Method for transferring a flow between heterogeneous access points
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-015/16
G06F-015/173
H04W-036/00
H04W-080/04
출원번호
US-0988397
(2009-04-09)
등록번호
US-8886820
(2014-11-11)
우선권정보
FR-08 52653 (2008-04-18)
국제출원번호
PCT/FR2009/050635
(2009-04-09)
§371/§102 date
20101201
(20101201)
국제공개번호
WO2009/136089
(2009-11-12)
발명자
/ 주소
Suciu, Lucian
Benzaid, Mounir
Guillouard, Karine
출원인 / 주소
France Telecom
대리인 / 주소
Brush, David D.
인용정보
피인용 횟수 :
1인용 특허 :
4
초록▼
A method is provided for handing off flows. The flow, having a flow identifier, is established between a terminal and a correspondent. The terminal has as many terminal identifiers as access interfaces to access networks of mutually different data technologies. A first execution entity converts a ha
A method is provided for handing off flows. The flow, having a flow identifier, is established between a terminal and a correspondent. The terminal has as many terminal identifiers as access interfaces to access networks of mutually different data technologies. A first execution entity converts a handoff execution order emanating from a decision entity into execution messages by taking into account a hierarchy of execution entities of a current network. After a handoff decision has been taken for a given pair of flow and terminal identifiers, the decision entity sends an execution order to the first execution entity. The first execution entity: selects a mobility protocol from the mobility protocols supported by the execution entities of the hierarchy associated with the current network; selects in the hierarchy at least one execution entity responsible for executing the mobility protocol; and sends to the selected execution entities respective execution messages.
대표청구항▼
1. A method for handing off flows between a first access point to a first access network to an IP-type core network to which a terminal is attached, called current network, and a second access point to a second access network to the core network, called visited network, the network being made up of
1. A method for handing off flows between a first access point to a first access network to an IP-type core network to which a terminal is attached, called current network, and a second access point to a second access network to the core network, called visited network, the network being made up of the various preceding networks and access points, wherein the flow has a flow identifier and is established between the terminal and a correspondent, and wherein the terminal has as many terminal identifiers as access interfaces to access networks of mutually different data technologies, the method comprising, after a handoff decision has been taken for a given pair of flow and terminal identifiers: a step of reception of a handoff execution order emanating from a handoff decision entity, by a first execution entity, which converts the handoff execution order into execution messages taking into account a hierarchy of execution entities of the network, the execution order containing at least fields comprising the flow identifier, the terminal identifier, an identifier of the current access point, an identifier of the visited access point and a flow direction identifier at the terminal level,a step of selection, by the first execution entity, of a mobility protocol from the mobility protocols supported by the execution entities of the hierarchy associated with the network, wherein the first execution entity learns the mobility protocols supported by the execution entities of the hierarchy associated with the network dynamically by message interchange with these execution entities,a step of selection, by the first execution entity, in the hierarchy of at least one second execution entity responsible for executing the mobility protocol,a step of sending, by the first execution entity, to the selected second execution entity of respective execution messages containing at least the fields comprising the flow identifier, the terminal identifier, a flow direction indicator, an identifier of a network interface to which the mobility protocol must be applied, an indicator of the selected protocol, an address of the terminal, a default router address and two flags to indicate to the second execution entity if the second execution entity is responsible for acquisition of an update address for the terminal and for updating of a location of the terminal. 2. The handoff method as claimed in claim 1, wherein, if the flow direction indicator is set to incoming and if a Proxy Mobile Internet Protocol (PMIP) is selected, then the first execution entity sends a handoff execution message to an execution entity of the network, and wherein, if the flow direction indicator is set to outgoing and if the PMIP protocol is selected, then the first execution entity sends a handoff execution message to an execution entity of the network and a handoff execution message to an execution entity of the terminal to reorient packets of the flow. 3. The handoff method as claimed in claim 1, wherein the first execution entity learns the mobility protocols following a handoff decision. 4. The handoff method as claimed in claim 1, wherein the execution entity responsible for the acquisition of an update address of the terminal and for the updating of the location of the terminal is located in the network and wherein the first execution entity sends an execution message, after a return of an execution acknowledgement by the execution entity responsible for the acquisition of an update address of the terminal and for the updating of the location of the terminal, to an execution entity of the terminal with the terminal address and default router address fields completed. 5. The handoff method as claimed in claim 1, wherein the first execution entity is located in the terminal and knows the hierarchy of the execution entities through information supplied, following a handoff decision, by an entity of the access network that has connectivity below IP-User, and transmitted to the terminal by the access point to which the terminal is attached. 6. A device adapted to implement a method for handing off flows between a first access point to a first access network to an IP-type core network to which a terminal is attached, called current network, and a second access point to a second access network to the core network, called visited network, the network being made up of the various preceding networks and access points, wherein the flow has a flow identifier and is established between the terminal and a correspondent, and wherein the terminal has as many terminal identifiers as access interfaces to access networks of mutually different data technologies, the device comprising: handoff decision means for generating a handoff execution order following a handoff decision for a given pair of flow and terminal identifiers, the handoff execution order containing at least fields comprising the flow identifier, the terminal identifier, an identifier of the current access point, an identifier of the visited access point and a flow direction indicator at a level of the terminal; andfirst execution means for receiving the handoff execution order emanating from the handoff decision means and for converting the handoff execution order into execution messages by taking into account a hierarchy of execution entities of the network comprising at least one other execution entity, wherein the first execution means is further configured for:a. selecting a mobility protocol from mobility protocols supported by the execution entities of the hierarchy associated with the network, wherein the first execution means learns the mobility protocols supported by the execution entities of the hierarchy associated with the network dynamically by message interchange with these execution entities,b. selecting from the hierarchy at least one execution entity responsible for executing the mobility protocol, andc. sending to the selected execution entity respective execution messages containing at least the fields comprising the flow identifier, the terminal identifier, the flow direction indicator, an identifier of a network interface to which the mobility protocol must be applied, an indicator of the selected protocol, an address of the terminal, a default router address and two flags to indicate to the selected execution entity if the selected execution entity is responsible for acquisition of an update address for the terminal and for updating of a location of the terminal. 7. A telecommunication system comprising a network, wherein the network comprises: at least one IP-type core network,first and a second access networks to the core network,a first access point to the first access network to which a terminal is attached, called current network, anda second access point to the second access network, called visited network, configured to handoff a flow between the first access point and the second access point, wherein the flow has a flow identifier and is established between the terminal and a correspondent, and wherein the terminal has as many terminal identifiers as access interfaces to access networks of mutually different data technologies,handoff decision means for generating and sending a handoff execution order following a handoff decision for a given pair of flow and terminal identifiers, the handoff execution order containing at least fields comprising the flow identifier, the terminal identifier, an identifier of the current access point, an identifier of the visited access point and a flow direction indicator at a level of the terminal; andfirst execution means for receiving the handoff execution order sent from the handoff decision means and for converting the handoff execution order into execution messages by taking into account a hierarchy of execution entities of the network comprising at least one other execution entity, wherein the first execution means is further configured for:selecting a mobility protocol from mobility protocols supported by the execution entities of the hierarchy associated with the network, wherein the first execution means learns the mobility protocols supported by the execution entities of the hierarchy associated with the network dynamically by message interchange with these execution entities,selecting from the hierarchy at least one execution entity responsible for executing the mobility protocol, andsending to the selected execution entity respective execution messages containing at least the fields comprising the flow identifier, the terminal identifier, the flow direction indicator, an identifier of a network interface to which the mobility protocol must be applied, an indicator of the selected protocol, an address of the terminal, a default router address and two flags to indicate to the selected execution entity if the selected execution entity is responsible for acquisition of an update address for the terminal and for updating a location of the terminal. 8. An execution device, for use in a telecommunication system comprising a network comprising at least one IP-type core network, a first and a second access networks to the core network, a first access point to the first access network to which a terminal is attached, called current network, and a second access point to the second access network, called visited network, the system being able to handoff a flow between the first access point and the second access point, wherein the flow has a flow identifier and is established between the terminal and a correspondent, and wherein the terminal has as many terminal identifiers as access interfaces to access networks of mutually different data technologies, the network also comprising a handoff decision entity configured to generate and send a handoff execution order following a handoff decision for a given pair of flow and terminal identifiers, the handoff execution order containing at least fields comprising the flow identifier, the terminal identifier, an identifier of the current access point, an identifier of the visited access point and a flow direction indicator at a level of the terminal, wherein the execution device comprises: means for receiving the handoff execution order sent from the decision means and for converting the handoff decision order into execution messages by taking into account a hierarchy of execution entities of the current network comprising at least one other execution entity,means for selecting a mobility protocol from mobility protocols supported by the execution entities of the hierarchy associated with the network, wherein the execution device learns the mobility protocols supported by the execution entities of the hierarchy associated with the network dynamically by message interchange with these execution entities,means for selecting from the hierarchy at least one execution entity responsible for executing the mobility protocol, andmeans for sending to the selected execution entity respective execution messages containing at least the fields comprising the flow identifier, the terminal identifier, the flow direction indicator, an identifier of a network interface to which the mobility protocol must be applied, an indicator of the selected protocol, an address of the terminal, a default router address and two flags to indicate to the selected execution if the selected execution entity is responsible for acquisition of an update address for the terminal and for updating a location of the terminal. 9. A non-transient computer-readable information medium comprising a computer program stored thereon, said program comprising program instructions suitable for implementing, when said program is loaded and run in a device, a method for handing off flows between a first access point to a first access network to an IP-type core network to which a terminal is attached, called current network, and a second access point to a second access network to the core network, called visited network, the network being made up of the various preceding networks and access points, wherein the flow has a flow identifier and is established between the terminal and a correspondent, and wherein the terminal has as many terminal identifiers as access interfaces to access networks of mutually different data technologies, the method comprising, after a handoff decision has been taken for a given pair of flow and terminal identifiers: a step of reception of an execution order emanating from a handoff decision entity, by a first execution entity, which converts the handoff execution order into execution messages taking into account a hierarchy of execution entities of the network, the execution order containing at least fields comprising the flow identifier, the terminal identifier, an identifier of the current access point, an identifier of the visited access point and a flow direction identifier at the terminal level,a step of selection, by the first execution entity, of a mobility protocol from the mobility protocols supported by the execution entities of the hierarchy associated with the network, wherein the first execution entity learns the mobility protocols supported by the execution entities of the hierarchy associated with the network dynamically by message interchange with these execution entities,a step of selection, by the first execution entity, in the hierarchy of at least one second execution entity responsible for executing the mobility protocol,a step of sending, by the first execution entity, to the selected second execution entity of respective execution messages containing at least the fields comprising the flow identifier, the terminal identifier, the flow direction indicator, an identifier of a network interface to which the mobility protocol must be applied, an indicator of the selected protocol, an address of the terminal, a default router address and two flags to indicate to the second execution entity if the second execution entity is responsible for acquisition of an update address for the terminal and for updating of a location of the terminal.
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이 특허에 인용된 특허 (4)
Kusaki Tsutomu,JPX ; Sakamoto Kenichi,JPX ; Murakami Masaru,JPX ; Yokoyama Takashi,JPX, Handover method in mobile communication system.
Wang, Jun; Tiedemann, Jr., Edward G.; Nasielski, John Wallace; Ahmavaara, Kalle I.; Casaccia, Lorenzo; Tinnakornsrisuphap, Peerapol, Method and apparatus for handoff between access systems.
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