WO2014187281A1 - Network access processing method and apparatus of multi-mode terminal, and multi-mode terminal - Google Patents

Abstract

Provided are a network access processing method and apparatus of a multi-mode terminal, and a multi-mode terminal. The network access processing method of the multi-mode terminal comprises: establishing a standby mode configuration option, the standby mode configuration option comprising multiple access technology types and multiple standby modes using the multiple access technology types; receiving an access technology type and a standby mode that are selected by a user from the standby mode configuration option; establishing a corresponding protocol stack task according to the access technology type selected by the user; distributing the protocol stack task to a corresponding standby protocol stack according to the standby mode selected by the user; registering with and accessing, according to the protocol stack task in the standby protocol stack, a network corresponding to the access technology type selected by the user. With the present invention, when a user roams to a place where the network access technology is changed, the user can access a corresponding network according to the change, or flexibly access the network according to configuration.

Description

The present invention relates to the field of communications, and in particular to a multimode terminal network access processing method and apparatus, and a multimode terminal. BACKGROUND With the continuous development of 3G and 4G wireless technologies, the development of wireless mobile terminals is also extremely rapid. Among them, the market share of dual standby mobile phones is also increasing, such as Wideband Code Division Multiple Access (WCDMA) / General Packet Radio Service (GPRS) GPRS (W/G + G) dual standby terminal, Time Division-Synchronous Code Division Multiple Access (TD-SCDMA)/GPRS+ GPRS (TD/G + G) dual standby terminal, long term evolution ( Long-Term Evolution, referred to as LTE) / TD-SCDMA + Global System for Mobile Communication (GSM) (LTE/TD + GSM) dual standby terminal. However, when these terminals roam to other domestic carrier networks or abroad, they may not be able to provide more comprehensive services to users due to local network access technologies, affecting the user experience of dual standby terminals and the development of dual standby terminals. For example, T/G + G, LTE/TD + GSM terminals can only provide GSM network services after international roaming to places where only WCDMA and GSM networks are covered. After the W/G + G dual standby terminal roams to a place with only TD and GSM network coverage, it can only provide GSM network services. Therefore, in the related art, when a user roams to a place where the network access technology changes, the user cannot access the corresponding network according to the change, or cannot access the network flexibly according to the configuration. SUMMARY OF THE INVENTION The present invention provides a multimode terminal network access processing method, apparatus, and multimode terminal, to at least solve the problem in the related art, when a user roams to a place where the network access technology changes, and cannot access according to the change. The corresponding network, or the problem of flexible access to the network according to the configuration. According to an aspect of the present invention, a multimode terminal network access processing method is provided, where the multimode terminal network access processing method includes: creating a standby mode configuration option, where the standby mode configuration option includes several access technology types And using a plurality of standby modes of the access technology types; receiving an access technology type and a standby mode selected by the user from the standby mode configuration option; creating according to the access technology type selected by the user Corresponding protocol stack task; dividing the protocol stack task into a corresponding standby protocol stack according to the standby mode selected by the user; and registering the access technology selected by the access user according to the protocol stack task in the standby protocol stack The network corresponding to the type. Preferably, the creating the corresponding protocol stack task according to the access technology type selected by the user comprises: resetting each protocol stack task data area; deleting each protocol stack task by using a task deletion function; and creating a user selected by using a task creation function The protocol stack task corresponding to the access technology type. Preferably, the dividing the protocol stack task into the corresponding standby protocol stack according to the standby mode selected by the user comprises: labeling the protocol stack task according to the standby mode selected by the user; The protocol stack task is divided into the same standby protocol stack to divide the protocol stack task into the corresponding standby protocol stack. Preferably, after registering, according to the protocol stack task in the standby protocol stack, the network corresponding to the type of the access technology selected by the user, the method further includes: configuring the standby mode configuration option and the current If the running standby mode configuration is different, the protocol stack task in the currently running standby mode configuration is deleted; the current standby mode configuration is switched to the standby mode configuration option reselected by the user; according to the reselected standby mode configuration Option to access the network. Preferably, the access technology type and the standby mode selected by the user from the standby mode configuration option when the multimode terminal is powered on or in a standby state are received. According to another aspect of the present invention, a multimode terminal network access processing apparatus is provided. The multimode terminal network access processing apparatus includes: a first creating module, configured to create a standby mode configuration option, the standby mode The configuration option includes a plurality of access technology types and a plurality of standby modes using the plurality of access technology types; a receiving module configured to receive an access technology type and a standby mode selected by the user from the standby mode configuration options; a module, configured to create a corresponding protocol stack task according to the access technology type selected by the user; the dividing module is configured to divide the protocol stack task into a corresponding standby protocol stack according to the standby mode selected by the user; The access module is configured to register, according to the protocol stack task in the standby protocol stack, a network corresponding to the access technology type selected by the access user. Preferably, the second creating module comprises: a reset unit, configured to reset each protocol stack task data area; a deleting unit, configured to delete each protocol stack task by using a task deletion function; and creating a unit, configured to use the task creation function The protocol stack task corresponding to the access technology type selected by the user is created. Preferably, the dividing module comprises: a classifying unit configured to tag the protocol stack task according to the standby mode selected by the user; and the dividing unit is configured to map the same protocol stack task to the same standby protocol by The stack mode divides the protocol stack task into corresponding standby protocol stacks. Preferably, the multimode terminal network access processing device further includes: a deleting module, configured to delete the currently running standby mode if the standby mode configuration option reselected by the user is different from the currently running standby mode configuration a protocol stack task configured to: switch the module to switch the current standby mode configuration to the standby mode configuration option reselected by the user; the second access module is configured to access according to the reselected standby mode configuration option The internet. According to still another aspect of the present invention, a multimode terminal is provided, comprising the multimode terminal network access processing apparatus of any of the above. With the present invention, a standby mode configuration option is adopted, the standby mode configuration option including a plurality of access technology types and a plurality of standby modes using the plurality of access technology types; receiving a connection selected by the user from the standby mode configuration options Entering a technical type and a standby mode; creating a corresponding protocol stack task according to the access technology type selected by the user; dividing the protocol stack task into a corresponding standby protocol stack according to the standby mode selected by the user; The protocol stack task in the protocol stack is registered to access the network corresponding to the type of the access technology selected by the user, and solves the problem in the related art that when the user roams to a place where the network access technology changes, the access cannot be performed according to the change access. The network, or the problem of flexible access to the network according to the configuration, can achieve the effect of accessing the corresponding network according to the change when the user roams to a place where the network access technology changes, or the effect of flexible access to the network according to the configuration. . BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are set to illustrate,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, 1 is a flowchart of a multimode terminal network access processing method according to an embodiment of the present invention; FIG. 2 is a structural block diagram of a multimode terminal network access processing apparatus according to an embodiment of the present invention; A preferred block diagram of the second creation module 24 in the multimode terminal network access processing apparatus according to the embodiment of the present invention; FIG. 4 is a block diagram showing a preferred structure of the partitioning module 26 in the multimode terminal network access processing apparatus according to an embodiment of the present invention; ; 5 is a block diagram showing a preferred structure of a multimode terminal network access processing apparatus according to an embodiment of the present invention; FIG. 6 is a block diagram showing a structure of a multimode terminal according to an embodiment of the present invention; FIG. 7 is a single chip single according to an embodiment of the present invention. FIG. 8 is a schematic structural diagram of an LTE/TD+GSM three-mode dual standby protocol stack according to an embodiment of the present invention; FIG. 9 is a LTE/W+GSM three-mode dual according to an embodiment of the present invention; FIG. 10 is a schematic structural diagram of an LTE/W/GSM three-mode single-standby protocol stack according to an embodiment of the present invention; FIG. 11 is a LTE/TD/W/GSM four-mode single-standby protocol according to an embodiment of the present invention; FIG. 12 is a schematic diagram of a support system configured to start a task group according to a standby mode according to a preferred embodiment of the present invention; FIG. 13 is a schematic diagram of a protocol stack common processing module dividing and combining a standby protocol stack according to a standby mode according to an embodiment of the present invention; Flow chart. BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict. In this embodiment, a multi-mode terminal network access processing method is provided. FIG. 1 is a flowchart of a multi-mode terminal network access processing method according to an embodiment of the present invention. As shown in FIG. 1, the process includes the following steps. Step S102: Create a standby mode configuration option, where the standby mode configuration option includes a plurality of access technology types and a plurality of standby modes using a plurality of access technology types. Step S104: Receive an access technology type selected by the user from the standby mode configuration option. And a standby mode, wherein the user can select different standby mode configurations when the multimode terminal is powered on and standby, that is, select different access technology types and standby modes; Step S106, create a corresponding protocol according to the access technology type selected by the user. a stack task; step S108, dividing the protocol stack task into a corresponding standby protocol stack according to the standby mode selected by the user; Step S110, registering, according to the protocol stack task in the standby protocol stack, the network corresponding to the access technology type selected by the user. Through the above steps, according to the combination of the access technology type and the standby mode using the access technology type, the manner of accessing the network can be flexibly changed, compared with the access technologies supported by each standby protocol stack in the related art. In the related art, in the related art, when the user roams to a place where the network access technology changes, the user cannot access the corresponding network according to the change, or cannot access the network flexibly according to the configuration, thereby achieving When the user roams to a place where the network access technology changes, the user can access the corresponding network according to the change, or the effect of flexibly accessing the network according to the configuration, thereby greatly improving the user experience to a certain extent. When the corresponding protocol stack task is created according to the access technology type selected by the user, the following quick and simple processing methods can be adopted: First, the task data area of each protocol stack is reset; after that, the task deletion function is used to delete each protocol stack task; The task creation function is used to create a protocol stack task corresponding to the access technology type selected by the user. When the protocol stack task is divided into the corresponding standby protocol stack according to the standby mode selected by the user, a plurality of processing modes can also be adopted. Here, a tag processing method is introduced, that is, the standby mode selected by the user is the protocol stack task. Classification tagging; the protocol stack task is divided into the corresponding standby protocol stack by assigning the same protocol stack task to the same standby protocol stack. It should be noted that only the tasks of the same tag can perform message interaction, different tags. The protocol stacks are independent of each other, and the differentiation combination of each standby task is realized by tagging. It should be noted that the different standby mode configuration options of the multimode terminal can also be mutually switched, that is, after the network corresponding to the access technology type selected by the user is registered according to the protocol stack task in the standby protocol stack, The method includes: deleting the protocol stack task in the currently running standby mode configuration when the user reselected standby mode configuration option is different from the currently running standby mode configuration; switching the current standby mode configuration to the user reselected standby mode configuration Option; access the network according to the reselected standby mode configuration option, wherein the switching between different standby mode configuration options can be switched from the single standby mode to the dual standby mode, and of course, the dual standby mode can be switched to the single standby mode. Can be flexible according to the user's choice. In this embodiment, a multi-mode terminal network access processing device is also provided, which is used to implement the foregoing embodiments and preferred embodiments, and has not been described again. As used hereinafter, the term "module" may implement a combination of software and/or hardware of a predetermined function. Although the apparatus described in the following embodiments is preferably implemented in software, hardware, or a combination of software and hardware, is also possible and conceivable. 2 is a structural block diagram of a multimode terminal network access processing apparatus according to an embodiment of the present invention. As shown in FIG. 2, the multimode terminal network access processing apparatus includes a first creating module 20, a receiving module 22, and a second creation. The module 24, the partitioning module 26 and the first access module 28 will be described below with respect to the multimode terminal network access processing apparatus. The first creating module 20 is configured to create a standby mode configuration option, where the standby mode configuration option includes a plurality of access technology types and a plurality of standby modes using a plurality of access technology types; and the receiving module 22 is connected to the first creating module 20, The second creation module 24 is connected to the receiving module 22, and is configured to create a corresponding protocol stack task according to the type of access technology selected by the user, and is configured to receive an access technology type and a standby mode selected by the user from the standby mode configuration option. The dividing module 26 is connected to the second creating module 24, and is configured to divide the protocol stack task into a corresponding standby protocol stack according to the standby mode selected by the user; the first access module 28 is connected to the dividing module 26, and is configured as The protocol stack task in the standby protocol stack is registered to access the network corresponding to the access technology type selected by the user. 3 is a block diagram showing a preferred structure of a second creation module 24 in a multimode terminal network access processing apparatus according to an embodiment of the present invention. As shown in FIG. 3, the second creation module 24 includes a reset unit 32, a deletion unit 34, and The unit 36 is created, and the second creation module 24 will be described below. The reset unit 32 is configured to reset the respective protocol stack task data areas; the deleting unit 34 is connected to the reset unit 32, and is configured to delete each protocol stack task by using the task deletion function; the creating unit 36 is connected to the deleting unit 34. , set to use the task creation function to create a protocol stack task corresponding to the access technology type selected by the user. 4 is a block diagram showing a preferred structure of a partitioning module 26 in a multimode terminal network access processing apparatus according to an embodiment of the present invention. As shown in FIG. 4, the partitioning module 26 includes a classifying unit 42 and a dividing unit 44. Module 26 is described. The classification unit 42 is configured to label the protocol stack task according to the standby mode selected by the user; the dividing unit 44 is connected to the classification unit 42 and is set to be the same protocol stack task by the same protocol stack task The protocol stack task is divided into corresponding standby protocol stacks. FIG. 5 is a block diagram of a preferred structure of a multimode terminal network access processing apparatus according to an embodiment of the present invention. As shown in FIG. 5, the apparatus includes a deleting module 52 and a switching module 54 in addition to all the modules shown in FIG. And the second access module 56, the preferred structure will be described below. The deleting module 52 is configured to delete the protocol stack task in the currently running standby mode configuration if the standby mode configuration option reselected by the user is different from the currently running standby mode configuration; the switching module 54 is connected to the deleting module 52. , set to switch the current standby mode configuration to the standby mode that the user reselects The second access module 56 is connected to the switching module 54 and configured to access the network according to the reselected standby mode configuration option. FIG. 6 is a structural block diagram of a multimode terminal according to an embodiment of the present invention. As shown in FIG. 6, the multimode terminal 60 includes the multimode terminal network access processing device 62 of any of the above. Based on the related technology, how to let users roam to a place where network access technology changes can also provide 3G and 4G services as much as possible. In this embodiment, a single-to-two-to-be-switched method based on a single-chip single-card terminal is provided, thereby implementing a single-standby, dual-standby free-switching, and freely combining terminal. 7 is a schematic diagram of a single-chip single-card multi-mode protocol stack task group according to an embodiment of the present invention. As shown in FIG. 7, the structure includes an application layer, a protocol stack layer, a support system, and an operating system, where the protocol stack layer includes The protocol stack common task group, the protocol stack common processing module, and the task group corresponding to each access technology (for example, the LTE access technology task group, the TD access technology task group, and the W access technology task group shown in FIG. 7) The GSM access technology task group), in the embodiment of the present invention, adopts a single terminal chip, a card slot, and can support insertion of a Subscriber Identity Module (SIM) (or a global subscriber identity card). (Universal Subscriber Identity Module, USIM for short) card, a mobile terminal and method for freely switching between single-standby/dual-standby mode and access technology. The mobile terminal can automatically perform single and dual standby switching according to the conditions of roaming, network resources, etc., or can be recombined into the standby mode desired by the user according to user settings. In this embodiment, the terminal supports LTE (LTE-TDD/LTE-FDD) TD-SCDMA, WCDMA,

Access technology such as GSM. The single-standby/double-standby can be freely switched, and the access technologies are freely combined, and the implementation examples are relatively large. For convenience of description, in this embodiment, two standby modes, single standby and dual standby, and single and dual standby switching modes are respectively used. An example of implementation is provided. The following describes the implementation of the dual standby combination: The dual standby mode is used as an example: LTE/TD + GSM dual standby combination, FIG. 8 is a schematic structural diagram of an LTE/TD + GSM three mode dual standby protocol stack according to an embodiment of the present invention, such as As shown in FIG. 8, the LTE and TD two access technology related protocol stack tasks are divided into the public task group 1, and the GSM access technology protocol task is divided into the public task group 2, wherein the W access technology task group is not enabled. 9 is a schematic structural diagram of an LTE/W+GSM three-mode dual-standby protocol stack according to an embodiment of the present invention. As shown in FIG. 9, two LTE and W access technology-related protocol stack tasks are divided into a common task group 1, GSM. The access technology protocol task is divided into public task group 2, where the TD access technology task group is not enabled. The following is an example of the three-mode dual standby of FIG. 8 as follows: Step 1: NV sets a standby mode setting option. Step 2: The support system reads this standby mode option after power on, or the user/terminal resets this standby mode in standby mode. Step 3: According to the standby mode LTE/TD + GSM, the support system judges that if it is booting up, it creates two sets of common tasks according to the configuration, and then creates three access technologies LTE, TD, and GSM related tasks. If it is currently set to restart the standby mode, support all the protocol stack tasks before the system is shut down, and re-set two sets of common tasks and three access technologies LTE, TD, and GSM related tasks according to the newly configured configuration. Step 4: The protocol stack common processing module PSCOM performs protocol stack combination according to the standby mode configuration. The LTE and TD related public tasks, and the LTE and TD two access technology related protocol stack tasks are divided into a standby protocol stack (constituting the LTE/TD protocol stack); the GSM related public tasks and the GSM access technologies are related. The protocol stack task is divided into another standby protocol stack (constituting the GSM protocol stack). Step 5: Then perform the boot registration process on the LTE/TD protocol stack and the GSM protocol stack respectively. The following describes the implementation of the single standby combination: Single standby form: LTE/TD/W/GSM four-mode single standby combination. FIG. 10 is a schematic structural diagram of an LTE/W/GSM three-mode single-standby protocol stack according to an embodiment of the present invention. As shown in FIG. 10, a common task group is created for three access technologies of LTE, W, and GSM, and respectively created. Related protocol stack tasks. 11 is a schematic structural diagram of an LTE/TD/W/GSM four-mode single-standby protocol stack according to an embodiment of the present invention. As shown in FIG. 11, a public task group is created for four access technologies of LTE, TD, W, and GSM. , and create related protocol stack tasks separately. The following is an example of the four-mode single standby in FIG. 11, and the implementation is as follows: Step 1: NV sets a standby mode setting option. Step 2: After booting, the support system reads this standby mode option (LTE/TD/W/GSM four-mode single standby), or the user/terminal resets the standby mode to LTE/TD/W/GSM four-mode in standby mode. Single wait. Step 3: The support system according to the standby mode LTE/TD/W/GSM single standby, judges that if it is currently booting, each set creates a common task according to the configuration, and four access technologies LTE, TD, W, GSM related tasks. If the standby mode is currently turned on, the support system closes all current protocol stack tasks, re-sets a common task according to the newly set configuration, and four access technologies LTE, TD, W, and GSM related tasks. Step 4: The protocol stack common processing module PSCOM performs protocol stack combination according to the standby mode configuration. Judging that the current four-mode single-standby, the common task, LTE, TD, W, GSM four access technology related protocol stack tasks are divided into the same standby protocol stack (constituting LTE/TD/W/GSM four-mode single-standby protocol stack) ). Step 5: Then start the boot process on the LTE/TD/W/GSM protocol stack. The following describes the implementation of dual standby switching single standby: Dual standby standby single standby standby mode example: LTE/TD + GSM three mode dual standby -> LTE / W / GSM three mode single standby. The implementation is as follows: Step 1: The current terminal works in LTE/TD + GSM dual standby mode. Step 2: The user/terminal resets this standby mode to LTE/W/GSM triple mode single standby. Step 3: The support system closes all current protocol stack tasks, re-sets a common task according to the newly configured configuration, and three access technologies LTE, W, and GSM-related tasks. Step 4: The protocol stack common processing module PSCOM performs protocol stack combination according to the standby mode configuration. It is judged that the current is a three-mode single standby, and the common task, and the three access technology related protocol stack tasks of LTE, W, and GSM are divided into the same standby protocol stack (constituting the LTE/W/GSM three-mode single standby protocol stack). Step 5: Then perform the boot registration process on the LTE/W/GSM protocol stack. The following describes the implementation of single standby switching dual standby: Single standby standby dual standby standby mode example: LTE/TD/W/GSM four-mode single standby->LTE/W + GSM three-mode dual standby. Step 1: The current terminal works in LTE/TD/W/GSM four-mode single standby mode. Step 2: The user/terminal resets this standby mode to LTE/W + GSM three mode dual standby. Step 3: Support all protocol stack tasks before the system is shut down, re-create two sets of common tasks according to the newly configured configuration, and three access technologies LTE, W, and GSM related tasks. Step 4: The protocol stack common processing module PSCOM performs protocol stack combination according to the standby mode configuration. Judging that the current is a three-mode dual standby, LTE, W related public tasks, and LTE, W two access technology related protocol stack tasks are divided into a standby protocol stack (constituting LTE / W dual-mode protocol stack), the GSM-related public The task, and the GSM access technology related protocol stack task is divided into another standby protocol stack (constituting the GSM single-mode single-standby protocol stack). Step 5: Then perform the boot registration process on the LTE/W protocol stack and the GSM protocol stack respectively. The above four implementations are all described by taking the example of "single and double standby can be freely switched and the access technology is freely combined" as an example. The other various combinations are similarly described, and are not described in detail in the present invention. The following describes the shutdown, creation, and protocol stack partitioning processing of the protocol stack common processing module PSCOM mentioned in the present invention. After the user sets the standby mode change, the protocol stack tasks RESET related data areas, and the support system uses the task deletion function of the operating system to delete all tasks related to the protocol stack. Then read the standby configuration in the NV, and use the task creation function of the operating system to create the common tasks required by the standby mode and the tasks related to each access technology according to the configuration. After the protocol stack task is created, the protocol stack common processing module PSCOM will classify the protocol stack tasks according to the standby configuration. In single-standby mode, the labels of each protocol stack task are the same. The dual standby mode is labeled separately according to the standby configuration, and the labels on the same standby side are the same. Then, only the tasks of the same tag can perform message interaction, and the protocol stack tasks of different tags are independent of each other. The differentiation combination of each standby task is realized by this tagging method. Preferred embodiments of the present invention will now be described with reference to the accompanying drawings. FIG. 12 is a schematic diagram of a configuration in which a support system configures a startup task group according to a preferred mode according to a preferred embodiment of the present invention. As shown in FIG. 12, the protocol stack task creation process is as follows: Step S1202: A configuration of a standby mode is set in the NV. The selected settings include (Multiple Standby and Single Standby modes consisting of four access technologies: LTE\TD\GSM\W). A boot event or an event that modifies the standby mode configuration triggers the support system to read the standby mode configuration in the NV. In step S1204, the read configuration is successful. In step S1206, the support system determines whether it is currently powered on or not. Step S1208: If the current has been turned on, notify the protocol stack of each task RESET task related data area, and delete the protocol stack related task. If it is not currently powered on, go to process step S1210. In step S1210, the support system determines whether the current configuration is dual standby or single standby. In step S1212, if it is currently single-standby, a set of public task groups is created for the single-standby protocol stack, to process step S1214. Step S1214: Create a protocol stack task related to the access technology according to the access technology supported by the single standby configuration. At this point, the single standby protocol stack task is created successfully. Step S1216, in dual mode, two sets of common task groups are created, which are respectively used for two standby protocol stacks, to process step S1218. Step S1218: Create an access protocol related protocol stack task according to the access technology supported by the dual standby standby side configuration. At this point, the dual standby protocol stack task is created successfully. 13 is a flowchart of a protocol stack common processing module dividing and combining a standby protocol stack according to a standby mode according to an embodiment of the present invention. As shown in FIG. 13, the process of dividing and combining protocol stack tasks according to a standby mode configuration includes: The following steps are performed: Step S1302, traversing all tasks started by the protocol stack. Step S1304, reading a protocol stack task, and determining according to the current standby configuration. Step S1306, determining whether the standby mode is single standby or dual standby. In step S1308, if it is in the single standby mode, the current protocol stack task is marked as protocol stack 1, and the process proceeds to step S1316. Step S1310: If it is a dual standby mode, determine whether the current task is a protocol stack common task. In step S1312, if it is a common task of the protocol stack, according to the standby configuration, the common task of the protocol stack is first marked as protocol stack 1 or protocol stack 2, respectively. In step S1314, if the task is not a common task of the protocol stack, the task is marked as the protocol stack number corresponding to the standby side according to the access technology configured on each standby side. For example, the access technology of protocol stack 1 is LTE/TD, the access technology of protocol stack 2 is GS13M, and the current task is EURAN-RRC (RRC layer task of LTE), then the task is marked as protocol stack 1. In step S1316, it is determined whether the current protocol stack task is traversed. Step S1318, if the traversal is completed, the flow ends; if it is not traversed, the flow returns to step S1302. Through the multi-mode terminal provided by the above embodiments and the preferred embodiments, "single and double standby free switching, free combination of access technologies" is realized. Compared with the single-and-double-to-be-switched in the related art, the access technology supported by each standby protocol stack is a fixed process, and the single-double of the preferred embodiment of the present invention and the preferred embodiment are implemented by turning on or off a certain standby protocol. The access technologies to be implemented and supported can be arbitrarily combined across the standby side according to the configuration information, and are not limited by the standby protocol stacks. Obviously, those skilled in the art should understand that the above modules or steps of the present invention can be implemented by a general-purpose computing device, which can be concentrated on a single computing device or distributed over a network composed of multiple computing devices. Alternatively, they may be implemented by program code executable by the computing device, such that they may be stored in the storage device by the computing device and, in some cases, may be different from The steps shown or described are performed sequentially, or they are separately fabricated into individual integrated circuit modules, or a plurality of modules or steps thereof are fabricated into a single integrated circuit module. Thus, the invention is not limited to any specific combination of hardware and software. The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and scope of the present invention are intended to be included within the scope of the present invention. INDUSTRIAL APPLICABILITY As described above, a multimode terminal network access processing method, apparatus, and multimode terminal provided by an embodiment of the present invention have the following beneficial effects: In the related art, a user roaming to a network access technology is solved. When the change is made, the access to the corresponding network cannot be changed according to the change, or the problem of flexible access to the network according to the configuration cannot be achieved, thereby achieving the access according to the change when the user roams to a place where the network access technology changes. Network, or the effect of flexible access to the network according to the configuration.

Claims

Claim

A multimode terminal network access processing method, the multimode terminal network access processing method includes: creating a standby mode configuration option, the standby mode configuration option including a plurality of access technology types and using the plurality of access Several standby modes of the technology type;

 Receiving an access technology type and a standby mode selected by the user from the standby mode configuration option; creating a corresponding protocol stack task according to the access technology type selected by the user; and the protocol stack according to the standby mode selected by the user The task is divided into corresponding standby protocol stacks;

 And registering, according to the protocol stack task in the standby protocol stack, a network corresponding to the access technology type selected by the user.

The multi-mode terminal network access processing method according to claim 1, wherein the creating the corresponding protocol stack task according to the type of the access technology selected by the user comprises:

 Reset each protocol stack task data area;

 Use the task delete function to delete each protocol stack task;

 The protocol stack function is used to create the protocol stack task corresponding to the access technology type selected by the user.

The multi-mode terminal network access processing method according to claim 1, wherein the dividing the protocol stack task into the corresponding standby protocol stack according to the standby mode selected by the user comprises:

 The protocol stack task is tagged according to the standby mode selected by the user; the protocol stack task is divided into corresponding standby protocol stacks by dividing the same protocol stack task of the tag into the same standby protocol stack.

The multi-mode terminal network access processing method according to claim 1, wherein after the network corresponding to the access technology type selected by the user is registered according to the protocol stack task in the standby protocol stack , Also includes:

 In the case that the standby mode configuration option reselected by the user is different from the currently running standby mode configuration, the protocol stack task in the currently running standby mode configuration is deleted;

Switching the current standby mode configuration to the standby mode configuration option reselected by the user; The network is accessed according to the reselected standby mode configuration option.

The multimode terminal network access processing method according to any one of claims 1 to 4, wherein the receiving user is in the standby mode configuration option when the multimode terminal is in a power on state or a standby state. The type of access technology selected and the standby mode.

A multi-mode terminal network access processing device, where the multi-mode terminal network access processing device includes:

 a first creation module, configured to create a standby mode configuration option, the standby mode configuration option including a plurality of access technology types and a plurality of standby modes using the plurality of access technology types;

 a receiving module, configured to receive an access technology type and a standby mode selected by the user from the standby mode configuration option;

 a second creating module, configured to create a corresponding protocol stack task according to the access technology type selected by the user;

 a dividing module, configured to divide the protocol stack task into a corresponding standby protocol stack according to the standby mode selected by a user;

 The first access module is configured to register, according to the protocol stack task in the standby protocol stack, a network corresponding to the access technology type selected by the access user.

The multi-mode terminal network access processing device according to claim 6, wherein the second creation module comprises:

 a reset unit, configured to reset each protocol stack task data area;

 Deleting the unit, setting to delete each protocol stack task by using the task deletion function;

 A creating unit is configured to create a protocol stack task corresponding to the access technology type selected by a user by using a task creation function.

8. The multimode terminal network access processing apparatus of claim 6, wherein the dividing module comprises:

 a classifying unit, configured to tag the protocol stack task according to the standby mode selected by the user;

 The dividing unit is configured to divide the protocol stack task into the corresponding standby protocol stack by dividing the same protocol stack task of the label to the same standby protocol stack.

The multimode terminal network access processing device according to claim 6, wherein the multimode terminal network access processing device further comprises: Deleting the module, setting to delete the protocol stack task in the currently running standby mode configuration when the standby mode configuration option reselected by the user is different from the currently running standby mode configuration; switching the module, setting the current standby mode The configuration switches to the standby mode configuration option that the user reselects;

 The second access module is configured to access the network according to the reselected standby mode configuration option. A multimode terminal comprising the multimode terminal network access processing device according to any one of claims 6 to 9.