RU2007149346A

RU2007149346A - METHOD AND DEVICE FOR TRANSMISSION OF SERVICE BETWEEN DIFFERENT SYSTEMS

Info

Publication number: RU2007149346A
Application number: RU2007149346/09A
Authority: RU
Inventors: Но-Дзун КВАК (KR); Но-Дзун КВАК; Сунг-Хо ЧОЙ (KR); Сунг-Хо ЧОЙ; Соенг-Хун КИМ (KR); Соенг-Хун КИМ; Киеонг-Ин ДЗЕОНГ (KR); Киеонг-Ин ДЗЕОНГ; Еун-Хой БАЕ (KR); Еун-Хой БАЕ; Хан-На ЛИМ (KR); Хан-На ЛИМ; О-Сок СОНГ (KR); О-Сок СОНГ
Original assignee: Самсунг Электроникс Ко., Лтд. (KR); Самсунг Электроникс Ко., Лтд.
Priority date: 2005-07-07
Filing date: 2006-07-07
Publication date: 2009-07-10
Also published as: JP2008547353A; KR101042763B1; KR20070006539A; RU2367094C1; JP4886079B2; CN102056259A; CN102056259B; CN101218764B; BRPI0612766A2; CN101218764A; JP2011151828A

Abstract

1. Способ выполнения передачи обслуживания от системы усовершенствованной универсальной службы мобильной связи (E-UMTS) на основе модуляции с ортогональным частотным разделением каналов (OFDM) к UMTS-системе на основе множественного доступа с кодовым разделением каналов (CDMA), при этом способ содержит этапы, на которых: ! измеряют, посредством абонентского устройства (UE), в ходе обмена данными с сетью с коммутацией пакетов (PDN) через E-UMTS-систему, интенсивность сигнала UMTS-системы и отправляют сообщение отчета по измерениям, указывающее измеренную интенсивность сигнала, в E-UMTS-систему; ! определяют, посредством сети радиодоступа (E-RAN) E-UMTS-системы, то, следует ли выполнять передачу обслуживания от E-UMTS-системы к UMTS-системе, на основе измеренной интенсивности сигнала; ! если передача обслуживания определена, устанавливают, посредством базовой сети (E-CN) E-UMTS-системы, туннель передачи данных для UE в шлюзовой узел поддержки GPRS (общей службы пакетной радиопередачи) (GGSN) UMTS-системы в ответ на запрос на передачу обслуживания от E-RAN; ! после установления туннеля передачи данных отправляют, посредством E-CN, в UE сообщение команды на передачу обслуживания, включающее в себя информацию по радиоканалу (RB), который должен быть использован посредством UE, чтобы осуществлять доступ к UMTS-системе; ! осуществляют доступ, посредством UE, к UMTS-системе с помощью RB-информации; и ! после осуществления доступа к UMTS-системе, перенаправляют, посредством UE, пользовательские данные для UE через маршрут передачи данных, состоящий из E-CN, туннеля передачи данных, GGSN, обслуживающего узла поддержки GPRS (SGSN) UMTS-системы и RAN UMTS-системы, между PDN и UE. ! 2. Способ по п.1, содержащи1. A method of performing a handover from an enhanced universal mobile service (E-UMTS) system based on orthogonal frequency division multiplexing (OFDM) to a UMTS system based on code division multiple access (CDMA), the method comprising the steps , where: ! measure, by means of a subscriber unit (UE), during data exchange with a packet-switched network (PDN) through the E-UMTS system, the signal strength of the UMTS system and send a measurement report message indicating the measured signal intensity to E-UMTS- system ! determining, by means of a radio access network (E-RAN) of the E-UMTS system, whether to handoff from the E-UMTS system to the UMTS system based on the measured signal strength; ! if the handover is determined, establish, through the core network (E-CN) of the E-UMTS system, the data transmission tunnel for the UE to the gateway support node GPRS (General Packet Radio Service) (GGSN) of the UMTS system in response to the request for handover from E-RAN; ! after the establishment of the data transmission tunnel, send, by E-CN, to the UE, a handover command message including information on a radio channel (RB) that must be used by the UE to access the UMTS system; ! access, via the UE, to the UMTS system using RB information; and! after accessing the UMTS system, user data for the UE is redirected via the UE through a data transmission route consisting of an E-CN, a data transmission tunnel, a GGSN, a serving GPRS support node (SGSN) of the UMTS system, and a UMTS system RAN, between PDN and UE. ! 2. The method according to claim 1, containing

Claims

1. A method of performing a handover from an enhanced universal mobile service (E-UMTS) system based on orthogonal frequency division multiplexing (OFDM) to a UMTS system based on code division multiple access (CDMA), the method comprising the steps , where:

measure, by means of a subscriber unit (UE), during data exchange with a packet-switched network (PDN) through the E-UMTS system, the signal strength of the UMTS system and send a measurement report message indicating the measured signal intensity to E-UMTS- system

determining, by means of a radio access network (E-RAN) of the E-UMTS system, whether to handoff from the E-UMTS system to the UMTS system based on the measured signal strength;

if the handover is determined, establish, through the core network (E-CN) of the E-UMTS system, the data transmission tunnel for the UE to the gateway support node GPRS (General Packet Radio Service) (GGSN) of the UMTS system in response to the request for handover from E-RAN;

after the establishment of the data transmission tunnel, send by the E-CN to the UE a handover command message including information on a radio channel (RB) that must be used by the UE to access the UMTS system;

access, via the UE, to the UMTS system using RB information; and

after accessing the UMTS system, user data for the UE is redirected via the UE via a data transmission route consisting of an E-CN, a data transmission tunnel, a GGSN, a serving GPRS support node (SGSN) of the UMTS system, and a UMTS system RAN, between PDN and UE.

2. The method of claim 1, further comprising exchanging a GGSN address used to establish a data tunnel between the E-CN and the GGSN.

3. The method according to claim 1, also containing stages in which:

after determining the handover, send, via the E-RAN, to the E-CN, a handover request message including “a transparent container from the source radio network controller (RNC) to the target RNC” and the identifier of the target cell;

send, via E-CN, a handover message between radio access technologies (RATs) including the IP address and Quality of Service (QoS) information allocated to the UE in the E-UMTS system and the UE identifier in the GGSN in a response to a handover request message;

sending, by GGSN, a handover response message between RATs to the E-CN in response to a handover request message between the RATs; and

after the handover response message between the RATs is received at the E-CN from the GGSN, resources are redistributed by the SGSN to the UE in response to the request from the E-CN.

4. The method according to claim 3, in which the redistribution of resources comprises the steps of:

send, by E-CN, a forward movement request message including a transparent container and a target cell identifier to an SGSN of a UMTS system identified by a target cell identifier;

sending, by SGSN, a transfer request message to the RNC in response to a direct transfer request message;

sending, by the RNC, a transfer request acknowledgment message to the SGSN after allocating resources to the UE in response to the transfer request message; and

send, via SGSN, a forward movement response message including RB information and a transparent container to the E-CN in response to a movement request confirmation message.

5. The method according to claim 4, in which sending a handover command message to the UE comprises sending, by E-CN, a handover command message to the UE via the E-RAN in response to a forward movement response message.

6. A method of performing a handover from an enhanced universal mobile service (E-UMTS) system based on orthogonal frequency division multiplexing (OFDM) to a UMTS system based on code division multiple access (CDMA), the method comprising the steps , where:

measure, by means of a subscriber unit (UE), during a data exchange with a packet-switched network (PDN) through the E-UMTS system, the signal strength of the UMTS system and send a measurement report message indicating the measured signal intensity to the E-UMTS system ;

if a handover is determined, form, via the core network (E-CN) of the E-UMTS system, a packet data protocol (PDP) context and a mobility management (MM) context for the UE in response to a handover request from the E-RAN;

establish, via E-CN, a data tunnel for the UE to the gateway support node GPRS (General Packet Radio Service) (GGSN) of the UMTS system using the PDP / MM context;

access, via the UE, to the UMTS system using RB information; and

after accessing the UMTS system, user data for the UE is redirected via the UE via a data path consisting of an E-CN, a data tunnel serving the GPRS Support Node (SGSN), and a UMTS system RAN between the PDN and the UE.

7. The method of claim 6, wherein the PDP context includes an E-CN address as a GGSN address so that the SGSN can recognize the E-CN as a GGSN.

8. The method according to claim 6, further comprising the step of, after determining the handover, sending, by E-RAN, a handover request message including a “transparent container from the source radio network controller (RNC) to the target RNC” and target cell identifier in E-CN.

9. The method of claim 8, further comprising the step of, after the PDP / MM context is formed, resources for the UE are redistributed by the UMTS system in response to a request from the E-CN.

10. The method according to claim 9, in which the redistribution of resources comprises the steps of:

identify, by E-CN, SGSN with the target cell identifier, and send a forward movement request message including a transparent container, target cell identifier and PDP / MM context to the SGSN;

sending, via SGSN, a move request message to an RNC connected to the UE of the UMTS system in response to a direct move request message;

send, via SGSN, a forward move response message including RB information and a “transparent container from the target RNC to the source RNC” to the E-CN in response to the move request confirmation message.

11. The method of claim 10, wherein sending the handover command message to the UE comprises sending, by E-CN, a handover command message to the UE via the E-RAN in response to a forward movement response message.

12. A device for performing a handover from an enhanced universal mobile service (E-UMTS) system based on orthogonal frequency division multiplexing (OFDM) to a UMTS system based on code division multiple access (CDMA), the device comprising :

radio access network (E-RAN) of an E-UMTS system for receiving a measurement report message indicating a signal strength measured for a UMTS system from a subscriber unit (UE) during communication with a packet-switched network (PDN) via E-UMTS -system, and determining whether to perform a handover from the E-UMTS system to the UMTS system, based on the measured signal intensity; and

the core network (E-CN) of the E-UMTS system for, if handover is determined, the formation of a packet data protocol (PDP) context and mobility management (MM) context for the UE in response to a handover request from the E-RAN, establishing the data transmission tunnel for the UE to the gateway support node GPRS (General Packet Radio Service) (GGSN) of the UMTS system using the PDP / MM context, and, after establishing the data transmission tunnel, sending a handover command message to the UE including information on the radio channel (RB), which is up wives be used by UE, to access a UMTS-system;

after accessing the UMTS system in response to a handover command message, the UE redirects user data for the UE through a data transmission route consisting of an E-CN, a data transmission tunnel, a serving GPRS support node (SGSN), and a UMTS-RAN systems between PDN and UE.

13. The apparatus of claim 12, wherein the PDP context includes an E-CN address as a GGSN address so that the SGSN can recognize the E-CN as a GGSN.

14. The device according to item 12, in which, after determining the transfer of service, the E-RAN sends a request message for the transfer of service, including "transparent container from the source radio network controller (RNC) to the target RNC" and the identifier of the target cell, in E -CN.

15. The device according to item 12, in which, after the PDP / MM context is formed, the E-CN sends a request for reallocation of resources for the UE to the UMTS system.

16. The device according to clause 15, in which the E-CN identifies the SGSN using the identifier of the target cell and sends a request message for direct movement, including a transparent container, the identifier of the target cell and PDP / MM context, in the SGSN;

wherein the SGSN sends a move request message to an RNC connected to the UE of the UMTS system in response to a direct move request message;

wherein the RNC sends a move request acknowledgment message including a “transparent container from the target RNC to the source RNC” to the SGSN after allocating resources to the UE in response to the move request message; and

wherein the SGSN sends a forward move response message including RB information and a “transparent container from the target RNC to the source RNC” to the E-CN in response to the move request acknowledgment message.

17. The apparatus of claim 12, wherein the E-CN sends a handover command message to the UE via the E-RAN in response to a forward movement response message.

18. A method of performing a handover from a universal mobile service (UMTS) system based on code division multiple access (CDMA) to an advanced UMTS system (E-UMTS) based on orthogonal frequency division multiplexing (OFDM) by a subscriber unit ( UE), wherein the method comprises the steps of:

measuring, by the UE, the signal strength of the E-UMTS system during data exchange with the packet-switched network (PDN) through the E-UMTS system, and sending a measurement report message indicating the measured signal strength to the UMTS system;

determining, via the radio access network (RAN) of the UMTS system, whether to perform handover from the UMTS system to the E-UMTS system based on the measured signal strength;

after determining the handover, send, via RAN, a move request message received from the source radio network controller (RNC) to the serving UPRS (General Packet Radio Service) GPRS (SGSN) support node;

sending, via SGSN, a direct move request message to a core network (E-CN) of the E-UMTS system in response to a move request message;

establish, by E-CN, a data channel and a data tunnel for the UE in the radio access network (E-RAN) of the E-UMTS system and the gateway support node GPRS (General Packet Radio Service) (GGSN) of the UMTS system;

after the data tunnel is established, send, by SGSN, a move command message to the UE by the RAN in response to a request from the E-CN; and

access, by the UE, to the E-UMTS system in response to a move command message.

19. The method of claim 18, wherein the move request message includes an identifier of a target cell and a “transparent container from a source RNC to a target RNC”.

20. The method according to claim 19, in which the message request for direct movement includes a GGSN address that should be used to establish a data transmission tunnel, a transparent container, information on the radio channel (RB), which should be used to establish a data transmission channel , a packet data protocol (PDP) context, and a mobility management (MM) context.