RU2423005C2 - Method to change coding logic in reconfiguration - Google Patents

Abstract

FIELD: information technologies.

SUBSTANCE: method includes the following stages: receiving a message with a request of reconfiguration, sent from an initial radio network controller (RNC) to a target RNC, sending a response message with a request of reconfiguration to the initial RNC; receiving a response message with a request of reconfiguration to the initial RNC, sending a message on execution of reconfiguration to a target RNC; receiving of a message of reconfiguration completion to the target RNC and expecting of a response message from TJE; sending a message of reconfiguration in UE to the initial RNC; receiving a message of UE reconfiguration start, sending a response message coded with a new logic of coding in the target RNC; receiving a message from UE with a target RNC, and completion of reconfiguration process.

EFFECT: improved data transfer reliability.

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Description

The present invention relates to a method for controlling user equipment (UE) mobility and protecting encryption among a plurality of radio network subsystems (RNS) in a code division multiple access (WCDMA) mobile communication system.

BACKGROUND OF THE INVENTION

When the user equipment of the UE moves from a cellular coverage area controlled by a radio network controller (RNC) to another cellular coverage area controlled by another RNC, the 1st RNC (called the initial RNC) may decide to initiate the migration procedure to transfer the radio resources of the UE to the second RNC (called target RNC). Upon completion of the migration process, the target RNC will reconfigure the radio resources for the user equipment of the UE and provide media for the connection between the UE and the core network (CN). The UE user equipment radio resources in the initial RNC will be completely released when the migration process is completed

During the migration process, not only the RNC changes, the core CN can also change when the migration is completed, if the initial RNC and the target RNC are managed by different CNs. Therefore, if there are various core networks CN, CN, the controlling start RNC is called the starting core network CN, and the CN controlling the target CN is called the target core network CN.

There are two migration flows: a migration that participates in the UE, and a migration in which the UE is not involved.

For a migration in which the UE user equipment is not involved, it is required that the UE user equipment is connected to the target RNC before the migration, the initial RNC will not notify the UE user equipment when the migration is initiated, and the initial RNC will not notify the user equipment with a message over the air interface, that the target RNC begins to reconfigure and control the radio resources until the reconfiguration is complete.

For the migration in which the UE user equipment is involved, in the migration process, the initial RNC transmits a switch completion message to the UE user equipment, and the message includes information about new radio resources migrated to the UE user equipment by the target RNC. The user equipment UE establishes a connection with the target RNC according to the information, and the migration process is completed when the switch is completed.

In order to ensure reliable data transmission, the WCDMA system encrypts data. To complete the encryption function, the two sides of the communication relate to RNC and UE and must have the same key, the same encryption algorithm and the same encryption parameters defined in other protocols in the 3rd ^rd Generation Project. If 2 parties to the communication use incompatible encryption parameters, this will lead to the fact that the receiving side cannot decrypt the data encrypted for the transmitting side correctly and thus the receiving side cannot accurately receive the data.

In order to ensure the correct execution of the encryption function after migration from the initial RNC to the target RNC, all encryption parameters will be transferred from the initial RNC to the target RNC. Thus, after the migration is complete, the target RNC can use the same encryption parameters as the initial RNC and maintain proper communication with the UE without interrupting encryption protection.

The WCDMA system determines a number of encryption algorithms, configurations, or CN, RNC, UE capabilities that must be considered when determining the algorithm used in the communication process. When a migration occurs, the initial RNC and the target RNC or the initial CN and the target CN may be configured or may be able to work with different encryption algorithms, so that the migration process may produce a change in the encryption algorithm.

In the case where the reconfiguration, in which the UE user equipment is involved, if the encryption algorithm is changed, the new encryption algorithm may be contained in the switching (switching) message. At the beginning, the switching (switching) message is transmitted from the initial RNC to the user equipment of the UE, the encryption algorithm is used before reconfiguration, and so the UE can correctly receive the switching message. When the UE receives the switching (switching) message, it immediately uses the new encryption algorithm to establish the switching with the target RNC. So, for the migration, in which the user equipment of the UE is involved, the migration can also be completed if the encryption algorithm is changed.

However, in the case of a migration where the user equipment of the UE is not involved, a message informing the UE of the migration must be transmitted from the target RNC to the equipment of the user UE after the migration is completed. When changing the encryption algorithm and if the UE does not know the new encryption algorithm, the target RNC should use the encryption algorithm used by the initial RNC to send a message to notify the UE user equipment about the migration. In this case, the target RNC must support the encryption algorithm used by the initial RNC or there will be no reconfiguration.

SUMMARY OF THE INVENTION

The present invention is directed to a method for changing an encryption algorithm with a successful migration, the encryption algorithm changing during the migration, so that the user equipment is not involved in this and the target RNC does not support the encryption algorithm used by the initial RCN.

To achieve the objective of the present invention, the following technical decision is made: a method for changing an encryption algorithm during reconfiguration, comprising the following steps:

step A, after receiving the migration request message transmitted from the initial RNC, the target RNC transmits the migration request to the initial RNC through the core network CN;

step B, after receiving a response message about the migration request, the initial RNC transmits the migration start message to the user equipment of the UE and the migration completion message to the target RNC;

step C, the target RNC receives the migration completion message, starts receiving data from the UE, and waits for a response message from the UE;

step D, after receiving the message about starting the migration, the UE receives a new encryption algorithm of the target RCN from it and transmits a response message encrypted with the new encryption algorithm to the target RNC; and

step E, the target RNC receives a response message from the UE, and then the migration process ends.

Preferably, in the method of changing the encryption algorithm during the migration, the message on the response request for migration in step A carries a message informing the UE about the migration and a new encryption algorithm of the target RNC.

Preferably, in the method of changing the encryption algorithm during the migration, the initial RNC transmits a message about starting the migration to the UE at least 2 times in step B.

Preferably, in the method of changing the encryption algorithm during the migration, step E especially includes: after receiving the response message from the UE, the target RNC releases the transmission channel for connecting the initial RNC and the target RNC, and then the migration process is completed.

Preferably, in the method of changing the encryption algorithm during the migration in step B, when the initial RNC transmits a message about starting the migration to the UE, an old initial RNC encryption algorithm is received.

According to this invention, in circumstances where the target RNC does not support the initial RNC encryption algorithm, an air interface message to notify the UE of the migration is transmitted to the UE via the initial RNC encryption capability.

In order to ensure that the migration start message is transmitted to the UE in a reliable manner, in step B, the initial RNC transmits the message via the air interface to the UE at least 2 times.

After the initial RNC transmits a migration completion message to the target RNC in step B, the initial RNC and the target RNC do not release the transmission channel for connecting the initial RNC and the target RNC until the target RNC receives a response message from the UE. The start RNC and the target RNC release the transmission channel for connecting the start RNC to the target RNC in step E for a successful migration.

Brief Description of the Drawings

1 is a flowchart illustrating an embodiment of a method for changing an encryption algorithm during a migration according to the present invention.

Figure 2 - structural diagram of the RNC according to this invention.

Figure 3 is a structural diagram of a system according to this invention.

Detailed Description of the Invention

If there is no conflict, the implementation and technical features of the embodiments can be combined if necessary.

The present invention provides a method for implementing the migration in the following details: a) the type of migration is one in which the user equipment of the UE is not involved; b) the encryption algorithm adopted by the target RNC is different from that used by the initial RNC; and c) the target RNC does not support the encryption algorithm used by the initial RNC.

A detailed description of the method for changing the encryption algorithm during migration in conjunction with FIG. 1 follows.

The method for changing the encryption algorithm during migration includes the following steps:

step A, after receiving the migration request message transmitted from the initial RNC, the target RNC transmits the migration request message to the initial RNC through the core network CN;

step B, after receiving the reset migration response message, the initial RNC transmits the migration start message to the user equipment of the UE to provide a migration start message transmitted reliably to the UE, the initial RNC may retransmit this message; and the initial RNC transmits a migration completion message to the target RNC;

step C, upon receipt of a message about the completion of the migration, the target RNC starts receiving data about the equipment of the user UE and waits for a response message from the equipment of the user UE;

step D, upon receiving the migration start message, the UE receives a new encryption algorithm from the target RNC and transmits a response message encrypted with the new encryption algorithm to the target RNC; and

step E, the target RNC receives a response message from the user equipment of the UE, releases the transmission channel used to connect the starting RNC and the target RNC, and then the migration process is completed.

Details of embodiments of the invention are described below.

Preferably, the migration request response message in step A carries a message to notify the UE of the migration and a new encryption algorithm of the target RNC.

In step B, the initial RNC transmits to the UE a message about starting the migration at least 1 time. In order to ensure that the migration start message is transmitted reliably to the UE, in step B, the initial RNC transmits the message via the air interface to the UE at least 2 times.

Preferably, in step B, when the initial RNC transmits the migration start message to the UE, the old encryption algorithm of the initial RNC is received.

According to the present invention, in circumstances where the target RNC does not support the initial RNC encryption algorithm, an air interface message to notify the UE of the migration will be transmitted to the UE by means of the initial RNC encryption capability.

After the initial RNC transmits a migration completion message to the target RNC in step B, the initial and target RNCs do not release the transmission channel for connecting the initial and target RNCs until the target RNC receives a response message about the UE. The start and target RNC release the transmission channel for connecting the start and target RNC in step E to ensure the success of the migration.

According to an embodiment of the present invention, there is an RNC for changing the encryption algorithm during migration, and when performing the RNC according to this embodiment, the invention can be used as the target RNC.

FIG. 2 is a block diagram of an RNC, and as shown in FIG. 2, an RNC includes the following elements:

1st receiver 1 for receiving a reconfiguration request message transmitted from another RNC, where the other RNC may be called the initial RNC;

1st transmitter 3 for transmitting a response message requesting migration to the initial RNC; The 1st transmitter 3 can connect to the 1st receiver 1 and transmit a response message with a request for migration as a response to a message with a request for migration received by the 1st receiver 1;

A 2nd receiver 5 for receiving data from the user equipment of the UE in response to a message about the completion of the migration from the initial RNC; for example, a message about the completion of the reconfiguration can also be received through the 1st receiver 1.

3rd receiver 7 for receiving a response message of a user equipment of the UE.

During implementation, the transmitter (s) and receivers may be implemented as one transmitter and one receiver, respectively, which falls within the scope of this invention.

According to an example embodiment of this invention, there is a system for changing the encryption algorithm when reconfiguring.

FIG. 3 is a block diagram, as shown in FIG. 3, the system includes an initial RNC 2, a target RNC 4, and user equipment UE 6. The initial RNC 2 and the target RNC 4 communicate with each other via the core network CN 8.

In the system of the embodiment, an initial RNC 2 is used to send a migration request message to a target RNC 4 and to send a migration completion message to a target RNC 4 and a migration start message to a UE 6 in response to a response message requesting a migration from the target RNC four; the target RNC 4 is used to send a response message requesting a migration to the initial RNC 2 when a message requesting a migration is received, and receives data from UE 6 when a message is received on the completion of the migration; UE 6 user equipment is used to receive the migration start message and send the response message to the target RNC 4, where the response message is encrypted with a new encryption algorithm obtained from the UE migration start message.

Even if the encryption algorithm is changed during the migration process, so that the UE is not involved and the target RNC does not support the encryption algorithm used by the initial RNC, the described embodiments of this invention can successfully change the encryption algorithm during the migration.

Obviously for specialists, it is possible to make various modifications and variations of the present invention. Thus, it is intended that this invention encompasses modifications and variations of the invention, if it is proved that they are included in the scope of the attached claims or their equivalents.

Claims (7)

1. A method of changing the encryption algorithm during migration, including the following steps:
step A: after receiving the reset request message transmitted from the initial radio network controller RNC, the target radio network controller RNC transmits a response message requesting a reset to the initial radio network controller RNC through the core network;
step B: after receiving the response message with the request for migration, the initial radio network controller RNC transmits a message about starting the migration to the user equipment UE and the message on the completion of the migration to the target radio network controller RNC;
step C: upon receipt of a message about the completion of the migration, the target radio network controller RNC starts receiving data from the user equipment of the UE and awaits a response message from the UE;
step D: after receiving the message about the start of the reconfiguration, the UE receives a new encryption algorithm of the target radio network controller RNC from it and transmits a response message encrypted with the new encryption algorithm to the target radio network controller RNC; and
step E: the target radio network controller RNC receives a response message from the UE and then the migration process is completed. 2. The method according to claim 1, characterized in that the response message with the request for migration at step A carries a message to notify the user equipment of the UE about the migration and a new encryption algorithm for the target RNC. 3. The method according to claim 1, characterized in that in step B, the initial RNC transmits a message about starting the migration to the UE at least 1 time. 4. The method according to claim 1, characterized in that in step E, specifically after receiving the response message about the UE, the target RNC releases the transmission channel for connecting the initial and target RNC, and then the migration process is completed. 5. The method according to claim 1, characterized in that in step B, when sending the message about starting the migration to the UE, the initial RNC receives the old encryption algorithm of the initial RNC. 6. The radio network controller RNC to change the encryption algorithm during the migration, including:
1st receiver for receiving a message with a request for reconfiguration from the initial controller of the radio network RNC;
1st transmitter for transmitting a response message with a request for reconfiguration to the initial radio network controller RNC;
A 2nd receiver for receiving data from the user equipment of the UE in response to a message about the completion of the reconfiguration from the initial radio network controller RNC;
A third receiver for receiving a response message from the user equipment of the UE, where the response message is encrypted with a new encryption algorithm obtained from the migration start message sent by the initial RNC radio network controller to the user equipment of the UE. 7. A system for changing the encryption algorithm during migration, including:
an initial RNC radio network controller for transmitting a reconfiguration request message to a target RNC radio network controller and transmitting a reset message to a target RNC radio network controller and a reset start message to a user equipment UE in response to a response message requesting a reconfiguration from a target RNC radio network controller ;
the target RNC radio network controller for transmitting a response message requesting a migration to the initial RNC radio network controller upon receipt of a message requesting a migration and receiving data from the user equipment of the UE upon receipt of a message about the migration;
UE user equipment for receiving the migration start message and transmitting the response message to the target RNC radio network controller, where the response message is encrypted with a new encryption algorithm obtained from the migration start message.

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