CN104969589B - A kind of method, equipment and the communication system of the access processing of communication equipment - Google Patents

Abstract

The embodiment of the present invention discloses method, equipment and the communication system of a kind of access processing of communication equipment, it is related to communication technique field, solve the problems, such as that double-card mobile phone could access current network by the configuration being repeated as many times when accessing network, to save Internet resources.This method comprises: second user module determines that the first line module has access to network side equipment；The second user module sends the second access request message to the network side equipment, the second user module is linked into the network side equipment for requesting by the second access request message, and the second access request message is used to indicate the second user module and first line module is located in same communication equipment.The embodiment of the present invention is applied to wireless access technology.

Description

Access processing method and device of communication device and communication system

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a method, a device, and a communication system for access processing of a communication device.

Background

Currently, a dual-card mobile phone is classified as a dual-card single-pass mobile phone or a dual-card dual-pass mobile phone, and a single-pass mobile phone, that is, a mobile phone cannot simultaneously work under two Subscriber Identity modules (SIM cards), and needs to be added with a conversion Module to be responsible for conversion between the two SIM cards. The dual-pass mobile phone has two independent communication modules, can simultaneously use the identities of two SIMs to access a network, and is identified as two independent user equipments (ues) by a network side.

All parameters configured by the dual-card dual-pass Mobile phone by the current access network are configured as two user equipment, no matter whether two SIMs belong to the same public Land Mobile network (plmn) (public Land Mobile network), when the two SIMs are both accessed to the same base station, actions are repeated in the reporting process due to the fact that channel conditions of the two SIMs are completely the same, namely, the SIM card 1 sends a reporting request for accessing the current access network, and the access network gives a configuration and receives the request of the SIM card 1, but when the SIM card 2 is accessed to the current access network, the reporting still needs to be performed as the SIM card 1, but the channel conditions of the SIM card 1 and the SIM card 2 are the same, so that the current access network still needs to want the SIM card 2 to send the same configuration, and network resources are wasted.

Disclosure of Invention

Embodiments of the present invention provide a method, a device, and a communication system for access processing of a communication device, which solve the problem that a dual-card mobile phone can access a current network only by repeating configuration for multiple times when accessing the network, thereby saving network resources.

In order to achieve the above purpose, the embodiment of the invention adopts the following technical scheme:

in a first aspect, a method for access processing of a communication device is provided, including:

the second user module determines that the first user module has access to the network side equipment;

the second user module sends a second access request message to the network side device, where the second access request message is used to request the second user module to access the network side device, and the second access request message is used to indicate that the second user module and the first user module are located in the same communication device.

In a first possible implementation manner, with reference to the first aspect, specifically, the sending, by the second user module, a second access request message to the network side device includes:

the second user module receives communication parameters configured for the first user module by the network side equipment, wherein the communication parameters comprise radio bearer parameters and/or cell radio network temporary identifiers acquired by the first user module;

sending the second access request message to the network side device, where the second access request message includes: and the communication parameters are used for the network side equipment to acquire that the second user module and the first user module are positioned in the same communication equipment according to the communication parameters.

In a second possible implementation manner, with reference to the first possible implementation manner, the receiving, by the second user module, the communication parameter configured by the network-side device and acquired by the first user module specifically includes:

the second user module detects whether the cell accessed by the first user module is a cell supporting the access of the second user module;

and if the cell is a cell supporting the access of the second user module, receiving the communication parameters configured by the network side equipment acquired by the first user module.

In a third possible implementation manner, with reference to the first aspect, specifically, the sending, by the second user module, a second access request message to the network side device includes:

and sending the second access request message to the first user module so that the first user module can forward the second access request message to the network side equipment, so that the network side equipment judges whether to access the second user module according to the second access request message and sends configuration information to the first user module according to the judgment.

In a fourth possible implementation manner, with reference to the third possible implementation manner, after the second user module sends the second access request message to the network side device, the method includes:

if the network side equipment receives the second access request message, the second user module accesses the network side equipment by receiving configuration information transmitted by the first user module and forwarded by the network side equipment, wherein the configuration information comprises an access identifier, and the access identifier comprises a cell wireless network temporary identifier;

or,

and if the network side equipment refuses to accept the second access request message, the second user module inquires the network side equipment supporting access by receiving the refusal message sent by the first user module and forwarded by the network side equipment.

In a fifth possible implementation manner, with reference to the first aspect, specifically, after the second user module sends the second access request message to the network side device, the method further includes:

receiving second reconfiguration information sent by a second network side device forwarded by the network side device, wherein the second network side device provides access service for the second user module, and the second reconfiguration information is used for indicating the second user module to access the second network side device;

and receiving a timing message sent by the first user module, and sending a second reconfiguration complete message to the second network side equipment according to the timing message and the second reconfiguration information.

In a sixth possible implementation manner, with reference to the first aspect, before the determining, by the second user module, that the first user module has accessed to the network-side device, the method further includes:

receiving a system broadcast message sent by the first user module, and judging whether a cell accessed by the first user module supports the access of the second user module according to the system broadcast message;

if the cell supports the access, accessing the cell;

or,

and if the cell does not support the access, selecting the cell supporting the access to access.

In a second aspect, a method for access processing of a communication device is provided, including:

a first user module sends a first access request message to network side equipment so that the network side equipment configures communication parameters according to the first access request message;

receiving the communication parameters sent by the network side equipment, wherein the communication parameters comprise radio bearer parameters and/or cell radio network temporary identifications;

and sending the communication parameters to a second user module so that the second user module can access the network side equipment according to the communication parameters.

In a first possible implementation manner, with reference to the second aspect, specifically, after the first user module sends the first access request message to the network side device, the method further includes:

and receiving a second access request message sent by the second user module, and sending the second access request message to the network side equipment, so that the network side equipment judges whether to access the second user module according to the second access request message, and sends configuration information to the first user module according to the judgment.

In a second possible implementation manner, with reference to the first possible implementation manner, after sending the second access request message to the network side device, the method specifically includes:

if the network side equipment receives a second access request message of the second user module, the first user module forwards configuration information configured for the second user module by the network side equipment to the second user module so that the second user unit can access the network side equipment according to the configuration information, wherein the configuration information comprises an access identifier, and the access identifier comprises a cell wireless network temporary identifier;

or,

if the network side equipment refuses to accept the second access request message of the second user module, the first user module forwards a refusing message sent by the network side equipment to the second user module, so that the second user module can inquire the network side equipment supporting access according to the refusing message.

In a third possible implementation manner, with reference to the second aspect, specifically, after the first user module sends the first access request message to the network side device, the method further includes:

receiving first reconfiguration information sent by second network side equipment and forwarded by the network side equipment, wherein the second network side equipment provides access service for the first user module, and the first reconfiguration information is used for indicating the first user module to access the second network side equipment;

accessing a cell of the second network side equipment providing communication service according to the first reconfiguration information, acquiring timing information, and sending a first reconfiguration completion message to the second network side equipment;

and sending a timing message to the second user module so that the second user module can send a second reconfiguration completion message to the second network side equipment according to the timing message.

In a fourth possible implementation manner, with reference to the second aspect, before the sending, by the first user module, the first access request message to the network side device, the method further includes:

and receiving a system broadcast message sent by the network side equipment, and sending the system broadcast message to the second user module, so that the second user module can judge whether the cell providing the communication service by the network side equipment supports the access of the second user module according to the system broadcast message.

In a third aspect, a method for access processing of a communication device is provided, including:

network side equipment receives a first access request message sent by a first user module, and generates communication parameters according to the first access request message, wherein the communication parameters comprise radio bearer parameters and/or cell radio network temporary identifications;

sending the communication parameters to the first user module;

receiving a second access request message sent by a second user module, where the second access request message is used to request that the second user module is accessed to the network side device, and the second access request message is used to indicate that the second user module and the first user module are located in the same communication device.

In a first possible implementation manner, with reference to the third aspect, specifically, the receiving a second access request message sent by a second user module includes:

and receiving a second access request message of the first user module for forwarding the second user module.

In a second possible implementation manner, with reference to the first possible implementation manner, after receiving a second access request message sent by a second user module, the method specifically includes:

if the network side equipment receives a second access request message of the second user module, generating configuration information according to the second access request message, and forwarding the configuration information to the second user module by the first user module, so that the second user module is accessed to the network side equipment according to the configuration information, wherein the configuration information comprises an access identifier, and the access identifier comprises a cell wireless network temporary identifier;

or,

if the network side equipment refuses to accept the second access request message of the second user module, a refusing message is sent to the first user module, and the first user module forwards the refusing message to the second user module, so that the second user module inquires the network side equipment supporting access according to the refusing message.

In a third possible implementation manner, with reference to the third aspect, specifically, after the receiving the second access request message sent by the second user module, the method further includes:

the network side equipment sends a third handover request message to second network side equipment, so that the second network side equipment generates first reconfiguration information for the first user module and second reconfiguration information for the second user module according to the received third handover request message, and configures random access resources for the first user module or the second user module, wherein the first reconfiguration information and the second reconfiguration information comprise cell wireless network temporary identifiers respectively allocated to the first user module and the second user module by the second network side equipment, and the third handover request message comprises a first identifier, so that the second network side equipment knows that the second user module and the first user module are located in the same communication equipment;

receiving the first reconfiguration information, the second reconfiguration information and the random access resource, sending the first reconfiguration information to the first user module, sending the second reconfiguration information to the second user module and sending the random access resource to the first user module or the second user module, so that the first user module and the second user module are switched to the second network side device by the network side device according to the first reconfiguration information, the second reconfiguration information and the random access resource sent by the network side device.

In a fourth aspect, a second user module is provided, comprising:

the determining unit is used for determining that the first user module has access to the network side equipment;

the transceiver unit is further configured to send a second access request message to the network-side device, where the second access request message is used to request that the second user module is accessed to the network-side device, and the second access request message is used to indicate that the second user module and the first user module are located in the same communication device.

In a first possible implementation manner, with reference to the fourth aspect, the transceiver unit is further configured to receive a communication parameter configured by the network side device for the first user module, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier acquired by the first user module;

the transceiver unit is further configured to send the second access request message to the network side device, where the second access request message includes: and the communication parameters are used for the network side equipment to acquire that the second user module and the first user module are positioned in the same communication equipment according to the communication parameters.

In a second possible implementation manner, with reference to the first possible implementation manner, the method specifically includes that the apparatus further includes:

a detecting unit, configured to detect whether the cell accessed by the first user module is a cell supporting access by the second user module;

the transceiver unit is further configured to receive the communication parameter configured by the network-side device, acquired by the first user module, if the cell is a cell supporting access of the second user module.

In a third possible implementation manner, with reference to the fourth aspect, the transceiver unit is further configured to send the second access request message to the first user module, so that the first user module forwards the second access request message to the network side device, so that the network side device determines whether to access the second user module according to the second access request message, and sends configuration information to the first user module according to the determination.

In a fourth possible implementation manner, specifically including, with reference to the third possible implementation manner, the transceiver unit, after the second user module sends a second access request message to the network side device, if the network side device accepts the second access request message, the second user module accesses the network side device by receiving configuration information sent by the first user module and forwarded by the network side device, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transceiver unit is further configured to, if the network-side device rejects to accept the second access request message, query, by the second user module, the network-side device that supports access by receiving a rejection message that is sent by the first user module and forwarded by the network-side device.

In a fifth possible implementation manner, with reference to the fourth aspect, the transceiver unit is further configured to receive second reconfiguration information sent by the second network-side device and forwarded by the network-side device after the second user module sends a second access request message to the network-side device, where the second network-side device provides an access service for the second user module, and the second reconfiguration information is used to instruct the second user module to access the second network-side device;

the transceiver unit is further configured to receive a timing message sent by the first user module, and send a second reconfiguration complete message to the second network side device according to the timing message and the second reconfiguration information.

In a sixth possible implementation manner, with reference to the fourth aspect, the apparatus further includes:

the transceiver unit is further configured to receive a system broadcast message sent by the first user module before determining that the first user module has accessed the network side device, and determine whether a cell accessed by the first user module supports access of the second user module according to the system broadcast message;

an access unit, configured to access the cell if the cell supports access;

or,

and the selecting unit is used for selecting the cell supporting the access to access if the cell does not support the access.

In a fifth aspect, a first user module is provided, comprising:

a sending unit, configured to send a first access request message to a network side device, so that the network side device configures communication parameters according to the first access request message;

a receiving unit, configured to receive the communication parameter sent by the network side device, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier;

the sending unit is further configured to send the communication parameter to a second user module, so that the second user module accesses the network side device according to the communication parameter.

In a first possible implementation manner, with reference to the fifth aspect, the receiving unit is further configured to receive a second access request message sent by the second user module after the first user module sends the first access request message to the network-side device, and send the second access request message to the network-side device, so that the network-side device determines whether to access the second user module according to the second access request message, and sends the configuration information to the first user module according to the determination.

In a second possible implementation manner, specifically including, in combination with the first possible implementation manner,

the sending unit is further configured to, after sending the second access request message to the network-side device, if the network-side device accepts the second access request message of the second user module, forward, by the first user module, configuration information configured for the second user module by the network-side device to the second user module, so that the second user unit accesses the network-side device according to the configuration information, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the sending unit is further configured to, if the network-side device rejects to accept the second access request message of the second user module, forward, by the first user module, a rejection message sent by the network-side device to the second user module, so that the second user module queries, according to the rejection message, the network-side device that supports access.

In a third possible implementation manner, with reference to the fifth aspect, specifically, the receiving unit is further configured to receive, after the first user module sends a first access request message to a network side device, first reconfiguration information sent by a second network side device and forwarded by the network side device, where the second network side device provides an access service for the first user module, and the first reconfiguration information is used to instruct the first user module to access the second network side device;

the sending unit is further configured to access a cell, which provides a communication service, of the second network-side device according to the first reconfiguration information, acquire timing information, and send a first reconfiguration complete message to the second network-side device;

the sending unit is further configured to send a timing message to the second user module, so that the second user module sends a second reconfiguration complete message to the second network-side device according to the timing message.

In a fourth possible implementation manner, specifically including, in combination with the fifth aspect,

the receiving unit is further configured to receive a system broadcast message sent by a network-side device before sending a first access request message to the network-side device, and send the system broadcast message to the second user module, so that the second user module determines, according to the system broadcast message, whether a cell of the network-side device providing communication service supports access of the second user module.

In a sixth aspect, a network-side device is provided, including:

the receiving and sending unit is used for receiving an access request sent by the first user module;

a generating unit, configured to generate a communication parameter according to the access request, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier;

the transceiver unit is configured to send the communication parameter to the first user module;

the receiving and sending unit is further configured to receive an access request message sent by a second user module root, where the access request message is used to request that the second user module is accessed to the network side device, and the access request message is used to indicate that the second user module and the first user module are located in the same communication device.

In a first possible implementation manner, with reference to the sixth aspect, the apparatus includes the transceiver unit, and is further configured to receive a second access request message that the first user module forwards the second user module.

In a second possible implementation manner, specifically including, in combination with the first possible implementation manner,

the generating unit is specifically configured to, after receiving a second access request message sent by a second user module, if the network side device accepts the second access request message of the second user module, generate configuration information according to the second access request message;

the transceiver unit is further configured to forward the configuration information from the first user module to the second user module, so that the second user module accesses the network side device according to the configuration information, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transceiver unit is specifically configured to send a reject message to the first user module if the network-side device rejects the second access request message for accepting the second user module, and forward the reject message to the second user module by the first user module, so that the second user module queries the network-side device supporting access according to the reject message.

In a third possible implementation manner, with reference to the sixth aspect, the transceiver unit is further configured to send a third handover request message to the second network-side device after receiving the second access request message sent by the second user module, so that the second network side device generates first reconfiguration information for the first user module and second reconfiguration information for the second user module according to the third handover request message, and configuring random access resources for the first user module or the second user module, where the first reconfiguration information and the second reconfiguration information include cell radio network temporary identifiers respectively allocated to the first user module and the second user module by the second network-side device, the third handover request message contains a first identifier, so that the second network side device knows that the second user module and the first user module are located in the same communication device;

the transceiver unit is further configured to receive the first reconfiguration information, the second reconfiguration information, and the random access resource, send the first reconfiguration information to the first user module, send the second reconfiguration information to the second user module, and send the random access resource to the first user module or the second user module, so that the first user module and the second user module are switched to the second network-side device by the network-side device according to the reception of the first reconfiguration information, the second reconfiguration information, and the random access resource sent by the network-side device.

In a seventh aspect, a second user module is provided, including:

the processor is used for determining that the first user module is accessed to the network side equipment;

a transceiver, configured to send a second access request message to the network-side device, where the second access request message is used to request that the second user module is accessed to the network-side device, and the second access request message is used to indicate that the second user module and the first user module are located in the same communication device.

In a first possible implementation manner, with reference to the seventh aspect, specifically including,

the transceiver is further configured to receive a communication parameter configured by the network side device for the first user module, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier acquired by the first user module;

the transceiver is further configured to send the second access request message to the network side device, where the second access request message includes: and the communication parameters are used for the network side equipment to acquire that the second user module and the first user module are positioned in the same communication equipment according to the communication parameters.

In a second possible implementation manner, specifically including, in combination with the first possible implementation manner,

the processor is further configured to detect whether the cell accessed by the first user module is a cell supporting access by the second user module;

the transceiver is further configured to receive the communication parameter configured by the network-side device, acquired by the first user module, when the cell is a cell supporting access of the second user module.

In a third possible implementation manner, with reference to the seventh aspect, specifically including,

the transceiver is further configured to send the second access request message to the first user module, so that the first user module forwards the second access request message to the network side device, so that the network side device determines whether to access the second user module according to the second access request message, and sends configuration information to the first user module according to the determination.

In a fourth possible implementation manner, in combination with the third possible implementation manner specifically includes,

the transceiver is further configured to, after the second user module sends a second access request message to the network-side device, if the network-side device accepts the second access request message, access the network-side device by receiving configuration information sent by the network-side device and forwarded by the first user module, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transceiver is further configured to, if the network-side device rejects to accept the second access request message, query, by the second user module, the network-side device that supports access by receiving a rejection message that is sent by the first user module and forwarded by the network-side device.

In a fifth possible implementation manner, with reference to the seventh aspect, specifically including,

the transceiver is further configured to receive second reconfiguration information sent by the second network-side device and forwarded by the network-side device after the second user module sends a second access request message to the network-side device, where the second network-side device provides an access service for the second user module, and the second reconfiguration information is used to instruct the second user module to access the second network-side device;

the transceiver is further configured to receive a timing message sent by the first user module, and send a second reconfiguration complete message to the second network side device according to the timing message and the second reconfiguration information.

In a sixth possible implementation manner, with reference to the seventh aspect, specifically including,

the transceiver is further configured to receive a system broadcast message sent by a first user module before determining that the first user module has accessed to a network side device, and determine whether a cell accessed by the first user module supports access of the second user module according to the system broadcast message;

the processor is further configured to access the cell if the cell supports access;

or,

the processor is further configured to select a cell supporting access for access if the cell does not support access.

In an eighth aspect, there is provided a first user module comprising:

a transmitter, configured to send a first access request message to a network side device, so that the network side device configures communication parameters according to the first access request message;

the receiver is further configured to receive the communication parameter sent by the network side device, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier;

the transmitter is further configured to transmit the communication parameter to a second user module, so that the second user module accesses the network side device according to the communication parameter.

In a first possible implementation manner, the combination with the eighth aspect specifically includes,

the receiver is further configured to receive a second access request message sent by the second user module after the first user module sends the first access request message to the network-side device, and send the second access request message to the network-side device, so that the network-side device determines whether to access the second user module according to the second access request message, and sends configuration information to the first user module according to the determination.

In a second possible implementation manner, specifically including, in combination with the first possible implementation manner,

the transmitter is further configured to, after sending the second access request message to the network-side device, if the network-side device accepts the second access request message of the second user module, forward, by the first user module, configuration information configured for the second user module by the network-side device to the second user module, so that the second user unit accesses the network-side device according to the configuration information, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transmitter is further configured to, if the network-side device rejects to accept the second access request message of the second user module, forward, by the first user module, a rejection message sent by the network-side device to the second user module, so that the second user module queries, according to the rejection message, the network-side device that supports access.

In a third possible implementation, in combination with the eighth aspect, the method includes,

the receiver is further configured to receive, after the first user module sends a first access request message to a network side device, first reconfiguration information sent by a second network side device and forwarded by the network side device, where the second network side device provides an access service for the first user module, and the first reconfiguration information is used to indicate that the first user module accesses the second network side device;

the transmitter is further configured to access a cell, which provides a communication service, of the second network-side device according to the first reconfiguration information, acquire timing information, and transmit a first reconfiguration complete message to the second network-side device;

the transmitter is further configured to send a timing message to the second user module, so that the second user module sends a second reconfiguration complete message to the second network-side device according to the timing message.

In a fourth possible implementation, in combination with the eighth aspect, the method includes,

the receiver is further configured to receive a system broadcast message sent by a network-side device before the first user module sends a first access request message to the network-side device, and send the system broadcast message to the second user module, so that the second user module determines, according to the system broadcast message, whether a cell in which the network-side device provides communication service supports access of the second user module.

In a ninth aspect, a network side device is provided, which includes:

the transceiver is used for receiving an access request sent by the first user module;

a processor, configured to generate a communication parameter according to the access request, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier;

the transceiver is further configured to send the communication parameters to the first user module;

the transceiver is further configured to receive an access request message sent by a second user module, where the access request message is used to request that the second user module is accessed to the network-side device, and the access request message is used to indicate that the second user module and the first user module are located in the same communication device.

In a first possible implementation, in combination with the ninth aspect, the method includes,

the transceiver is further configured to receive a second access request message forwarded by the first user module to the second user module.

In a second possible implementation manner, specifically including, in combination with the first possible implementation manner,

the processor is specifically configured to, after receiving a second access request message sent by a second user module, if the network side device accepts the second access request message of the second user module, generate configuration information according to the second access request message;

the transceiver is further configured to forward the configuration information from the first user module to the second user module, so that the second user module accesses the network side device according to the configuration information, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transceiver is specifically configured to send a reject message to the first user module if the network-side device rejects the second access request message for accepting the second user module, and forward the reject message to the second user module by the first user module, so that the second user module queries the network-side device supporting access according to the reject message.

In a third possible implementation, in combination with the ninth aspect, the method includes,

the transceiver is further configured to send a third handover request message to the second network-side device after receiving the second access request message sent by the second user module, so that the second network side device generates first reconfiguration information for the first user module and second reconfiguration information for the second user module according to the third handover request message, and configuring random access resources for the first user module or the second user module, where the first reconfiguration information and the second reconfiguration information include cell radio network temporary identifiers respectively allocated to the first user module and the second user module by the second network-side device, the third handover request message contains a first identifier, so that the second network side device knows that the second user module and the first user module are located in the same communication device;

the transceiver is further configured to receive the first reconfiguration information, the second reconfiguration information, and the random access resource, send the first reconfiguration information to the first user module, send the second reconfiguration information to the second user module, and send the random access resource to the first user module or the second user module, so that the first user module and the second user module are switched to the second network-side device by the network-side device according to the reception of the first reconfiguration information, the second reconfiguration information, and the random access resource sent by the network-side device.

In a tenth aspect, there is provided a communication system comprising: a network side device, a first user module and a second user module, wherein,

the network side device is the network side device according to any possible implementation manner of the sixth aspect or the sixth aspect, the first user module is the first user module according to any possible implementation manner of the fifth aspect or the fifth aspect, and the second user module is the second user module according to any possible implementation manner of the fourth aspect or the fourth aspect;

or, the network side device is the network side device according to any possible implementation manner of the ninth aspect or the ninth aspect, the first user module is the first user module according to any possible implementation manner of the eighth aspect or the eighth aspect, and the second user module is the second user module according to any possible implementation manner of the seventh aspect or the seventh aspect.

In the method, the device and the communication system for access processing of the communication device provided by the embodiment of the present invention, the second user module sends the communication parameter configured by the network side device acquired by the first user module to the network side device, so that the network side device knows that the first user module and the second user module commonly use one communication device, wherein when the network side device configures the parameter required for communication for the first user module or the second user module, since the first user module and the second user module share one communication device, the first user module and/or the second user module are configured identically or correspond to one user module, thereby solving the problem that the dual-card mobile phone can access the current network only through repeated configuration when accessing the network, and further saving network resources.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flowchart of an access process of a communication device according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of an access process of another communication device according to an embodiment of the present invention;

fig. 3 is a flowchart illustrating an access process of another communication device according to an embodiment of the present invention;

fig. 4 is a flowchart illustrating an access process of a communication device according to another embodiment of the present invention;

fig. 5 is a flowchart illustrating an access process of another communication device according to another embodiment of the present invention;

fig. 6 is a flowchart illustrating an access process of another communication device according to another embodiment of the present invention;

fig. 7 is a flowchart illustrating an access process of another communication device according to another embodiment of the present invention;

fig. 8 is a schematic structural diagram of a second user module according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of another second user module according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a second user module according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a first subscriber unit according to an embodiment of the present invention;

fig. 12 is a schematic structural diagram of a network-side device according to an embodiment of the present invention;

fig. 13 is a schematic structural diagram of a second user module according to another embodiment of the present invention;

fig. 14 is a schematic structural diagram of a first subscriber unit according to another embodiment of the present invention;

fig. 15 is a schematic structural diagram of a network-side device according to another embodiment of the present invention;

fig. 16 is a schematic structural diagram of a communication system according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention is suitable for various public Land Mobile networks PLMN (public Land Mobile network), such as global system for Mobile communications/General Packet Radio Service/Enhanced data rate GSM Evolution (GSM/GPRS/EDGE) network, GSM/GPRS network, Code Division Multiple Access (CDMA), third generation Mobile communication system: universal Mobile Telecommunications System/Wideband Code Division multiple access (UMTS/WCDMA) and Long Term evolution network/System architecture evolution (LTE/SAE) networks. The entity performing the synthetic communication may be any entity in the access Network and the core Network, such as an evolved Node Base (eNB) of LTE, a Signaling Gateway (S-GW), a Packet Gateway (PGW), and the like, and Node B of UMTS, a Radio Network Controller (RNC), a Serving GPRS SUPPORT Node (SGSN), a Gateway GPRS SUPPORT Node (GGSN) and the like, where we take a Base station in LTE as an example to describe the scheme.

The invention provides a method for access processing of communication equipment, which is shown in a reference figure 1 on a second user module side and comprises the following procedures:

101. the second user module determines that the first user module has access to the network side device.

Here, the second user module receives a communication parameter configured for the first user module by the network side device, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier acquired by the first user module.

The communication parameters are used for the second user module to access the cell of the network side device for providing the communication service, and the communication parameters include the radio bearer parameters and/or the cell radio network temporary identifier acquired by the first user module.

Here, the radio bearer parameter RB (radio bearer) is used to enable the second user module to access a cell where the network side device provides a communication service according to the RB parameter; the cell Radio network temporary identity (C-RNTI) is used for providing a second user module with a distinguishing identity between a cell providing a communication service by the network side device and other cells, so that the second user module and the first user module access the cell providing the communication service by the same network side device according to the RB parameter and the C-RNTI identity.

Optionally, before the second user module receives the communication parameter configured by the network-side device and acquired by the first user module, the method further includes:

a. the second user module detects whether the cell accessed by the first user module is the cell supporting the access of the second user module.

Here, before receiving the communication parameter sent by the first user module, the second user module detects whether a cell accessed by the first user module is a cell supporting access of the second user module, that is, whether a current cell supports a Public Land Mobile Network (PLMN) system of the second user module.

b. And if the cell is a cell supporting the access of the second user module, receiving the communication parameters configured by the network side equipment acquired by the first user module.

Here, if the cell supports the PLMN system of the second user module, the second user module may access the cell by receiving the communication parameters of the first user module.

102. And the second user module sends a second access request message to the network side equipment.

The second access request message is used for requesting the second user module to be accessed to the network side equipment, and the second access request message is used for indicating that the second user module and the first user module are located in the same communication equipment.

Here, the first User Module and the second User Module take a User Equipment-Subscriber Identity Module1 (User Equipment-Subscriber Identity Module1, UE-SIM 1) and a User Equipment-Subscriber Identity Module2 (User Equipment-Subscriber Identity Module2, UE-SIM 2) as examples in a dual-SIM dual-active handset, the UE-SIM2 accesses the network side Equipment by using RB parameters and C-SIM identifiers configured for the UE-SIM1 by the network side Equipment after the UE-SIM1 accesses the network side Equipment, so that the UE-SIM2 makes the network side know that the UE-SIM2 and the UE-SIM1 share one communication Equipment by sending RB parameters and C-RNTI identifiers identical to the UE-SIM1 to the network side Equipment, and omits configuring part of the UE-SIM2 in terms of configuring communication parameters by the network side Equipment, that the UE-SIM2 and the UE-SIM 3528 share one communication channel or one communication channel 1, the network side device only needs to preferentially access the user module of the network side device by configuring any one of the UE-SIM2 and the UE-SIM1, and the other module can access the cell providing the communication service by the network side device through the configuration of the network side device.

The invention provides a method for access processing of communication equipment, which is shown in a first user module side with reference to fig. 2 and comprises the following procedures:

201. the first user module sends a first access request message to the network side equipment, so that the network side equipment configures communication parameters according to the first access request message.

202. And the first user module receives the communication parameters sent by the network side equipment.

Wherein, the communication parameters comprise radio bearer parameters and/or cell radio network temporary identifications.

Here, the first user module sends an access request to the network side device, so that when the second user module requests to access a cell of the network side device for providing communication service through the configuration of the network side device, the second user module can access the cell of the network side device for providing communication service according to the communication parameters obtained by the first user module.

203. The first user module sends the communication parameters to the second user module so that the second user module can access the network side equipment according to the communication parameters.

Here, by sending the communication parameter configured by the network side device to the second user module, the network side device only needs to receive the access of the second user module according to the communication parameter of the first user module, and the second user module does not need to be configured any more, thereby reducing the waste of network resources.

The invention provides a method for access processing of communication equipment, which is shown in figure 3 on a network side equipment side and comprises the following procedures:

301. and the network side equipment receives the access request sent by the first user module and generates communication parameters according to the access request.

Wherein, the communication parameters comprise radio bearer parameters and/or cell radio network temporary identifications.

Here, the network side device accepts the access of the first user module according to the access request of the first user module, that is, the first user module accesses the cell of the network side device for providing the communication service.

302. The network side equipment sends the communication parameters to the first user module.

303. And the network side equipment receives a second access request message sent by the second user module root.

The second access request message is used for requesting the second user module to access to the network side device, and the second access request message is used for indicating that the second user module and the first user module are located in the same communication device.

Here, the network side device learns that the first user module and the second user module share one communication device or that the first user module and the second user module have a shared channel by receiving the communication parameter sent by the second user module, so that the network side device does not need to configure the second user module with the related communication parameter again by receiving the communication parameter sent by the second user module, thereby saving network resources.

Specifically, in the aspect that the network side device configures the network resource for the first user module, the network side device is specifically as follows:

a. the implementation optimization can be performed when radio bearer rb (radio bearer) parameters are configured, for example, a channel Quality indicator CQI (channel Quality indicator) configured for a first user module by a network side device, and if the CQI of a second user module does not match the current CQI, the CQI of the second user module can still be reported according to the CQI of the reference first user module, so as to access the network side device;

b. mobility measurement configuration, for example, when the first user module moves from the current cell to another cell, the network side device only needs to change the communication parameters of the first user module, and since the first user module and the second user module share the same communication device, when the first user module moves to another cell, the configuration of the first user module by the network side device is also applicable to the second user module;

c. the timing alignment TA (time alignment) is maintained, if the first user module is preferentially accessed to the network side equipment, the network side equipment only needs to configure the first user module, and when the second user module initiates access, the second user module can be accessed to the network side equipment only by referring to the TA configuration of the first user module and achieves synchronization with the first user module;

d. the network side configures a reported Transmission Power Headroom parameter phr (Power Headroom report), and the network side device only needs to configure one user module or configure the same Transmission Power Control-radio network temporary identifier (TPC-RNTI) for the first user module and the second user module.

In the method for access processing of a communication device provided in the embodiment of the present invention, the second user module sends the communication parameter configured by the network-side device acquired by the first user module to the network-side device, so that the network-side device knows that the first user module and the second user module share one communication device, and when the network-side device configures the parameter required for communication for the first user module or the second user module, because the first user module and the second user module share one communication device, the first user module and/or the second user module are configured identically or are configured corresponding to one user module, thereby solving the problem that the dual-card mobile phone can access the current network only through repeated configuration when accessing the network, and further saving network resources.

Specifically, the following description will be given with reference to specific examples.

On the basis of the embodiments shown in fig. 1, fig. 2, or fig. 3, referring to fig. 4, an embodiment of the present invention provides a method for access processing of a communication device, which mainly includes: the second user module is connected with the network side equipment by using the communication parameters obtained by the first user module; referring to fig. 4, a process of the second user module connecting to the network side device through the communication parameter of the first user module is specifically described as follows:

401. the first user module sends a first access request message to the network side equipment, so that the network side equipment configures communication parameters according to the first access request message.

Here, the first User Module takes a Subscriber Identity Module UE-SIM1 (User Equipment-Subscriber Identity Module) in the User Equipment in the dual-card dual-active handset as an example, the UE-SIM1 preferably initiates an access request to the network side Equipment, and requests to access a cell where the network side Equipment provides a communication service.

402. The network side equipment receives a first access request message sent by a first user module, and generates communication parameters according to the first access request message.

The communication parameters comprise radio bearer parameters and cell radio network temporary identifications.

Here, taking an evolved Node b (evolved Node base) in a long Term evolution (long Term evolution) Network lte (long Term evolved) as an example, the eNB receives an access request of the UE-SIM1, and configures a radio bearer RB (radio bearer) parameter and a cell radio Network Temporary identity C-RNTI (cell radio Network Temporary identity) of a cell in which the eNB provides a communication service for the UE-SIM1, so that the UE-SIM1 accesses the cell covered by the eNB signal after receiving the RB parameter and the C-RNTI identity.

403. The network side equipment sends the communication parameters to the first user module.

404. And the first user module receives the communication parameters sent by the network side equipment.

405. And the first user module sends the communication parameters to the second user module so that the second user module can access the network side equipment according to the communication parameters.

Here, after the UE-SIM1 has successfully accessed to the cell covered by the eNB signal after receiving the RB parameter and the C-RNTI identifier, the UE-SIM1 sends the RB parameter and the C-RNTI identifier to the UE-SIM2, so that the UE-SIM2 can know that the UE-SIM1 and the UE-SIM2 are located in one communication device according to the RB parameter and the C-RNTI identifier sent to the eNB, and only needs to configure any one of the UE-SIM1 and the UE-SIM2 or configure the same communication parameter when configuring the communication parameter.

406. The second user module detects whether the cell accessed by the first user module is the cell supporting the access of the second user module.

Before the UE-SIM2 receives the communication parameters sent by the UE-SIM1, the UE-SIM2 detects a cell to be accessed, and determines whether the cell supports the cell accessed by the UE-SIM2 or needs the UE-SIM2 to be accessed, and if the cell does not support the public Land Mobile network (plmn) of the UE-SIM2, the UE-SIM2 searches for a cell supporting access according to a conventional access method.

407. And if the cell is a cell supporting the access of the second user module, receiving the communication parameters configured by the network side equipment acquired by the first user module.

Here, if the cell supports access by the UE-SIM2, the UE-SIM2 will receive the communication parameters of the UE-SIM 1.

408. And the second user module receives the communication parameters configured for the first user module by the network side equipment.

The communication parameters comprise radio bearer parameters and/or cell radio network temporary identifications acquired by the first user module.

409. And the second user module sends a second access request message to the network side equipment.

Wherein the second access request message comprises: and communication parameters are obtained so that the network side equipment can know that the second user module and the first user module are positioned in the same communication equipment according to the communication parameters.

410. And the network side equipment receives a second access request message sent by the second user module root.

The second access request message is used for requesting the second user module to be accessed to the network side equipment, and the second access request message is used for indicating that the second user module and the first user module are located in the same communication equipment.

The eNB knows that the UE-SIM2 and the UE-SIM1 share one dual-SIM dual-pass mobile phone according to the communication parameters sent by the UE-SIM2, so that the eNB can configure the communication parameters for any one of two user modules in the mobile phone or configure the same communication parameters for the UE-SIM1 and the UE-SIM2 after receiving the communication parameters of the UE-SIM 2.

According to the method for processing access of the communication equipment provided by the embodiment of the invention, the second user module sends the communication parameters to the network side equipment through the communication parameters obtained by the first user module, so that the network side equipment knows that the second user module and the first user module share one communication equipment, the problem that the dual-card mobile phone can access the current network only through repeated configuration when accessing the network is solved, and network resources are further saved.

On the basis of the embodiments shown in fig. 1, fig. 2, fig. 3, or fig. 4, referring to fig. 5, an embodiment of the present invention provides a method for access processing of a communication device, which mainly includes: the second user module forwards the access request through the first user module and accesses the network side equipment by receiving the communication parameters of the network side equipment acquired by the first user; referring to fig. 5, a process of the second user module accessing the network side device through the first user module is specifically described as follows:

501. and the second user module sends the second access request message to the first user module.

Here, the second User Module takes a Subscriber Identity Module UE-SIM2 (User Equipment-Subscriber Identity Module) in the User Equipment in the dual-SIM phone as an example, the first User Module takes a UE-SIM1 as an example, and on the premise that the first User Module is accessed, the second User Module initiates access, where the UE-SIM2 sends an Identity id (Identity) of its own User and a reason for accessing the network-side device to the UE-SIM1, so as to connect with the network-side device through the UE-SIM 1.

502. And the first user module sends the second access request message to the network side equipment.

503. And the network side equipment judges whether to accept the access of the second user module according to the second access request message. If the network side device accepts the access of the second user module, that is, the network side device agrees to provide service for the second user module, steps 504, 506 and 508 are sequentially performed, and if the network side device rejects the access of the second user module, that is, the network side device rejects to provide service for the second user module, steps 505, 507 and 509 are sequentially performed.

Here, the network side device takes an evolved Node b (evolved Node base) in a long Term evolution (lte) network (long Term evolved) as an example, and the eNB obtains a user ID of the UE-SIM2 and a reason why the UE-SIM2 requests connection by receiving an access request message of the UE-SIM2 forwarded by the UE-SIM 1. If the eNB does not accept access to the UE-SIM2, a reject message is sent to the UE-SIM1 and forwarded by the UE-SIM1 to the UE-SIM2, and the UE-SIM2 will re-search for an eNB supporting access.

504. If the network side device accepts the second access request message of the second user module, the configuration information is generated according to the second access request message, and the configuration information is sent to the first user module, and then step 506 is executed.

Here, the configuration information includes an access identity including a cell radio network temporary identity.

When the eNB accepts the connection request information of the UE-SIM2, the cell wireless network temporary identifier of the cell covered by the eNB signal forwarded by the UE-SIM1 is identified to the UE-SIM2, and the UE-SIM2 completes the access.

Here, if the network side device accepts the access of the second user module, the network side device configures an access identifier for the second user module, that is, the second user module obtains permission for accessing a cell providing a communication service by the network side device.

505. If the network side device refuses to accept the second access request message of the second user module, the network side device sends a refusal message to the first user module, and then step 507 is executed.

506. The first user module forwards the configuration information configured for the second user module by the network side device to the second user module, and then executes step 508.

The configuration information comprises an access identifier, and the access identifier comprises a cell radio network temporary identifier.

507. The first user module forwards the rejection message sent by the network side device to the second user module, and then executes step 509.

508. And the second user module receives the configuration information transmitted by the first user module forwarding network side equipment and accesses the network side equipment according to the configuration information.

509. And the second user module receives the rejection message sent by the first user module forwarding network side equipment, and inquires the network side equipment supporting the access of the second user module according to the rejection message.

The second user module accesses the network side device according to the configuration information transmitted by the network side device forwarded by the first user module, wherein if the network side device supports a Public Land Mobile Network (PLMN) system of the second user module, the second user module accesses a cell providing a communication service by the network side device according to an access identifier configured by the network side device; otherwise, the network side equipment supporting the access is automatically searched by receiving the rejection message sent by the network side equipment.

The network side device receiving the access request message of the second user module includes: and the network side equipment receives the connection request of the second user module and starts to provide communication service for the second user module.

In the method for processing access of communication equipment provided by the embodiment of the present invention, the second user module forwards the access request message to access the network side equipment through the first user module, the network side equipment determines whether to accept the access of the second user module according to the access request message, and the process of independently receiving the access of the second user module by the network side equipment is saved through the forwarding of the first user module, thereby saving network resources.

On the basis of the embodiments shown in fig. 1, fig. 2, fig. 3, fig. 4, or fig. 5, referring to fig. 6, an embodiment of the present invention provides a method for access processing of a communication device, which mainly includes: the network side equipment transmits a switching request to the network side equipment to which other cells belong, so that the network side equipment to which the other cells belong knows that the first user module and the second user module share one communication equipment; referring to fig. 6, a process of switching a second user module and a first user module from a cell of a network side device through a communication service to another cell is shown, and the specific steps are as follows:

601. and the network side equipment sends a third switching request message to second network side equipment, and the second network side equipment generates first reconfiguration information for the first user module and second reconfiguration information for the second user module according to the third switching request message and configures random access resources for the first user module or the second user module.

Preferably, the first reconfiguration information and the second reconfiguration information include cell radio network temporary identifiers respectively allocated to the first user module and the second user module by the second network-side device, and the third handover request message includes the first identifier so that the second network-side device knows that the second user module and the first user module are located in the same communication device.

Here, the network side device takes an evolved base station eNB (evolved Node base) in a long Term evolution network lte (long Term evolved), and the first User Module and the second User Module take a Subscriber Identity Module UE-SIM1 (User Equipment-Subscriber Identity Module) and a UE-SIM2 (User Equipment-Subscriber Identity Module) in User Equipment in a dual-SIM phone as examples, where the network side devices to which other cells belong take a network side device to which the cells to which the UE-SIM1 and the UE-SIM2 are to move as examples, that is, a target eNB, and at this time, the network side device described in the cell to which the UE-SIM1 and the UE-SIM2 are currently located is a source eNB. In this embodiment, the network side device may be a source eNB, and the second network side device may be a target eNB.

Specifically, when the source eNB determines that it needs to switch between the UE-SIM1 and the UE-SIM2, the source eNB sends a handover request message to the target eNB, where the handover request message can inform the target eNB, the UE-SIM1 and the UE-SIM2 share one communication device, that is, the UE-SIM1 and the UE-SIM2 are bound in a dual-card dual-active handset, so that when the target eNB configures the UE-SIM1 and the UE-SIM2, it only needs to configure any one of the UE-SIM1 and the UE-SIM2 or configure the same communication parameters for the UE-SIM1 and the UE-SIM 2.

Here, after receiving the handover request message from the source eNB, the target eNB will generate Radio Resource rrc (Radio Resource control) reconfiguration information for handover for the UE-SIM1 and the UE-SIM2, respectively, where the target eNB will reconfigure a cell Radio Network temporary identifier C-RNTI (cell Radio Network temporary identity) for the UE-SIM1 and the UE-SIM2, configure a Channel Access RACH Resource (Random Access Channel) for the UE-SIM1 or the UE-SIM2, and send the information to the source eNB, so that the source eNB sends the information to the UE-SIM1 and the UE-SIM 2.

602. The network side equipment receives the first reconfiguration information, the second reconfiguration information and the random access resource, sends the first reconfiguration information to the first user module, sends the second reconfiguration information to the second user module and sends the random access resource to the first user module or the second user module.

Here, the source eNB receives the C-RNTI and RACH resources transmitted by the target eNB and allocates the C-RNTI and RACH resources to the UE-SIM1 and the UE-SIM2, wherein the RACH resources are allocated to only one of the UE-SIM1 and the UE-SIM 2.

603. The first user module receives first reconfiguration information transmitted by second network side equipment forwarded by the network side equipment, accesses a cell providing communication service by the second network side equipment according to the first reconfiguration information, acquires timing information, transmits the timing information to the second user module, and transmits a first reconfiguration completion message to the second network side equipment.

The second network side device provides access service for the first user module, and the first reconfiguration information is used for indicating the first user module to access the second network side device.

Here, if the target eNB configures RACH resources to the UE-SIM1, the UE-SIM1 accesses a cell covered by the target eNB signal according to the first reconfiguration information configured by the target eNB, i.e., C-RNTI, and informs the target eNB that the UE-SIM1 has been successfully accessed by transmitting a reconfiguration complete message.

604. And the second user module sends a second reconfiguration finishing message to the second network side equipment according to the second reconfiguration information and the timing information.

The second network side device provides access for the second user module, and the second reconfiguration information is used for indicating the second user module to access the second network side device.

When the UE-SIM1 successfully accesses the target eNB, the timing alignment TA (timing alignment) obtained in the access process is sent to the UE-SIM2, so that the UE-SIM2 accesses the target eNB according to the TA.

And the UE-SIM2 realizes synchronization with the target eNB according to the obtained TA and directly sends a reconfiguration completion message to the target eNB to successfully access the cell covered by the signal of the target eNB.

The specific process of switching the second user module and the first user module from the cell of the communication service to another cell by the network side device includes, if the second network side device configures the random access resource for the first user module, receiving a first reconfiguration complete message sent by the first user module after the first user module accesses the second network side device according to the random access resource, and receiving a second reconfiguration complete message sent after the second user module completes timing according to the timing message obtained by the first user module.

Here, when the target eNB receives the reconfiguration complete message of the UE-SIM1 and the UE-SIM2 according to the above method, the UE-SIM1 and the UE-SIM2 move from the cell covered by the source eNB signal to the cell covered by the current target eNB signal.

The method for access processing of communication equipment provided by the embodiment of the invention sends a switching request message to network side equipment to which other cells belong through the network side equipment, the first user module and the second user module in the cell which provides communication service for the current network side equipment through the network side equipment of the other cell configure the reconfiguration message and the random access resource, the first user module and the second user module are switched from the cell of the current network side equipment providing communication service to the cell of the network side equipment providing communication service to which other cells belong, wherein the network side device to which the other cell belongs realizes the configuration of the second user module through the configuration of the first user module, therefore, the problem that the dual-card mobile phone can be accessed to the current network only by repeating configuration for many times when being accessed to the network is solved, and network resources are further saved.

On the basis of the embodiments shown in fig. 1, fig. 2, or fig. 3, referring to fig. 7, an embodiment of the present invention provides an access processing method for a communication device, which mainly includes: the second user module judges whether the cell accessed by the first user module is a cell supporting access or not according to the configuration information sent by the first user module; referring to fig. 7, a process of selecting an access cell for a second user module according to configuration information sent by a first user module includes the following specific steps:

701. the first user module receives the system broadcast message sent by the network side equipment and sends the system broadcast message to the second user module.

The first user module and the second user module are in a state of not accessing any Network side device, and when the first user module and the second user module select the accessed Network side device, the first user module receives system broadcast of a cell providing communication service by the current Network side device, and acquires whether the cell providing communication service by the current Network side device supports a Public Land Mobile Network (PLMN) format of the second user module according to the system broadcast.

Wherein the system broadcast includes the public land mobile network supported by the cell.

Here, the first user module informs the second user module of the kind of public land mobile network supported by the current network side equipment providing communication service through system broadcast.

702. And the second user module receives the system broadcast message sent by the first user module and judges whether the cell accessed by the first user module supports the access of the second user module according to the system broadcast message. If the cell supports the access of the second user module, step 703 is executed, otherwise, step 704 is executed.

703. The second user module accesses the cell.

Here, the second user module is accessed to the current network-side device if the cell in which the current network-side device provides communication service supports the type of public land mobile network of the second user module.

704. The second user module selects a cell access supporting the second user module access.

For example, the second user module searches for a network side device supporting the type of the public land mobile network of the second user module according to the type of the public land mobile network.

According to the method for access processing of the communication equipment provided by the embodiment of the invention, the first user module receives the system broadcast of the cell of the current network side equipment providing the communication service, and generates the configuration information according to the system broadcast so that the second user module can judge whether to access the cell of the current network side equipment providing the communication service, so that the process that the second user module actively receives the system broadcast and judges is reduced, the problem that the dual-card mobile phone can access the current network only through repeated configuration when accessing the network is solved, and the network resource is further saved.

Embodiments of the present invention further provide embodiments of an apparatus for implementing the methods or steps in the above-described method embodiments.

An embodiment of the present invention provides a second user module 8, which is specifically any module in a mobile communication system, for example, a subscriber Identity module sim (subscriber Identity module) of a mobile phone subscriber is clamped in the mobile communication system, which is a user module capable of implementing a mobile phone access to a network, and with reference to fig. 8, a method for implementing any mobile phone access to a network provided in the embodiment of the present invention includes:

a determining unit 81, configured to determine that the first user module has accessed to the network-side device;

the transceiver 82 is further configured to send a second access request message to the network-side device, where the second access request message is used to request that the second user module is accessed to the network-side device, and the second access request message is used to indicate that the second user module and the first user module are located in the same communication device.

In the second user module provided in the embodiment of the present invention, the second user module sends the communication parameter configured by the network-side device acquired by the first user module to the network-side device, so that the network-side device knows that the first user module and the second user module jointly use one communication device, and when the network-side device configures parameters required for communication for the first user module or the second user module, because the first user module and the second user module share one communication device, the first user module and/or the second user module are configured identically or are configured corresponding to one user module, thereby solving the problem that the dual-card mobile phone can access the current network only through repeated configuration when accessing the network, and further saving network resources.

Optionally, the transceiver unit 82 is further configured to receive a communication parameter configured by the network side device for the first user module, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier acquired by the first user module;

the transceiver 82 is further configured to send a second access request message to the network side device, where the second access request message includes: and communication parameters are obtained so that the network side equipment can know that the second user module and the first user module are positioned in the same communication equipment according to the communication parameters.

Optionally, as shown in fig. 9, the second user module 8 further includes:

a detecting unit 83, configured to detect whether a cell accessed by a first user module is a cell supporting access by a second user module;

the transceiver 82 is further configured to receive the communication parameter configured by the network-side device acquired by the first user module if the cell is a cell supporting access of the second user module.

Optionally, the transceiver 82 is further configured to send the second access request message to the first user module, so that the first user module forwards the second access request message to the network side device, so that the network side device determines whether to access the second user module according to the second access request message, and sends the configuration information to the first user module according to the determination.

Further, the transceiver unit 82 is further configured to, after the second user module sends the second access request message to the network-side device, if the network-side device accepts the second access request message, forward, by receiving the first user module, configuration information sent by the network-side device, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier, to the network-side device;

or,

the transceiving unit 82 is further configured to, if the network-side device rejects to accept the second access request message, query the network-side device supporting access by receiving a rejection message sent by the first user module forwarding the network-side device by the second user module.

Optionally, the transceiver 82 is further configured to receive second reconfiguration information sent by the second network-side device and forwarded by the network-side device after the second user module sends the second access request message to the network-side device, where the second network-side device provides an access service for the second user module, and the second reconfiguration information is used to instruct the second user module to access the second network-side device;

the transceiving unit 82 is further configured to receive a timing message sent by the first user module, and send a second reconfiguration complete message to the second network side device according to the timing message and the second reconfiguration information.

Optionally, referring to fig. 10, the second user module 8 further includes:

the transceiver 82 is further configured to receive a system broadcast message sent by the first user module before determining that the first user module has been accessed to the network side device, and determine whether a cell accessed by the first user module supports access of a second user module according to the system broadcast message;

an access unit 84, configured to access the cell if the cell supports access;

or,

the selecting unit 85 is configured to select a cell supporting access for access if the cell does not support access.

In the second user module provided in the embodiment of the present invention, the second user module accesses a cell where the network-side device provides a communication service by receiving the communication parameter configured by the network-side device acquired by the first user module, or switches to a network-side device to which another cell belongs according to reconfiguration information configured by the network-side device, and the second user module enables the network-side device to know that the first user module and the second user module share one communication device by receiving the communication parameter of the first user module, so that the network-side device only needs to configure one user module or configure the same network resource corresponding to two user modules when configuring the network resource, thereby solving the problem that the dual-card mobile phone can access the current network by repeating configuration for multiple times when accessing the network, and saving the network resource.

An embodiment of the present invention provides a first user module 9, which is specifically any module in a mobile communication system, for example, a subscriber module, which is a subscriber Identity module (sim) of a mobile phone subscriber and can implement a mobile phone to access a network in the mobile communication system, and with reference to fig. 11, the method for implementing any mobile phone to access a network provided in an embodiment of the present invention includes:

a sending unit 91, configured to send a first access request message to a network side device, so that the network side device configures communication parameters according to the first access request message;

a receiving unit 92, configured to receive a communication parameter sent by a network side device, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier;

the sending unit 91 is further configured to send the communication parameter to the second user module, so that the second user module accesses the network side device according to the communication parameter.

In the first user module provided in the embodiment of the present invention, the second user module sends the communication parameter configured by the network-side device acquired by the first user module to the network-side device, so that the network-side device knows that the first user module and the second user module jointly use one communication device, wherein when the network-side device configures parameters required for communication for the first user module or the second user module, since the first user module and the second user module share one communication device, the first user module and/or the second user module are configured identically or are configured corresponding to one user module, thereby solving the problem that a dual-card mobile phone can access the current network only through repeated configuration when accessing the network, and further saving network resources.

Optionally, the receiving unit 92 is further configured to receive, after the first user module sends the first access request message to the network-side device, a second access request message sent by the second user module, and send the second access request message to the network-side device, so that the network-side device determines whether to access the second user module according to the second access request message, and sends the configuration information to the first user module according to the determination.

Further, the sending unit 91 is further configured to, after sending the second access request message to the network side device, if the network side device accepts the second access request message of the second user module, forward, by the first user module, configuration information configured for the second user module by the network side device to the second user module, so that the second user unit accesses the network side device according to the configuration information, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the sending unit 91 is further configured to, if the network-side device rejects to accept the second access request message of the second user module, forward, by the first user module, the rejection message sent by the network-side device to the second user module, so that the second user module queries the network-side device supporting access according to the rejection message.

Optionally, the receiving unit 92 is further configured to receive, after the first user module sends the first access request message to the network side device, first reconfiguration information sent by the second network side device and forwarded by the network side device, where the second network side device provides an access service for the first user module, and the first reconfiguration information is used to indicate that the first user module accesses the second network side device;

a sending unit 91, further configured to access a cell, which provides a communication service, of the second network side device according to the first reconfiguration information, acquire timing information, and send a first reconfiguration complete message to the second network side device;

the sending unit 91 is further configured to send a timing message to the second user module, so that the second user module sends a second reconfiguration complete message to the second network-side device according to the timing message.

Optionally, the receiving unit 92 is further configured to receive a system broadcast message sent by the network-side device before sending the first access request message to the network-side device, and send the system broadcast message to the second user module, so that the second user module determines, according to the system broadcast message, whether the cell providing the communication service by the network-side device supports the access of the second user module.

In the first user module provided in the embodiment of the present invention, the second user module accesses the cell where the network-side device provides the communication service by receiving the communication parameter configured by the network-side device acquired by the first user module, or switches to the network-side device to which another cell belongs according to the reconfiguration information configured by the network-side device, and the second user module enables the network-side device to know that the first user module and the second user module share one communication device by receiving the communication parameter of the first user module, so that the network-side device only needs to configure one user module or configure the same network resource corresponding to two user modules when configuring the network resource, thereby solving the problem that the dual-card mobile phone can access the current network by repeating the configuration for multiple times when accessing the network, and saving the network resource.

An embodiment of the present invention provides a network-side device 10, which is specifically any electronic device in a mobile communication system, for example, an electronic device such as a base station in the mobile communication system, which can implement a mobile phone to access a network, and with reference to fig. 12, a method for implementing any mobile phone to access a network provided in an embodiment of the present invention includes:

a transceiver 1001, configured to receive an access request sent by a first user module;

a generating unit 1002, configured to generate a communication parameter according to the access request, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier;

a transceiver 1001 for transmitting communication parameters to a first user module;

the transceiving unit 1001 is further configured to receive an access request message sent by the second user module root, where the access request message is used to request that the second user module is accessed to the network side device, and the access request message is used to indicate that the second user module and the first user module are located in the same communication device.

In the network-side device provided in the embodiment of the present invention, the second user module sends the communication parameter configured by the network-side device acquired by the first user module to the network-side device, so that the network-side device knows that the first user module and the second user module jointly use one communication device, and when the network-side device configures parameters required for communication for the first user module or the second user module, because the first user module and the second user module share one communication device, the first user module and/or the second user module are configured identically or are configured corresponding to one user module, thereby solving the problem that the dual-card mobile phone can access the current network only through repeated configuration when accessing the network, and further saving network resources.

Optionally, the transceiver 1001 is further configured to receive a second access request message that the first user module forwards the second user module.

Further, the generating unit 1002 is specifically configured to, after receiving a second access request message sent by a second user module, if the network side device accepts the second access request message of the second user module, generate configuration information according to the second access request message;

the transceiving unit 1001 is further configured to forward the configuration information from the first user module to the second user module, so that the second user module accesses the network side device according to the configuration information, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transceiving unit 1001 is specifically configured to send a reject message to the first user module if the network-side device rejects the second access request message of the second user module, and forward the reject message to the second user module by the first user module, so that the second user module queries the network-side device supporting access according to the reject message.

Optionally, the transceiver unit 1001 is further configured to send, after receiving a second access request message sent by the second user module, a third handover request message to the second network-side device, so that the second network-side device generates, according to the received third handover request message, first reconfiguration information for the first user module and second reconfiguration information for the second user module, and configures a random access resource for the first user module or the second user module, where the first reconfiguration information and the second reconfiguration information include cell radio network temporary identifiers allocated by the second network-side device to the first user module and the second user module, and the third handover request message includes the first identifier so that the second network-side device knows that the second user module and the first user module are located in the same communication device;

the transceiver 1001 is further configured to receive the first reconfiguration information, the second reconfiguration information, and the random access resource, send the first reconfiguration information to the first user module, send the second reconfiguration information to the second user module, and send the random access resource to the first user module or the second user module, so that the first user module and the second user module are switched to the second network device by the network device according to the first reconfiguration information, the second reconfiguration information, and the random access resource sent by the network device.

In the network-side device provided in the embodiment of the present invention, the second user module performs access to a cell where the network-side device provides a communication service by receiving the communication parameter configured by the network-side device acquired by the first user module, or switches to a network-side device to which another cell belongs according to reconfiguration information configured by the network-side device, and the second user module makes the network-side device know that the first user module and the second user module share one communication device by receiving the communication parameter of the first user module, so that the network-side device only needs to configure one user module or configure the same network resource corresponding to the two user modules when configuring the network resource, thereby solving the problem that the dual-card mobile phone can access to the current network by repeating configuration for multiple times when accessing to the network, and saving the network resource.

Embodiments of the present invention provide a second user module 11, as shown with reference to fig. 13, which may be embedded in or be a microprocessor computer itself, such as: a portable device such as a general-purpose computer, a client-customized machine, a mobile phone terminal, or a tablet, the second user module 11 includes: at least one processor 1101, a memory 1102, a transceiver 1103, and a bus 1104, the at least one processor 1101, the memory 1102, the transceiver 1103 coupled by the bus 1104 and communicating with each other.

The bus 1104 may be an Industry Standard Architecture (ISA) bus, a Peripheral Component Interconnect (PCI) bus, an Extended ISA (EISA) bus, or the like. The bus 1004 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown in FIG. 13, but this is not intended to represent only one bus or type of bus. Wherein:

the memory 1102 is used to store executable program code, including computer operating instructions. Memory 1102 may comprise high-speed RAM memory, and may also include non-volatile memory (non-volatile memory), such as at least one disk memory.

The processor 1101 may be a Central Processing Unit (CPU), or an Application Specific Integrated Circuit (ASIC), or one or more Integrated circuits configured to implement embodiments of the present invention.

The transceiver 1103 is mainly used to implement communication between devices in this embodiment.

The processor 1101 is configured to determine that the first user module has access to the network-side device;

the transceiver 1103 is configured to send a second access request message to the network-side device, where the second access request message is used to request that the second user module is accessed to the network-side device, and the second access request message is used to indicate that the second user module and the first user module are located in the same communication device.

In the second user module provided in the embodiment of the present invention, the second user module sends the communication parameter configured by the network-side device acquired by the first user module to the network-side device, so that the network-side device knows that the first user module and the second user module jointly use one communication device, and when the network-side device configures parameters required for communication for the first user module or the second user module, because the first user module and the second user module share one communication device, the first user module and/or the second user module are configured identically or are configured corresponding to one user module, thereby solving the problem that the dual-card mobile phone can access the current network only through repeated configuration when accessing the network, and further saving network resources.

Optionally, the transceiver 1103 is further configured to receive a communication parameter configured by the network side device for the first user module, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier obtained by the first user module;

the transceiver 1103 is further configured to send a second access request message to the network side device, where the second access request message includes: and communication parameters are obtained so that the network side equipment can know that the second user module and the first user module are positioned in the same communication equipment according to the communication parameters.

Optionally, the processor 1101 is further configured to detect whether a cell accessed by the first user module is a cell supporting access by the second user module;

the transceiver 1103 is further configured to receive, when the cell is a cell supporting access of the second user module, the communication parameter configured by the network-side device and acquired by the first user module.

Optionally, the transceiver 1103 is further configured to send the second access request message to the first user module, so that the first user module forwards the second access request message to the network side device, so that the network side device determines whether to access the second user module according to the second access request message, and sends the configuration information to the first user module according to the determination.

Further, the transceiver 1103 is further configured to, after the second user module sends the second access request message to the network-side device, if the network-side device accepts the second access request message, forward, by receiving the first user module, configuration information sent by the network-side device, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier, to the network-side device;

or,

the transceiver 1103 is further configured to, if the network-side device rejects to accept the second access request message, query, by the second user module, the network-side device that supports access by receiving a rejection message sent by the first user module and forwarded by the network-side device.

Optionally, the transceiver 1103 is further configured to receive, after the second user module sends the second access request message to the network-side device, second reconfiguration information sent by the second network-side device and forwarded by the network-side device, where the second network-side device provides an access service for the second user module, and the second reconfiguration information is used to indicate that the second user module accesses the second network-side device;

the transceiver 1103 is further configured to receive a timing message sent by the first user module, and send a second reconfiguration complete message to the second network side device according to the timing message and the second reconfiguration information.

Optionally, the transceiver 1103 is further configured to receive a system broadcast message sent by the first user module before determining that the first user module has accessed to the network-side device, and determine, according to the system broadcast message, whether a cell accessed by the first user module supports access of a second user module;

a processor 1101, further configured to access the cell if the cell supports access;

or,

the processor 1101 is further configured to select a cell access supporting the access if the cell does not support the access.

In the second user module provided in the embodiment of the present invention, the second user module accesses a cell where the network-side device provides a communication service by receiving the communication parameter configured by the network-side device acquired by the first user module, or switches to a network-side device to which another cell belongs according to reconfiguration information configured by the network-side device, and the second user module enables the network-side device to know that the first user module and the second user module share one communication device by receiving the communication parameter of the first user module, so that the network-side device only needs to configure one user module or configure the same network resource corresponding to two user modules when configuring the network resource, thereby solving the problem that the dual-card mobile phone can access the current network by repeating configuration for multiple times when accessing the network, and saving the network resource.

Embodiments of the present invention provide a first user module 12, shown with reference to fig. 14, which may be embedded in or be a microprocessor computer itself, such as: a portable device such as a general-purpose computer, a client-customized machine, a mobile phone terminal, or a tablet, the first user module 12 includes: at least one processor 1201, memory 1202, transmitter 1203, receiver 1204 and bus 1205, the at least one processor 1201, memory 1202, transmitter 1203 and receiver 1204 being coupled via the bus 1205 and communicating with each other.

The bus 1205 may be an Industry Standard Architecture (ISA) bus, a Peripheral Component Interconnect (PCI) bus, an Extended ISA (EISA) bus, or the like. The bus 1205 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown in FIG. 14, but this is not intended to represent only one bus or type of bus. Wherein:

the memory 1202 is used to store executable program code, which includes computer operating instructions. Memory 1202 may comprise high-speed RAM memory, and may also include non-volatile memory (non-volatile memory), such as at least one disk memory.

The processor 1201 may be a Central Processing Unit (CPU), or an Application Specific Integrated Circuit (ASIC), or one or more Integrated circuits configured to implement embodiments of the present invention.

The transmitter 1203 and the receiver 1204 are mainly used to implement communication between devices in this embodiment.

The transmitter 1203 is configured to send a first access request message to a network side device, so that the network side device configures communication parameters according to the first access request message;

a receiver 1204, further configured to receive a communication parameter sent by a network side device, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier;

the transmitter 1203 is further configured to send the communication parameter to the second user module, so that the second user module accesses the network-side device according to the communication parameter.

In the first user module provided in the embodiment of the present invention, the second user module sends the communication parameter configured by the network-side device acquired by the first user module to the network-side device, so that the network-side device knows that the first user module and the second user module jointly use one communication device, wherein when the network-side device configures parameters required for communication for the first user module or the second user module, since the first user module and the second user module share one communication device, the first user module and/or the second user module are configured identically or are configured corresponding to one user module, thereby solving the problem that a dual-card mobile phone can access the current network only through repeated configuration when accessing the network, and further saving network resources.

Optionally, the receiver 1204 is further configured to receive a second access request message sent by the second user module after the first user module sends the first access request message to the network-side device, and send the second access request message to the network-side device, so that the network-side device determines whether to access the second user module according to the second access request message, and sends the configuration information to the first user module according to the determination.

Further, the transmitter 1203 is further configured to, after sending the second access request message to the network-side device, if the network-side device accepts the second access request message of the second user module, forward, by the first user module, configuration information configured for the second user module by the network-side device to the second user module, so that the second user unit accesses the network-side device according to the configuration information, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transmitter 1203 is further configured to, if the network-side device rejects to accept the second access request message of the second user module, forward, by the first user module, the rejection message sent by the network-side device to the second user module, so that the second user module queries the network-side device supporting access according to the rejection message.

Optionally, the receiver 1204 is further configured to receive, after the first user module sends the first access request message to the network side device, first reconfiguration information sent by the second network side device and forwarded by the network side device, where the second network side device provides an access service for the first user module, and the first reconfiguration information is used to indicate that the first user module accesses the second network side device;

the transmitter 1203 is further configured to access a cell, which provides a communication service, of the second network-side device according to the first reconfiguration information, acquire timing information, and send a first reconfiguration complete message to the second network-side device;

the transmitter 1203 is further configured to send a timing message to the second user module, so that the second user module sends a second reconfiguration complete message to the second network-side device according to the timing message.

Optionally, the receiver 1204 is further configured to receive a system broadcast message sent by the network-side device before the first user module sends the first access request message to the network-side device, and send the system broadcast message to the second user module, so that the second user module determines, according to the system broadcast message, whether a cell of the network-side device providing the communication service supports access of the second user module.

In the first user module provided in the embodiment of the present invention, the second user module accesses the cell where the network-side device provides the communication service by receiving the communication parameter configured by the network-side device acquired by the first user module, or switches to the network-side device to which another cell belongs according to the reconfiguration information configured by the network-side device, and the second user module enables the network-side device to know that the first user module and the second user module share one communication device by receiving the communication parameter of the first user module, so that the network-side device only needs to configure one user module or configure the same network resource corresponding to two user modules when configuring the network resource, thereby solving the problem that the dual-card mobile phone can access the current network by repeating the configuration for multiple times when accessing the network, and saving the network resource.

An embodiment of the present invention provides a network side device 13, which is shown in fig. 15 and can be embedded in or is a micro-processing computer, such as: a portable device such as a general-purpose computer, a client customizing machine, a mobile phone terminal, or a tablet, the network-side device 13 includes: at least one processor 1301, a memory 1302, a transceiver 1303, and a bus 1304, wherein the at least one processor 1301, the memory 1302, and the transceiver 1303 are connected via the bus 1304 and communicate with each other.

The bus 1304 may be an Industry Standard Architecture (ISA) bus, a Peripheral Component Interconnect (PCI) bus, an Extended ISA (EISA) bus, or the like. The bus 1104 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown in FIG. 15, but this is not intended to represent only one bus or type of bus. Wherein:

the memory 1302 is used to store executable program code, which includes computer operating instructions. Memory 1302 may comprise high-speed RAM memory and may also include non-volatile memory (non-volatile memory), such as at least one disk memory.

Processor 1301 may be a Central Processing Unit (CPU), or an Application Specific Integrated Circuit (ASIC), or one or more Integrated circuits configured to implement embodiments of the present invention.

The transceiver 1303 is mainly used to implement communication between the apparatuses in this embodiment.

The transceiver 1303 is configured to receive an access request sent by a first user module;

a processor 1301, configured to generate a communication parameter according to the access request, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier;

a transceiver 1303, further configured to send the communication parameters to the first user module;

the transceiver 1303 is further configured to receive an access request message sent by the second user module root, where the access request message is used to request that the second user module is accessed to the network side device, and the access request message is used to indicate that the second user module and the first user module are located in the same communication device.

In the network-side device provided in the embodiment of the present invention, the second user module sends the communication parameter configured by the network-side device acquired by the first user module to the network-side device, so that the network-side device knows that the first user module and the second user module jointly use one communication device, and when the network-side device configures parameters required for communication for the first user module or the second user module, because the first user module and the second user module share one communication device, the first user module and/or the second user module are configured identically or are configured corresponding to one user module, thereby solving the problem that the dual-card mobile phone can access the current network only through repeated configuration when accessing the network, and further saving network resources.

Optionally, the transceiver 1303 is further configured to receive a second access request message that the first user module forwards the second user module.

Further, the processor 1301 is specifically configured to, after receiving a second access request message sent by the second user module, if the network side device accepts the second access request message of the second user module, generate configuration information according to the second access request message;

the transceiver 1303 is further configured to forward the configuration information from the first user module to the second user module, so that the second user module accesses the network side device according to the configuration information, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transceiver 1303 is specifically configured to send a reject message to the first user module if the network-side device rejects to accept the second access request message of the second user module, and forward the reject message to the second user module by the first user module, so that the second user module queries the network-side device supporting access according to the reject message.

Optionally, the transceiver 1303 is further configured to send a third handover request message to the second network-side device after receiving a second access request message sent by the second user module, so that the second network-side device generates first reconfiguration information for the first user module and second reconfiguration information for the second user module according to the third handover request message, and configures a random access resource for the first user module or the second user module, where the first reconfiguration information and the second reconfiguration information include cell radio network temporary identifiers allocated by the second network-side device to the first user module and the second user module, and the third handover request message includes the first identifier so that the second network-side device knows that the second user module and the first user module are located in the same communication device;

the transceiver 1303 is further configured to receive the first reconfiguration information, the second reconfiguration information, and the random access resource, send the first reconfiguration information to the first user module, send the second reconfiguration information to the second user module, and send the random access resource to the first user module or the second user module, so that the first user module and the second user module are switched to the second network device by the network device according to the first reconfiguration information, the second reconfiguration information, and the random access resource sent by the network device.

In the network-side device provided in the embodiment of the present invention, the second user module performs access to a cell where the network-side device provides a communication service by receiving the communication parameter configured by the network-side device acquired by the first user module, or switches to a network-side device to which another cell belongs according to reconfiguration information configured by the network-side device, and the second user module makes the network-side device know that the first user module and the second user module share one communication device by receiving the communication parameter of the first user module, so that the network-side device only needs to configure one user module or configure the same network resource corresponding to the two user modules when configuring the network resource, thereby solving the problem that the dual-card mobile phone can access to the current network by repeating configuration for multiple times when accessing to the network, and saving the network resource.

An embodiment of the present invention provides a communication system 14, shown in fig. 16, including: a network side device 1401, a first user module 1402 and a second user module 1403, where the network side device 1401 is the network side device shown in fig. 12, the first user module 1402 is the first user module shown in fig. 11, and the second user module 1403 is the second user module shown in any one of fig. 8 to 10;

alternatively, the network-side device 1401 is the network-side device shown in fig. 15, the first user module 1402 is the first user module shown in fig. 14, and the second user module is the second user module shown in fig. 13.

In the communication system provided in the embodiment of the present invention, the second user module sends the communication parameter configured by the network-side device acquired by the first user module to the network-side device, so that the network-side device knows that the first user module and the second user module jointly use one communication device, wherein when the network-side device configures parameters required for communication for the first user module or the second user module, since the first user module and the second user module share one communication device, the first user module and/or the second user module are configured identically or are configured corresponding to one user module, thereby solving the problem that the dual-card mobile phone can access the current network only through repeated configuration when accessing the network, and further saving network resources.

From the above description of the embodiments, it is clear to those skilled in the art that the present invention can be implemented by hardware, firmware, or a combination thereof. When implemented in software, the functions described above may be stored on or transmitted over as one or more instructions or code on a computer-readable medium. Computer-readable media includes both computer storage media and communication media including any medium that facilitates transfer of a computer program from one place to another. A storage media may be any available media that can be accessed by a computer. Taking this as an example but not limiting: computer-readable media can include RAM, ROM, EEPROM, CD-ROM or other optical disk storage, magnetic disk storage or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer. Furthermore, the method is simple. Any connection is properly termed a computer-readable medium. For example, if software is transmitted from a website, a server, or other remote source using a coaxial cable, a fiber optic cable, a twisted pair, a Digital Subscriber Line (DSL), or a wireless technology such as infrared, radio, and microwave, the coaxial cable, the fiber optic cable, the twisted pair, the DSL, or the wireless technology such as infrared, radio, and microwave are included in the fixation of the medium. Disk and disc, as used herein, includes Compact Disc (CD), laser disc, optical disc, Digital Versatile Disc (DVD), floppy Disk and blu-ray disc where disks usually reproduce data magnetically, while discs reproduce data optically with lasers. Combinations of the above should also be included within the scope of computer-readable media.

In short, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (46)

1. A method of access processing for a communication device, comprising:

the second user module determines that the first user module has access to the network side equipment;

the second user module sends a second access request message to the network side device, where the second access request message is used to request the second user module to access the network side device, and the second access request message is used to indicate that the second user module and the first user module are located in the same communication device.

2. The method according to claim 1, wherein the second user module sends a second access request message to the network side device, and wherein the second access request message comprises:

the second user module receives communication parameters configured for the first user module by the network side equipment, wherein the communication parameters comprise radio bearer parameters and/or cell radio network temporary identifiers acquired by the first user module;

sending the second access request message to the network side device, where the second access request message includes: and the communication parameters are used for the network side equipment to acquire that the second user module and the first user module are positioned in the same communication equipment according to the communication parameters.

3. The method according to claim 2, wherein the second user module receives the communication parameters configured by the network-side device and acquired by the first user module, and the method comprises:

the second user module detects whether the cell accessed by the first user module is a cell supporting the access of the second user module;

and if the cell is a cell supporting the access of the second user module, receiving the communication parameters configured by the network side equipment acquired by the first user module.

4. The method according to claim 1, wherein the second user module sends a second access request message to the network side device, and wherein the second access request message comprises:

and sending the second access request message to the first user module so that the first user module can forward the second access request message to the network side equipment, so that the network side equipment judges whether to access the second user module according to the second access request message and sends configuration information to the first user module according to the judgment.

5. The method according to claim 4, wherein after the second user module sends the second access request message to the network side device, the method comprises:

if the network side equipment receives the second access request message, the second user module accesses the network side equipment by receiving configuration information transmitted by the first user module and forwarded by the network side equipment, wherein the configuration information comprises an access identifier, and the access identifier comprises a cell wireless network temporary identifier;

or,

and if the network side equipment refuses to accept the second access request message, the second user module inquires the network side equipment supporting access by receiving the refusal message sent by the first user module and forwarded by the network side equipment.

6. The method of claim 1, wherein after the second user module sends the second access request message to the network-side device, the method further comprises:

receiving second reconfiguration information sent by a second network side device forwarded by the network side device, wherein the second network side device provides access service for the second user module, and the second reconfiguration information is used for indicating the second user module to access the second network side device;

and receiving a timing message sent by the first user module, and sending a second reconfiguration complete message to the second network side equipment according to the timing message and the second reconfiguration information.

7. The method of claim 1, wherein before the second user module determines that the first user module has access to the network-side device, the method further comprises:

receiving a system broadcast message sent by the first user module, and judging whether a cell accessed by the first user module supports the access of the second user module according to the system broadcast message;

if the cell supports the access, accessing the cell;

or,

and if the cell does not support the access, selecting the cell supporting the access to access.

8. A method of access processing for a communication device, comprising:

a first user module sends a first access request message to network side equipment so that the network side equipment configures communication parameters according to the first access request message;

receiving the communication parameters sent by the network side equipment, wherein the communication parameters comprise radio bearer parameters and/or cell radio network temporary identifications;

sending the communication parameters to a second user module so that the second user module can access the network side equipment according to the communication parameters;

after the first user module sends the first access request message to the network side device, the method further includes:

and receiving a second access request message sent by the second user module, and sending the second access request message to the network side equipment, so that the network side equipment judges whether to access the second user module according to the second access request message, and sends configuration information to the first user module according to the judgment.

9. The method according to claim 8, wherein after sending the second access request message to the network side device, the method further comprises:

if the network side equipment receives a second access request message of the second user module, the first user module forwards configuration information configured for the second user module by the network side equipment to the second user module so that the second user unit can access the network side equipment according to the configuration information, wherein the configuration information comprises an access identifier, and the access identifier comprises a cell wireless network temporary identifier;

or,

if the network side equipment refuses to accept the second access request message of the second user module, the first user module forwards a refusing message sent by the network side equipment to the second user module, so that the second user module can inquire the network side equipment supporting access according to the refusing message.

10. The method of claim 8, further comprising, after the first user module sends the first access request message to the network side device:

receiving first reconfiguration information sent by second network side equipment and forwarded by the network side equipment, wherein the second network side equipment provides access service for the first user module, and the first reconfiguration information is used for indicating the first user module to access the second network side equipment;

accessing a cell of the second network side equipment providing communication service according to the first reconfiguration information, acquiring timing information, and sending a first reconfiguration completion message to the second network side equipment;

and sending a timing message to the second user module so that the second user module can send a second reconfiguration completion message to the second network side equipment according to the timing message.

11. The method of claim 8, wherein before the first user module sends the first access request message to the network side device, the method further comprises:

and receiving a system broadcast message sent by the network side equipment, and sending the system broadcast message to the second user module, so that the second user module can judge whether the cell providing the communication service by the network side equipment supports the access of the second user module according to the system broadcast message.

12. A method of access processing for a communication device, comprising:

network side equipment receives a first access request message sent by a first user module, and generates communication parameters according to the first access request message, wherein the communication parameters comprise radio bearer parameters and/or cell radio network temporary identifications;

sending the communication parameters to the first user module;

receiving a second access request message sent by a second user module, where the second access request message is used to request that the second user module is accessed to the network side device, and the second access request message is used to indicate that the second user module and the first user module are located in the same communication device.

13. The method of claim 12, wherein receiving the second access request message from the second user module comprises:

and receiving a second access request message of the first user module for forwarding the second user module.

14. The method of claim 13, wherein after receiving the second access request message sent by the second user module, the method comprises:

if the network side equipment receives a second access request message of the second user module, generating configuration information according to the second access request message, and forwarding the configuration information to the second user module by the first user module, so that the second user module is accessed to the network side equipment according to the configuration information, wherein the configuration information comprises an access identifier, and the access identifier comprises a cell wireless network temporary identifier;

or,

if the network side equipment refuses to accept the second access request message of the second user module, a refusing message is sent to the first user module, and the first user module forwards the refusing message to the second user module, so that the second user module inquires the network side equipment supporting access according to the refusing message.

15. The method of claim 12, wherein after receiving the second access request message sent by the second user module, the method further comprises:

the network side equipment sends a third handover request message to second network side equipment, so that the second network side equipment generates first reconfiguration information for the first user module and second reconfiguration information for the second user module according to the received third handover request message, and configures random access resources for the first user module or the second user module, wherein the first reconfiguration information and the second reconfiguration information comprise cell wireless network temporary identifiers respectively allocated to the first user module and the second user module by the second network side equipment, and the third handover request message comprises a first identifier, so that the second network side equipment knows that the second user module and the first user module are located in the same communication equipment;

receiving the first reconfiguration information, the second reconfiguration information and the random access resource, sending the first reconfiguration information to the first user module, sending the second reconfiguration information to the second user module and sending the random access resource to the first user module or the second user module, so that the first user module and the second user module are switched to the second network side device by the network side device according to the first reconfiguration information, the second reconfiguration information and the random access resource sent by the network side device.

16. A second user module, comprising:

the determining unit is used for determining that the first user module has access to the network side equipment;

the transceiver unit is further configured to send a second access request message to the network-side device, where the second access request message is used to request that the second user module is accessed to the network-side device, and the second access request message is used to indicate that the second user module and the first user module are located in the same communication device.

17. The second user module according to claim 16,

the transceiver unit is further configured to receive a communication parameter configured by the network side device for the first user module, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier acquired by the first user module;

the transceiver unit is further configured to send the second access request message to the network side device, where the second access request message includes: and the communication parameters are used for the network side equipment to acquire that the second user module and the first user module are positioned in the same communication equipment according to the communication parameters.

18. The second user module according to claim 17, further comprising:

a detecting unit, configured to detect whether the cell accessed by the first user module is a cell supporting access by the second user module;

the transceiver unit is further configured to receive the communication parameter configured by the network-side device, acquired by the first user module, if the cell is a cell supporting access of the second user module.

19. The second user module according to claim 16,

the transceiver unit is further configured to send the second access request message to the first user module, so that the first user module forwards the second access request message to the network side device, so that the network side device determines whether to access the second user module according to the second access request message, and sends configuration information to the first user module according to the determination.

20. The second user module according to claim 19,

the transceiver unit is further configured to, after the second user module sends a second access request message to the network-side device, if the network-side device accepts the second access request message, access the network-side device by receiving configuration information sent by the network-side device and forwarded by the first user module, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transceiver unit is further configured to, if the network-side device rejects to accept the second access request message, query, by the second user module, the network-side device that supports access by receiving a rejection message that is sent by the first user module and forwarded by the network-side device.

21. The second user module according to claim 16,

the transceiver unit is further configured to receive second reconfiguration information sent by the second network-side device and forwarded by the network-side device after the second user module sends a second access request message to the network-side device, where the second network-side device provides an access service for the second user module, and the second reconfiguration information is used to instruct the second user module to access the second network-side device;

the transceiver unit is further configured to receive a timing message sent by the first user module, and send a second reconfiguration complete message to the second network side device according to the timing message and the second reconfiguration information.

22. The second user module according to claim 16, wherein the apparatus further comprises:

the transceiver unit is further configured to receive a system broadcast message sent by the first user module before determining that the first user module has accessed the network side device, and determine whether a cell accessed by the first user module supports access of the second user module according to the system broadcast message;

an access unit, configured to access the cell if the cell supports access;

or,

and the selecting unit is used for selecting the cell supporting the access to access if the cell does not support the access.

23. A first user module, comprising:

a sending unit, configured to send a first access request message to a network side device, so that the network side device configures communication parameters according to the first access request message;

a receiving unit, configured to receive the communication parameter sent by the network side device, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier;

the sending unit is further configured to send the communication parameter to a second user module, so that the second user module accesses the network side device according to the communication parameter;

the receiving unit is further configured to receive a second access request message sent by the second user module after the first user module sends the first access request message to the network-side device, and send the second access request message to the network-side device, so that the network-side device determines whether to access the second user module according to the second access request message, and sends configuration information to the first user module according to the determination.

24. The first user module of claim 23,

the sending unit is further configured to, after sending the second access request message to the network-side device, if the network-side device accepts the second access request message of the second user module, forward, by the first user module, configuration information configured for the second user module by the network-side device to the second user module, so that the second user unit accesses the network-side device according to the configuration information, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the sending unit is further configured to, if the network-side device rejects to accept the second access request message of the second user module, forward, by the first user module, a rejection message sent by the network-side device to the second user module, so that the second user module queries, according to the rejection message, the network-side device that supports access.

25. The first user module of claim 23,

the receiving unit is further configured to receive, after the first user module sends a first access request message to a network side device, first reconfiguration information sent by a second network side device and forwarded by the network side device, where the second network side device provides an access service for the first user module, and the first reconfiguration information is used to indicate that the first user module accesses the second network side device;

the sending unit is further configured to access a cell, which provides a communication service, of the second network-side device according to the first reconfiguration information, acquire timing information, and send a first reconfiguration complete message to the second network-side device;

the sending unit is further configured to send a timing message to the second user module, so that the second user module sends a second reconfiguration complete message to the second network-side device according to the timing message.

26. The first user module of claim 23,

the receiving unit is further configured to receive a system broadcast message sent by a network-side device before sending a first access request message to the network-side device, and send the system broadcast message to the second user module, so that the second user module determines, according to the system broadcast message, whether a cell of the network-side device providing communication service supports access of the second user module.

27. A network-side device, comprising:

the receiving and sending unit is used for receiving an access request sent by the first user module;

a generating unit, configured to generate a communication parameter according to the access request, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier;

the transceiver unit is configured to send the communication parameter to the first user module;

the receiving and sending unit is further configured to receive an access request message sent by a second user module root, where the access request message is used to request that the second user module is accessed to the network side device, and the access request message is used to indicate that the second user module and the first user module are located in the same communication device.

28. The apparatus of claim 27,

the transceiver unit is further configured to receive a second access request message that the first user module forwards the second user module.

29. The apparatus of claim 28,

the generating unit is specifically configured to, after receiving a second access request message sent by a second user module, if the network side device accepts the second access request message of the second user module, generate configuration information according to the second access request message;

the transceiver unit is further configured to forward the configuration information from the first user module to the second user module, so that the second user module accesses the network side device according to the configuration information, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transceiver unit is specifically configured to send a reject message to the first user module if the network-side device rejects the second access request message for accepting the second user module, and forward the reject message to the second user module by the first user module, so that the second user module queries the network-side device supporting access according to the reject message.

30. The apparatus of claim 27,

the transceiver unit is further configured to send a third handover request message to the second network-side device after receiving the second access request message sent by the second user module, so that the second network side device generates first reconfiguration information for the first user module and second reconfiguration information for the second user module according to the third handover request message, and configuring random access resources for the first user module or the second user module, where the first reconfiguration information and the second reconfiguration information include cell radio network temporary identifiers respectively allocated to the first user module and the second user module by the second network-side device, the third handover request message contains a first identifier, so that the second network side device knows that the second user module and the first user module are located in the same communication device;

the transceiver unit is further configured to receive the first reconfiguration information, the second reconfiguration information, and the random access resource, send the first reconfiguration information to the first user module, send the second reconfiguration information to the second user module, and send the random access resource to the first user module or the second user module, so that the first user module and the second user module are switched to the second network-side device by the network-side device according to the reception of the first reconfiguration information, the second reconfiguration information, and the random access resource sent by the network-side device.

31. A second user module, comprising:

the processor is used for determining that the first user module is accessed to the network side equipment;

a transceiver, configured to send a second access request message to the network-side device, where the second access request message is used to request that the second user module is accessed to the network-side device, and the second access request message is used to indicate that the second user module and the first user module are located in the same communication device.

32. The second user module according to claim 31,

the transceiver is further configured to receive a communication parameter configured by the network side device for the first user module, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier acquired by the first user module;

the transceiver is further configured to send the second access request message to the network side device, where the second access request message includes: and the communication parameters are used for the network side equipment to acquire that the second user module and the first user module are positioned in the same communication equipment according to the communication parameters.

33. The second user module according to claim 32,

the processor is further configured to detect whether the cell accessed by the first user module is a cell supporting access by the second user module;

the transceiver is further configured to receive the communication parameter configured by the network-side device, acquired by the first user module, when the cell is a cell supporting access of the second user module.

34. The second user module according to claim 31,

the transceiver is further configured to send the second access request message to the first user module, so that the first user module forwards the second access request message to the network side device, so that the network side device determines whether to access the second user module according to the second access request message, and sends configuration information to the first user module according to the determination.

35. The second user module according to claim 34,

the transceiver is further configured to, after the second user module sends a second access request message to the network-side device, if the network-side device accepts the second access request message, access the network-side device by receiving configuration information sent by the network-side device and forwarded by the first user module, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transceiver is further configured to, if the network-side device rejects to accept the second access request message, query, by the second user module, the network-side device that supports access by receiving a rejection message that is sent by the first user module and forwarded by the network-side device.

36. The second user module according to claim 31,

the transceiver is further configured to receive second reconfiguration information sent by the second network-side device and forwarded by the network-side device after the second user module sends a second access request message to the network-side device, where the second network-side device provides an access service for the second user module, and the second reconfiguration information is used to instruct the second user module to access the second network-side device;

the transceiver is further configured to receive a timing message sent by the first user module, and send a second reconfiguration complete message to the second network side device according to the timing message and the second reconfiguration information.

37. The second user module according to claim 31,

the transceiver is further configured to receive a system broadcast message sent by a first user module before determining that the first user module has accessed to a network side device, and determine whether a cell accessed by the first user module supports access of the second user module according to the system broadcast message;

the processor is further configured to access the cell if the cell supports access;

or,

the processor is further configured to select a cell supporting access for access if the cell does not support access.

38. A first user module, comprising:

a transmitter, configured to send a first access request message to a network side device, so that the network side device configures communication parameters according to the first access request message;

the receiver is further configured to receive the communication parameter sent by the network side device, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier;

the transmitter is further configured to transmit the communication parameter to a second user module, so that the second user module accesses the network side device according to the communication parameter;

the receiver is further configured to receive a second access request message sent by the second user module after the first user module sends the first access request message to the network-side device, and send the second access request message to the network-side device, so that the network-side device determines whether to access the second user module according to the second access request message, and sends configuration information to the first user module according to the determination.

39. The first user module of claim 38,

the transmitter is further configured to, after sending the second access request message to the network-side device, if the network-side device accepts the second access request message of the second user module, forward, by the first user module, configuration information configured for the second user module by the network-side device to the second user module, so that the second user unit accesses the network-side device according to the configuration information, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transmitter is further configured to, if the network-side device rejects to accept the second access request message of the second user module, forward, by the first user module, a rejection message sent by the network-side device to the second user module, so that the second user module queries, according to the rejection message, the network-side device that supports access.

40. The first user module of claim 38,

the receiver is further configured to receive, after the first user module sends a first access request message to a network side device, first reconfiguration information sent by a second network side device and forwarded by the network side device, where the second network side device provides an access service for the first user module, and the first reconfiguration information is used to indicate that the first user module accesses the second network side device;

the transmitter is further configured to access a cell, which provides a communication service, of the second network-side device according to the first reconfiguration information, acquire timing information, and transmit a first reconfiguration complete message to the second network-side device;

the transmitter is further configured to send a timing message to the second user module, so that the second user module sends a second reconfiguration complete message to the second network-side device according to the timing message.

41. The first user module of claim 38,

the receiver is further configured to receive a system broadcast message sent by a network-side device before the first user module sends a first access request message to the network-side device, and send the system broadcast message to the second user module, so that the second user module determines, according to the system broadcast message, whether a cell in which the network-side device provides communication service supports access of the second user module.

42. A network-side device, comprising:

the transceiver is used for receiving an access request sent by the first user module;

a processor, configured to generate a communication parameter according to the access request, where the communication parameter includes a radio bearer parameter and/or a cell radio network temporary identifier;

the transceiver is further configured to send the communication parameters to the first user module;

the transceiver is further configured to receive an access request message sent by a second user module, where the access request message is used to request that the second user module is accessed to the network-side device, and the access request message is used to indicate that the second user module and the first user module are located in the same communication device.

43. The apparatus of claim 42,

the transceiver is further configured to receive a second access request message forwarded by the first user module to the second user module.

44. The apparatus of claim 43,

the processor is specifically configured to, after receiving a second access request message sent by a second user module, if the network side device accepts the second access request message of the second user module, generate configuration information according to the second access request message;

the transceiver is further configured to forward the configuration information from the first user module to the second user module, so that the second user module accesses the network side device according to the configuration information, where the configuration information includes an access identifier, and the access identifier includes a cell radio network temporary identifier;

or,

the transceiver is specifically configured to send a reject message to the first user module if the network-side device rejects the second access request message for accepting the second user module, and forward the reject message to the second user module by the first user module, so that the second user module queries the network-side device supporting access according to the reject message.

45. The apparatus of claim 42,

the transceiver is further configured to send a third handover request message to the second network-side device after receiving the second access request message sent by the second user module, so that the second network side device generates first reconfiguration information for the first user module and second reconfiguration information for the second user module according to the third handover request message, and configuring random access resources for the first user module or the second user module, where the first reconfiguration information and the second reconfiguration information include cell radio network temporary identifiers respectively allocated to the first user module and the second user module by the second network-side device, the third handover request message contains a first identifier, so that the second network side device knows that the second user module and the first user module are located in the same communication device;

the transceiver is further configured to receive the first reconfiguration information, the second reconfiguration information, and the random access resource, send the first reconfiguration information to the first user module, send the second reconfiguration information to the second user module, and send the random access resource to the first user module or the second user module, so that the first user module and the second user module are switched to the second network-side device by the network-side device according to the reception of the first reconfiguration information, the second reconfiguration information, and the random access resource sent by the network-side device.

46. A communication system, comprising: a network side device, a first user module and a second user module, wherein,

the network side device is the network side device as claimed in any one of claims 27 to 30, the first user module is the first user module as claimed in any one of claims 23 to 26, and the second user module is the second user module as claimed in any one of claims 16 to 22;

or, the network side device is the network side device according to any one of claims 42 to 45, the first user module is the first user module according to any one of claims 38 to 41, and the second user module is the second user module according to any one of claims 31 to 37.