ORCH orchestrator equipment 140.
- the ORCH orchestrator equipment 140 detects that the intercepted message is an acknowledgment message, which therefore follows a message query that has been previously intercepted and that has already been processed by ORCH orchestrator equipment 140. Orchestrator equipment ORCH 140 can then know if the establishment of the session in question has completed correctly or not.
- step S914 the orchestrator equipment ORCH 140 then returns said acknowledgment message to the PCRF equipment 124 via the link 158.
- CCR message sending can be emulated by ORCH orchestrator equipment 140 to one or more radio carriers of a previously established session, in order to enforce a crisis management rule.
- ORCH 140 orchestrator equipment sends such a CCR message to the PGW gateway 125 by pretending to be the PCRF equipment 124, in order to reduce the quality of QoS service associated with each radio bearer concerned during the crisis situation.
- ORCH orchestrator equipment 140 preferably keeps track, e.g. in a dedicated table, of QoS service quality decreases applied, so that the original QoS quality of service can be restored at the end of the crisis situation. This restoration of QoS original quality of service is also done by emulation of sending CCR message in place of the PCRF equipment 124.
- a radio bearer establishment can also be initiated by the AF 830 equipment, more particularly for UE user equipment already attached to the EPS cellular communication system.
- a corresponding example of message exchanges is schematically illustrated in FIG. 10.
- the AF equipment 830 initiates with the PCRF equipment 124 a session establishment procedure.
- the AF 830 device initiates this procedure by sending a dedicated message on the 812 link.
- this message is an AAR message transmitted via the Rx interface.
- This message is intercepted by the ORCH orchestrator 140.
- the ORCH 140 orchestrator equipment analyzes in particular the information representative of the desired QoS QoS parameters for that session contained in said intercepted message, and places them next to crisis management.
- the orchestrator equipment ORCH 140 decides accordingly whether said session can be established, or not, in view of the crisis management rules and under which conditions said session can be established.
- the orchestrator equipment ORCH 140 rejects the session establishment procedure by responding to the AF 830 equipment at the place of the PCRF equipment 124. In other words, the orchestrator equipment ORCH 140 rejects the session establishment procedure by sending a negative response to the AF 830.
- this message is an AAA message representative of a negative response and is transmitted via the Rx interface.
- the orchestrator equipment ORCH 140 If the ORCH orchestrator equipment 140 decides that said session can be established in accordance with the crisis management rules, the orchestrator equipment ORCH 140 returns the intercepted message to the PCRF equipment 124 in a step S1052.
- the PCRF equipment 124 Upon receipt of this message, in a step S 1053, the PCRF equipment 124 accordingly creates a session, after a fit check between session feature information provided by the AF equipment 830 in said message and the provisioned policies. for the user concerned (and thus here the user equipment UE 100).
- the PCRF equipment 124 sends the AF 830 equipment an acknowledgment message on the link 812.
- the PCRF equipment 124 sends an AAA message via the Rx interface.
- the PCRF equipment 124 thus confirms the consideration of the session establishment request formulated by the AF 830 device.
- This message is intercepted by the ORCH 140 orchestrating equipment.
- the orchestrator equipment ORCH 140 detects that the intercepted message is an acknowledgment message, which therefore follows a request message which has been previously intercepted and which has already been processed by the orchestrator equipment ORCH 140.
- the orchestrator equipment ORCH 140 can then know if the establishment of the The session in question was or was not accepted by the PCRF equipment 124.
- the Orchestrator ORCH 140 returns the intercepted message to the AF 830.
- a step S 1056 the PCRF equipment 124 initiates a session establishment procedure with the PGW gateway 125. This procedure is initiated by sending a dedicated message on the link 158. As part of the technology LTE, the PCRF equipment 124 sends a RAR message ("Re-Authentication Request" in English) via the Gx interface. This message is intercepted by orchestrator equipment ORCH 140.
- the ORCH orchestrator equipment 140 analyzes in particular the information representative of the QoS quality of service parameters desired for said session that are contained in said intercepted message, and puts them in front of the crisis management rules. The orchestrating equipment ORCH 140 then decides accordingly whether said session can be established, or not, in view of crisis management rules and under what conditions said session can be established.
- the orchestrator equipment ORCH 140 decides that said session can not be established in view of the crisis management rules, the orchestrator equipment ORCH 140 rejects the session establishment procedure by responding to the PCRF equipment 124 to the place of the PGW gateway 125. As part of the LTE technology, the ORCH 140 orchestrator equipment rejects the session establishment procedure by sending the PCRT equipment 124 via the Gx interface a RAA message representative of a negative response.
- the orchestrator equipment ORCH 140 decides that said session can be established in view of the crisis management rules, the orchestrator equipment ORCH 140 optionally modifies the information representative of the desired QoS quality of service parameters for said session which are contained in said intercepted message, in order to adjust them in accordance with the crisis management rules. Then, in a step S 1058, the orchestrator equipment ORCH 140 returns the message, possibly modified in view of the crisis management rules, to the gateway PGW 125 via the link 158.
- the PGW gateway 125 sets up the resources necessary for the session establishment for the UE user equipment 100.
- the PGW gateway 125 implements policy quality enforcement operations. service (“QoS Policy Enforcement”) through its PCEF component, in line with the needs of the relevant session.
- the PGW gateway 125 sends the PCRF equipment 124 via the link 158 an acknowledgment message to confirm the establishment of the session.
- the PGW 125 sends a RAA message via the Gx interface.
- this acknowledgment message is intercepted by the ORCH orchestrator equipment 140.
- the ORCH orchestrator equipment 140 detects that the intercepted message is an acknowledgment message, which therefore follows a message previously ORCH 140 orchestrator equipment. ORCH orchestrator equipment 140 can then know if the session setup has been accepted by the PGW gateway 125 or not. Then in a step S1061, ORCH orchestrator equipment 140 returns the message to the PCRF equipment 124.
- a step S 1062 the PGW gateway 125 instructs the setting up of the session, as a result of messages from the PGW gateway 125 to the user equipment UE 100, via the SGW gateway 123, the MME entity 122 and the base station eNB 111.
- This set of operations is shown schematically by a single arrow (1062) in FIG. 10 for the sake of simplification.
- step S 1063 signaling is set up between the PGW gateway 125 and the user equipment UE 100.
- a RAR message sending can be emulated by ORCH 140 orchestrator equipment to one or more radio carriers of a previously established session, in order to enforce a crisis management rule.
- the ORCH orchestrator equipment 140 sends the PCRF equipment 124 such a RAR message masquerading as an application function, and this in order to reduce the quality of QoS service associated with each radio carrier concerned during the crisis situation.
- ORCH orchestrator equipment 140 preferably keeps track, e.g. in a dedicated table, of QoS service quality decreases applied, so that the original QoS quality of service can be restored at the end of the crisis situation. This restoration of original QoS quality of service is also done by emulation of sending RAR message to the PCRF equipment 124.
- the MVNO virtual mobile network operator can have all the equipment and functionality of an MNO mobile network operator, except network coverage and radio infrastructure. We then speak of operator "fiill MVNO". It thus has its own equipment, in particular a PGW gateway, PCRF equipment, HSS equipment, to manage its own fleet of UE user equipment deployed on the mobile network operator's infrastructure. MNO.
- the equipment of the mobile network operator's EPS telecommunication system is configured to be connected to the equipment of the MVNO mobile network virtual operator.
- the SGW 123 equipment of the mobile network operator MNO is connected to the PGW gateway of the MVNO mobile network virtual operator via an S8 type link in LTE
- the MME equipment 122 of the mobile network operator MNO is connected to the HSS equipment of the MVNO mobile network virtual operator via a link S6 type LTE
- the PCRF equipment 124 of the mobile network operator MNO is connected to the PCRF equipment of the MVNO mobile network virtual operator via an S9-type link in LTE.
- the ORCH 140 orchestrator equipment integrated into the infrastructure of the MVNO mobile network operator, is able to communicate with the equipment of the MNO mobile network operator as if the ORCH 140 orchestrator equipment was directly integrated. to the cellular telecommunication system EPS of said MNO mobile network operator. It is therefore able to implement all the filtering and adaptation features of the quality of QoS service of the sessions and radio carriers previously exposed.
- the MVNO virtual mobile network operator only has limited access to the resources of the mobile network operator MNO, the latter giving him access only to the interface, eg SGi type, between the PGW gateway of the mobile network operator MNO and the PDN network of the MVNO virtual mobile network operator and thus the orchestrator equipment ORCH 140.
- the orchestrator equipment ORCH 140 is able to communicate with the PGW gateway 125 as if the ORCH orchestrator equipment 140 was directly integrated with the cellular telecommunication system EPS of said MNO mobile network operator.
- ORCH 140 orchestrating equipment can then refuse to establish radio carriers for this or that UE.
- ORCH orchestrator equipment 140 can also potentially reduce the quality of service of one or more radio carriers by intervening with PCRF equipment 124 by emulating a sending of instructions. from an AF application function.
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- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Computer Security & Cryptography (AREA)
- Business, Economics & Management (AREA)
- Health & Medical Sciences (AREA)
- Emergency Management (AREA)
- Environmental & Geological Engineering (AREA)
- Public Health (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
Description
Claims
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
FR1853034A FR3079995B1 (fr) | 2018-04-06 | 2018-04-06 | Equipement orchestrateur dans un systeme de telecommunication cellulaire |
PCT/EP2019/058532 WO2019193106A1 (fr) | 2018-04-06 | 2019-04-04 | Equipement orchestrateur dans un système de télécommunication cellulaire |
Publications (1)
Publication Number | Publication Date |
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EP3777309A1 true EP3777309A1 (fr) | 2021-02-17 |
Family
ID=63209487
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP19715479.2A Withdrawn EP3777309A1 (fr) | 2018-04-06 | 2019-04-04 | Equipement orchestrateur dans un système de télécommunication cellulaire |
Country Status (5)
Country | Link |
---|---|
US (1) | US20210160677A1 (fr) |
EP (1) | EP3777309A1 (fr) |
AU (1) | AU2019247628A1 (fr) |
FR (1) | FR3079995B1 (fr) |
WO (1) | WO2019193106A1 (fr) |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8971258B2 (en) * | 2010-07-31 | 2015-03-03 | Motorola Solutions, Inc. | Policy determination for user equipment providng mutual aid in a visited enterprise operating area of a long term evolution system |
US20120102522A1 (en) * | 2010-10-26 | 2012-04-26 | Emmett Long | Emergency notification system and method utilizing preemption of active media sessions |
US9084143B2 (en) * | 2012-06-13 | 2015-07-14 | All Purpose Networks LLC | Network migration queuing service in a wireless network |
ITMI20131081A1 (it) * | 2013-06-28 | 2014-12-29 | Athonet S R L | Radio access network control of media session |
WO2016091292A1 (fr) * | 2014-12-10 | 2016-06-16 | Nokia Solutions And Networks Oy | Mise en application de qualité de perception dans des communications |
FR3041493B1 (fr) * | 2015-09-22 | 2018-10-12 | Airbus Defence And Space Sas | Equipement pour offrir des services de resolution de noms de domaine |
-
2018
- 2018-04-06 FR FR1853034A patent/FR3079995B1/fr not_active Expired - Fee Related
-
2019
- 2019-04-04 AU AU2019247628A patent/AU2019247628A1/en not_active Abandoned
- 2019-04-04 WO PCT/EP2019/058532 patent/WO2019193106A1/fr active Application Filing
- 2019-04-04 US US17/045,382 patent/US20210160677A1/en not_active Abandoned
- 2019-04-04 EP EP19715479.2A patent/EP3777309A1/fr not_active Withdrawn
Also Published As
Publication number | Publication date |
---|---|
WO2019193106A1 (fr) | 2019-10-10 |
FR3079995A1 (fr) | 2019-10-11 |
FR3079995B1 (fr) | 2020-04-17 |
US20210160677A1 (en) | 2021-05-27 |
AU2019247628A1 (en) | 2020-10-22 |
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