CN105898837B - It realizes the method for communication connection and matches card server-side - Google Patents

Abstract

The invention discloses a kind of methods for realizing communication connection, comprising: obtain mobile terminal transmission matches card request；From preconfigured N number of card pond, the Ka Chi for meeting the user class, supporting the network formats and the covering communication zone is chosen；By calculating the card requirements of the SIM card in selected card pond, the highest SIM card of communication service cost performance is selected；Selected SIM card is allocated to the mobile terminal, so that the mobile terminal passes through the SIM card access to communication networks.Correspondingly, realize that is communicated to connect matches card server-side the invention also discloses a kind of.Using the embodiment of the present invention, SIM card can be distributed automatically, met the demand of the local communication network of access of user, improved user experience.

Description

Method for realizing communication connection and card configuration server

Technical Field

The invention relates to the technical field of computers, in particular to a method for realizing communication connection and a card distribution server.

Background

With the rapid development of the mobile communication market, the user stickiness of the mobile internet is getting larger, the user's requirement for the service experience of the mobile communication service is higher, and the user wants to experience the preference brought by the combination of different mobile operators to meet his own requirements, such as flexibly changing the package to reduce the tariff, switching the local card to avoid high roaming charges, switching the local operator to reduce the network charges, etc., these new experience requirements require the mobile device to provide the function of flexibly switching the SIM/USIM card, but at present, for the realization of switching the SIM/USIM card function, generally speaking, the user manually switches the SIM/USIM entity card on the mobile terminal according to his requirements, and the manual switching link is too cumbersome, which may affect the user's experience.

Disclosure of Invention

The embodiment of the invention provides a method for realizing mobile communication connection, which can automatically distribute an SIM card, meet the requirement of a user for accessing a local communication network and improve the user experience.

The embodiment of the invention provides a method for realizing communication connection, which comprises the following steps:

acquiring a card configuration request sent by a mobile terminal; the card configuration request comprises a network type of the mobile terminal, a communication area to be accessed, each optional network searched in the communication area and a user level;

selecting card pools which accord with the user level, support the network standard and cover the communication area from N pre-configured card pools;

according to the operator to which each selectable network belongs and the signal intensity, selecting the SIM card of the same operator as the operator which can be supported by the card pool and has the strongest signal intensity from the selected card pool, calculating the card required value of the selected SIM card, and selecting the SIM card with the highest communication service cost performance;

and configuring the selected SIM card to the mobile terminal so that the mobile terminal is accessed into a communication network through the SIM card.

In one embodiment, the method for configuring the N card pools specifically includes:

setting N card pools, wherein at least one of the user level, the supported network type and the covered communication area which are accorded with each card pool is different;

acquiring a plurality of SIM cards;

and configuring the SIM cards supporting the same user level, the same network system and the same communication area into corresponding card pools.

In another embodiment, the method for configuring the N card pools specifically includes:

setting card pools of different user levels according to a preset user level;

setting card pools with different network systems in each card pool with different user levels; setting card pools of different communication areas in each card pool of different network systems to complete the setting of N card pools; or,

setting card pools of different communication areas in each card pool of different user levels, setting card pools of different network standards in each card pool of different communication areas, and completing the setting of N card pools;

acquiring a plurality of SIM cards;

and configuring the SIM cards supporting the same user level, the same network system or the same communication area into a corresponding card pool.

Further, if the user level includes m user levels, selecting a card pool that meets the user level, supports the network standard, and covers the communication area from N pre-configured card pools, specifically including:

selecting one user level from m user levels as a standard user level according to a v (1 … m) algorithm function;

according to the standard user level, selecting a card pool meeting the standard user level from N pre-configured card pools;

according to the communication area, selecting a card pool capable of supporting the network system from the selected card pools meeting the standard user level;

selecting a card pool capable of covering the communication area from the selected card pools capable of covering the communication area;

and selecting the card pool with the smallest coverage area of the communication area from the selected card pools capable of covering the communication area.

Further, the card requirement value indicates a correlation size of a SIM card with a communication service;

then, the card requirement value indicating the correlation size of the SIM card with the card number x and the y-th communication service is: weight_y(x)＝f_y(r_y(v(1…m)),c_y(x))；

Wherein f is_yAn algorithmic function serving the y-th communication; r is_y(v (1 … m)) is a user demand parameter on the premise of the yth communication service and a standard user level selected according to the v (1 … m) algorithm function; c. C_y(x) The card condition parameter of the SIM card with the card number of x under the y communication service is shown; the user demand parameter represents a subset of a set of parameters of service content, network signal quality, data traffic, voice duration, and price sensitivity demanded by a user; the card condition parameters represent a subset of a set of parameters of service content, network signal quality, available data traffic limits, available voice duration limits, and card cost price that the SIM card has.

Further, the v (1 … m) algorithm function is to select the user level with the highest user level from the m user levels as the standard user level.

In an embodiment, if the card pool is compatible with multiple communication services, then the selecting, according to the operator to which each selectable network belongs and the signal strength, an SIM card of the same operator as the operator that can be supported by the card pool and has the strongest signal strength from the selected card pool, calculating a card requirement value of the selected SIM card, and selecting the SIM card with the highest cost performance of the communication services specifically includes:

according to the operator to which each selectable network belongs, screening out SIM cards supporting the operator from the selected card pool;

according to the operator to which each selectable network belongs and the signal strength, determining the operator with the strongest signal strength from the operators which can be supported by the screened SIM card;

selecting an SIM card supporting the operator with the strongest signal intensity from the screened SIM cards;

selecting the SIM card with the highest weight card requirement value from the selected SIM cards supporting the operators with the strongest signal strength as the SIM card with the highest communication service cost performance:

for each selected SIM card supporting the operator with the strongest signal strength, calculating a card requirement value of the correlation size of the SIM card and each communication service;

acquiring a weight coefficient of each communication service corresponding to the standard user level;

multiplying the card required value of the correlation size of the SIM card and each communication service by the weight coefficient of the corresponding communication service, and summing the multiplied numerical values to obtain the weight card required value of the SIM card;

and comparing the weight card required values of all the selected SIM cards supporting the operator with the strongest signal strength, and selecting the SIM card with the highest weight card required value as the SIM card with the highest communication service cost performance.

In another embodiment, the card pool is compatible with a plurality of communication services; then, according to the operator to which each selectable network belongs and the signal strength, selecting an SIM card of the same operator as the operator that can be supported by the card pool and has the strongest signal strength from the selected card pool, calculating a card requirement value of the selected SIM card, and selecting the SIM card with the highest communication service cost performance, specifically including:

starting from the selectable networks with the signal intensity from strong to weak, determining the first selectable network which can be supported by the selected card pool;

according to the operator to which the first selectable network belongs, screening out SIM cards supporting the operator to which the first selectable network belongs from the selected card pool;

selecting the SIM card with the highest weight card requirement value from the screened SIM cards as the SIM card with the highest communication service cost performance:

calculating a card requirement value of the correlation size of the SIM card and each communication service for each screened SIM card;

acquiring a weight coefficient of each communication service corresponding to the standard user level;

multiplying the card required value of the correlation size of the SIM card and each communication service by the weight coefficient of the corresponding communication service, and summing the multiplied numerical values to obtain the weight card required value of the SIM card;

and comparing the screened weight card required values of all the SIM cards, and selecting the SIM card with the highest weight card required value as the SIM card with the highest communication service cost performance.

Still further, after determining the first optional network that can be supported by the selected card pool, starting from the optional networks with strong signal strength to weak signal strength, the method further includes:

when the first selectable network is not the selectable network with the strongest signal strength, judging whether SIM cards of the same operator as the operator to which the selectable network with the strongest signal strength belongs exist in the SIM cards configured to the mobile terminal in the selected card pool;

if not, recording the operator to which the selectable network with the strongest signal strength belongs, the signal strength and the communication area so as to provide a purchasing reference.

Correspondingly, the invention also provides a card configuration server for realizing communication connection, which comprises:

the card allocation request acquisition module is used for acquiring a card allocation request sent by the mobile terminal; the card configuration request comprises a network type of the mobile terminal, a communication area to be accessed, each optional network searched in the communication area and a user level;

the card pool selection module is used for selecting a card pool which accords with the user level, supports the network system and covers the communication area from N pre-configured card pools;

the card selection module is used for selecting the SIM card of the same operator as the operator which can be supported by the card pool and has the strongest signal intensity from the selected card pool according to the operator to which each selectable network belongs and the signal intensity, calculating the card required value of the selected SIM card and selecting the SIM card with the highest communication service cost performance;

and the card configuration module is used for configuring the selected SIM card to the mobile terminal so that the mobile terminal is accessed into a communication network through the SIM card.

In one embodiment, the card configuration server further includes a card pool configuration module, configured to configure the N card pools; the card pool configuration module specifically comprises:

the card pool setting unit is used for setting N card pools, so that at least one of the user level, the supported network type and the covered communication area which are accorded with each card pool is different;

a card acquisition unit configured to acquire a plurality of SIM cards;

the card is matched with the card pool unit and is used for configuring the SIM cards supporting the same user level, the same network system and the same communication area into the corresponding card pool.

In another embodiment, the card configuration server further includes a card pool configuration module, configured to configure the N card pools, where the card pool configuration module specifically includes:

the first card pool setting unit is used for setting card pools of different user levels according to a preset user level;

a second card pool setting unit, configured to set card pools of different network systems in each of the card pools of different user levels; setting card pools of different communication areas in each card pool of different network systems to complete the setting of N card pools; or,

setting card pools of different communication areas in each card pool of different user levels, setting card pools of different network standards in each card pool of different communication areas, and completing the setting of N card pools;

a card acquisition unit configured to acquire a plurality of SIM cards;

the card is configured to the card pool unit and is used for configuring the SIM cards supporting the same user level, the same network system or the same communication area to the corresponding card pool.

Further, if the user level includes m user levels, the card pool selection module specifically includes:

a user level selection unit, configured to select one user level from m user levels as a standard user level according to a v (1 … m) algorithm function;

the first card pool selecting unit is used for selecting a card pool meeting the standard user level from N pre-configured card pools according to the standard user level;

a second card pool selecting unit, configured to select, according to the communication area, a card pool capable of supporting the network system from the selected card pools meeting the standard user level;

the third card pool selecting unit is used for selecting a card pool capable of covering the communication area from the selected card pools capable of covering the communication area;

and the fourth card pool selecting unit is used for selecting the card pool with the smallest coverage area from the selected card pools capable of covering the communication area.

Further, the card requirement value indicates a correlation size of a SIM card with a communication service;

then, the card requirement value indicating the correlation size of the SIM card with the card number x and the y-th communication service is: weight_y(x)＝f_y(r_y(v(1…m)),c_y(x))；

Wherein f is_yAn algorithmic function serving the y-th communication; r is_y(v (1 … m)) is a user demand parameter on the premise of the yth communication service and a standard user level selected according to the v (1 … m) algorithm function; c. C_y(x) The card condition parameter of the SIM card with the card number of x under the y communication service is shown; the user requirement parameter represents the service content required by the user,A subset of a set of parameters of network signal quality, data traffic, voice duration, and price sensitivity; the card condition parameters represent a subset of a set of parameters of service content, network signal quality, available data traffic limits, available voice duration limits, and card cost price that the SIM card has.

Further, the v (1 … m) algorithm function is to select the user level with the highest user level from the m user levels as the standard user level.

In one embodiment, the card pool is compatible with a plurality of communication services; the card selection module specifically includes:

a first screening card unit, configured to screen out, according to an operator to which each of the selectable networks belongs, a SIM card supporting the operator from the selected card group;

an operator confirming unit, configured to determine, according to the operator to which each of the selectable networks belongs and the signal strength, an operator with the strongest signal strength from among the operators that can be supported by the screened SIM card;

the second screening card unit is used for selecting the SIM card supporting the operator with the strongest signal intensity from the screened SIM cards;

a third screening card unit, configured to select, from the selected SIM cards supporting the operator with the strongest signal strength, an SIM card with a highest weight card requirement value as an SIM card with the highest cost performance of communication services; the third filter card unit specifically includes:

a demand value calculation operator unit, configured to calculate, for each selected SIM card supporting the operator with the strongest signal strength, a card demand value of a correlation size between the SIM card and each communication service;

a weight coefficient acquiring subunit, configured to acquire a weight coefficient of each communication service corresponding to the standard user level;

the weight calculation subunit is used for multiplying the card requirement value of the correlation size between the SIM card and each communication service by the weight coefficient of the corresponding communication service, and summing the multiplied values to obtain the weight card requirement value of the SIM card;

and the comparison and selection subunit is used for comparing the weight card required values of all the selected SIM cards supporting the operator with the strongest signal strength, and selecting the SIM card with the highest weight card required value as the SIM card with the highest communication service cost performance.

In another embodiment, the card pool is compatible with a plurality of communication services; the card selection module specifically includes:

the optional network determining unit is used for determining the first optional network which can be supported by the selected card pool from the optional networks with the signal intensity from strong to weak;

a fourth card screening unit, configured to screen out, according to the operator to which the first selectable network belongs, an SIM card supporting the operator to which the first selectable network belongs from the selected card pool;

a fifth screening card unit, configured to select, from the screened SIM cards, an SIM card with a highest weight card requirement value as an SIM card with a highest cost performance for communication services; the fifth filter card unit:

a second demand value operator unit, configured to calculate, for each SIM card screened out, a card demand value of a size of a correlation between the SIM card and each communication service;

a second weight coefficient obtaining subunit, configured to obtain a weight coefficient of each communication service corresponding to the standard user level;

a second weight calculating subunit, configured to multiply the card requirement value of the correlation size between the SIM card and each communication service by the weight coefficient of the corresponding communication service, and sum the multiplied values to obtain a weight card requirement value of the SIM card;

and the second comparison and selection subunit is used for comparing the weight card required values of all the screened SIM cards, and selecting the SIM card with the highest weight card required value as the SIM card with the highest communication service cost performance.

Still further, the card selection module further comprises:

a determining unit, configured to determine whether an SIM card of the same operator as an operator to which the selectable network with the strongest signal strength belongs exists in SIM cards configured for the mobile terminal in the selected card pool, when the first selectable network is not the selectable network with the strongest signal strength;

and the recording unit is used for recording the operator to which the selectable network with the strongest signal strength belongs, the signal strength and the communication area to provide a purchasing reference when the SIM card of the same operator to which the selectable network with the strongest signal strength belongs does not exist.

The embodiment of the invention has the following beneficial effects:

the method for realizing mobile communication connection provided by the embodiment of the invention selects the card pool which accords with the user level, supports the network standard and covers the communication area from N pre-configured card pools by acquiring the card configuration request sent by the mobile terminal, selects the SIM card of the same operator with the strongest signal strength from the selected card pool according to the operator and the signal strength of each selectable network, calculates the card requirement value of the selected SIM card, selects the SIM card with the highest communication service cost performance, and configures the selected SIM card to the mobile terminal so that the mobile terminal accesses the communication network through the SIM card. Namely, through setting up the card pool in advance, when receiving the card configuration request that mobile terminal sent, only need according to the information in the card configuration request, can match corresponding card pool fast, then calculate the card in the card pool that matches, with the highest same operator of adaptation local signal intensity and the highest card configuration mobile terminal of communication service price/performance ratio in this card pool to realize automatic allocation SIM card, satisfy user's demand, improve user experience.

Drawings

FIG. 1 is a flow chart illustrating one embodiment of a method for implementing a communication connection provided by the present invention;

FIG. 2 is a schematic structural diagram of an embodiment of a card distribution server for implementing communication connection provided in the present invention;

FIG. 3 is a schematic structural diagram of an embodiment of a card pool configuration module of a card configuration server for implementing communication connection provided in the present invention;

FIG. 4 is a schematic structural diagram of another embodiment of a card pool configuration module of a card configuration server for implementing communication connection according to the present invention;

fig. 5 is a schematic structural diagram of a card pool selection module of a card configuration server for implementing communication connection according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a card selecting module of a card distribution server for implementing communication connection according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a third filter card unit of the card selection module of the card distribution server for implementing communication connection according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of another embodiment of a card selecting module of a card distribution server for implementing communication connection provided in the present invention;

fig. 9 is a schematic structural diagram of a fifth filter card unit of the card selection module of the card distribution server for implementing communication connection 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.

Referring to fig. 1, it is a schematic flow chart of an embodiment of a method for implementing communication connection provided by the present invention, where the method is executed by a card-provisioning server, and the method for implementing communication connection specifically includes the following steps:

s1, acquiring a card allocation request sent by the mobile terminal; the card configuration request comprises a network type of the mobile terminal, a communication area to be accessed, each optional network searched in the communication area and a user level;

s2, selecting card pools which accord with the user level, support the network standard and cover the communication area from N pre-configured card pools;

s3, according to the operator to which each selectable network belongs and the signal intensity, selecting the SIM card of the same operator as the operator which can be supported by the card pool and has the strongest signal intensity from the selected card pool, calculating the card required value of the selected SIM card, and selecting the SIM card with the highest communication service cost performance;

s4, configuring the selected SIM card to the mobile terminal so that the mobile terminal can access a communication network through the SIM card.

It should be noted that the communication area to be accessed refers to a specific geographical location of communication, and may be an administrative region governed by a country, a national region, a region where a plurality of countries are connected, or a global scope, for example, the Guangdong province, the United states or southeast Asia may be one of the communication areas. Each optional network searched in the communication area comprises the operator to which the optional network belongs and the information of the signal strength. The communication service required by the user is a voice service, a data service or a voice and data service, and also a service in terms of network signal quality and price. The SIM card in this embodiment refers to information used by the SIM card to access a network.

In this embodiment, the network type of the mobile terminal included in the card provisioning request may be an identifier of the mobile terminal, for example, an equipment serial number of the mobile terminal, so that the card provisioning server may obtain the network type of the mobile terminal through the identifier of the mobile terminal, or directly provide information of the network type of the mobile terminal through the mobile terminal. Similarly, the communication service and the user level required by the user included in the card provisioning request may be an identifier of the user, and the identifier of the user is associated with the communication service and the user level required by the user, so that the card provisioning server may obtain the communication service and the user level required by the user through the identifier of the user, or directly provide the communication service and the user level required by the user by the mobile terminal.

In this embodiment, the card pool is preset by the card configuration server, when a card configuration request sent by the mobile terminal is received, the corresponding card pool can be quickly matched only according to information in the card configuration request, then the card with the highest cost performance of communication service in the card pool is calculated through an algorithm, and the card is configured with the mobile terminal, so that automatic allocation of the SIM card is realized, and the requirements of a user are met.

The N card pools provided by the embodiment of the invention are configured in advance, and the configuration method of the N card pools has two implementation modes:

in one embodiment, the configuration method specifically includes:

setting N card pools, wherein at least one of the user level, the supported network type and the covered communication area which are accorded with each card pool is different;

acquiring a plurality of SIM cards;

and configuring the SIM cards supporting the same user level, the same network system and the same communication area into corresponding card pools.

It should be noted that, first, the category to which the card pool belongs is set according to the user level, the network type, and the category in which the communication area can exist, and the manner of setting the card pool is as follows:

the card pool is set according to the categories of different communication areas in order to provide a more optimal localized roaming service and reduce roaming charges for the mobile terminal, which may be, for example, an administrative region governed by a country, a region of a country, a region where a plurality of countries are connected, or a global scope.

The method comprises the steps of setting card pools according to different types of network systems, wherein the card pools are set according to network access network systems which can be supported by the existing SIM cards, and the purpose is to provide SIM cards with matched network systems for the mobile terminal, such as SIM card sets of 2G systems (GSM, CDMA), 3G systems (WCDMA, CDMA2000, TD-SCDMA), 4G systems (LTE) and any of various mixed systems.

In order to flexibly provide different services for users of different user levels, the service range which can be selected by a user with a high user level is larger, and the service range which can be selected by a user with a low user level is relatively smaller, therefore, the user level of the card pool is set according to the range size of the communication area which can be covered by the card pool, for example, when the communication area which can be covered by the card pool is an administrative region or a region of a country which is governed by a country, the user level of the card pool is set to be a low level, a normal level and a high level, and the card can be configured for the users of the low level, the normal level and the high level; when the communication area which can be covered by the card pool is an area which is connected with a plurality of countries, the card pool is configured with a small number of cards to a low-level user card pool, a large number of or all cards to a common-level user card pool and all cards to a high-level user card pool; when the communication area covered by the card pool is global, the card pool configures part of cards to a common-grade user card pool, and configures a large number of or all cards to a high-grade user card pool.

And after the types of the card pools are set, putting the SIM cards with the same user grade, the same network system and the same communication area into the corresponding card pools, thereby completing the work of configuring the cards into the card pools. Through the arrangement of the card pool, when the card is configured for the mobile terminal, the basic requirement of the mobile terminal for accessing a communication network can be met, the localized communication service is provided to reduce the roaming cost, and the set user level can provide better service quality for the user.

In another embodiment, the configuration method specifically includes:

setting card pools of different user levels according to a preset user level;

setting card pools with different network systems in each card pool with different user levels; setting card pools of different communication areas in each card pool of different network systems to complete the setting of N card pools; or,

setting card pools of different communication areas in each card pool of different user levels, setting card pools of different network standards in each card pool of different communication areas, and completing the setting of N card pools;

acquiring a plurality of SIM cards;

and configuring the SIM cards supporting the same user level, the same network system or the same communication area into a corresponding card pool.

It should be noted that, for a card pool at a low level of users, a small number of cards are configured; configuring a large number of or all cards for a card pool of a common level user level; for a high-level user level card pool, all cards are configured.

The technical effect achieved by the present embodiment is the same as that of the previous embodiment, and is not described herein again.

Further, on the premise that the mobile terminal is used as a sharing hotspot, if there is a case that a plurality of users share the mobile terminal, the user level includes m user levels, and the specific operation of the step S2 is as follows:

selecting one user level from m user levels as a standard user level according to a v (1 … m) algorithm function;

according to the standard user level, selecting a card pool meeting the standard user level from N pre-configured card pools;

according to the communication area, selecting a card pool capable of supporting the network system from the selected card pools meeting the standard user level;

selecting a card pool capable of covering the communication area from the selected card pools capable of covering the communication area;

and selecting the card pool with the smallest coverage area of the communication area from the selected card pools capable of covering the communication area.

Preferably, the above-mentioned v (1 … m) algorithm function is to select the user level with the highest user level from m user levels as the standard user level.

In this embodiment, there may be a case where the mobile terminal is used by multiple users simultaneously as a sharing hotspot, and the user level included in the card allocating request includes multiple user levels, that is, there is a case where multiple users generate a conflict, so to avoid the conflict and to screen the most important user, an algorithm function v (1 … m) is set to select the highest user level from the multiple user levels as a standard user level.

It should be noted that the card pool is selected from the card pools in the largest range in a stepwise decreasing manner, and if there is no free card in the card pool in the smallest range that meets the requirement, the selection is returned to the card pool in the previous range. In this embodiment, a specific implementation manner of selecting a specific card pool in a communication area is as follows: the method comprises the steps of firstly selecting a card pool in a global range, then selecting a card pool covering a plurality of country-connected regions of a communication region, and finally selecting a country region card pool covering the communication region, wherein the country region card pool is the card pool with the smallest communication region range which can be covered. If the card pool of the country region has no free cards, returning to the card pool of the region connected with the countries to select a card group; if the card pool of the region connected with the countries has no free card, returning to the card pool of the global scope to select the card group.

The card demand value mentioned in the above step S3 represents the size of a correlation of a SIM card with a communication service;

then, the card requirement value indicating the correlation size of the SIM card with the card number x and the y-th communication service is: weight_y(x)＝f_y(r_y(v(1…m)),c_y(x))；

Wherein f is_yAn algorithmic function serving the y-th communication; r is_y(v (1 … m)) is a user demand parameter on the premise of the yth communication service and a standard user level selected according to the v (1 … m) algorithm function; c. C_y(x) The card condition parameter of the SIM card with the card number of x under the y communication service is shown; the user demand parameter represents a subset of a set of parameters of service content, network signal quality, data traffic, voice duration, and price sensitivity demanded by a user; the card condition parameters represent a subset of a set of parameters of service content, network signal quality, available data traffic limits, available voice duration limits, and card cost price that the SIM card has.

The specific algorithm flow for calculating the card requirement value representing the correlation between the SIM card with the card number x and the y-th communication service is as follows:

firstly, according to the user requirements defined under the card pool where the SIM card with the card number of x is located, including the service content of the user requirements, the network signal quality, the data flow, the voice time length and the user requirements of the price sensitivity, the corresponding characteristic numerical value is obtained and substituted into r_yCalculating a function to obtain a user demand parameter of the card pool under the y communication service; for example, for the communication service of the network signal quality, the average value, the minimum value and the maximum value of the recorded network signal quality of each SIM card in the card pool are obtained, and the average value or the median and the range interval which cannot exceed the minimum value and the maximum value are taken as the user demand parameters of the card pool under the y-th communication service.

Then, according to the characteristics of service content, network signal quality, available data flow rate limit, available voice time limit and card cost price of the SIM card with the card number of x, obtaining the characteristic subset of the corresponding characteristics as characteristic numerical value and substituting the characteristic numerical value into c_yCalculating a function to obtain card condition parameters of the SIM card with the card number of x under the y-th communication service; for example, the network signal quality of the SIM card is initially set as an average value, and then a characteristic value of the network signal quality is measured from historical statistical data of the distributed usage; the operator to which the SIM card belongs marks the characteristic numerical value of the SIM card by an MCC (Mobile Country Code) and MNC (Mobile Network Code) set; the valuation price and the remaining quantity of the SIM card are used as characteristic numerical values of the card cost price.

Finally, substituting the obtained user requirement parameters and card condition parameters into f_yThe function performs calculation to obtain a card demand value indicating the correlation size of the SIM card with the card number x and the y-th communication service.

The above features are assigned with corresponding feature values in advance by the designer for each possible feature to distinguish different features.

Still further, the card pool is compatible with a plurality of communication services, and there are two specific implementations of the step S3, where one of the two implementations includes:

according to the operator to which each selectable network belongs, screening out SIM cards supporting the operator from the selected card pool;

according to the operator to which each selectable network belongs and the signal strength, determining the operator with the strongest signal strength from the operators which can be supported by the screened SIM card;

selecting an SIM card supporting the operator with the strongest signal intensity from the screened SIM cards;

selecting the SIM card with the highest weight card requirement value from the selected SIM cards supporting the operators with the strongest signal strength as the SIM card with the highest communication service cost performance:

for each selected SIM card supporting the operator with the strongest signal strength, calculating a card requirement value of the correlation size of the SIM card and each communication service;

acquiring a weight coefficient of each communication service corresponding to the standard user level;

multiplying the card required value of the correlation size of the SIM card and each communication service by the weight coefficient of the corresponding communication service, and summing the multiplied numerical values to obtain the weight card required value of the SIM card;

and comparing the weight card required values of all the selected SIM cards supporting the operator with the strongest signal strength, and selecting the SIM card with the highest weight card required value as the SIM card with the highest communication service cost performance.

In this embodiment, the operator signal which is searched locally and can be supported by the selected card taking pool and has the strongest signal is determined, and an SIM card of the same operator as the operator signal is configured for the mobile terminal, so that the signal of the mobile terminal accessing the communication network through the SIM card is the best, and the user experience is further improved.

On the other hand, in order to reflect the emphasis of the user's demand for different communication services, a weighting factor is set in advance for each communication service, and the weighting factors set for the different user's demand for each communication service are different from each other, that is, the weighting factors set for the different user classes for each communication service are different.

The difference between the card condition parameter of the SIM card and the user requirement parameter under a communication service, the difference between the limit value of the card condition parameter and the user requirement parameter, and the ratio between the two differences are used as the algorithm function of the communication service to calculate the card requirement value of the SIM card, and select the SIM card with the highest cost performance of the communication service, which is specifically exemplified as follows:

for the communication service a with network signal quality being emphasized, the card condition parameter of the SIM card with the card number x is a characteristic value signalx recorded by the network signal quality, wherein signalMin is the minimum value of the characteristic value of the network signal quality, signalMax is the maximum value of the characteristic value of the network signal quality, and the value of the signalx is as follows:

when the signalMin is less than or equal to signallx is less than or equal to signalMax, the signalx is not less than or equal to signallx;

when signalx is less than signalMin, the signalx is signalMin;

when signalx > signalMin, signalx is signalMax.

The user requirement parameter is the mean value signalMedian of characteristic values recorded by the network signal quality of all the SIM cards in the card pool where the SIM card with the card number x is located, and then the card requirement value weight a (x) with the card number x is:

when signalmedia is less than or equal to signalx is less than or equal to signalMax,

when signaLMin is less than or equal to signaLx is less than or equal to signaLMedian,

for the communication service B with a price of emphasis, the card condition parameter of the SIM card with the card number x is the card cost unit price pricex, where priceMin is the minimum value of the card cost unit price, priceMax is the maximum value of the card cost unit price, and the value of pricex is:

when priceMin is less than or equal to pricex is less than or equal to priceMax, pricex is pricex;

when pricex < priceMin, pricex ═ priceMin;

when pricex > priceMin, pricex is priceMax.

The user requirement parameter is the card cost unit price mean value priceMedian of all the SIM cards in the card pool where the SIM card with the card number x is located, and the card requirement value weight b (x) with the card number x is:

when pricemedia is less than or equal to pricex is less than or equal to priceMax,

when priceMin is less than or equal to pricex is less than or equal to priceMedian,

for the communication service C with data traffic being emphasized, the card condition parameter of the SIM card with the card number x is the card residual traffic flowRemainx, wherein flowRemainMax is the minimum value of the card residual traffic, flowRemainMax is the maximum value of the card residual traffic, and the value of flowRemainx is as follows:

when flowRemainmin is less than or equal to flowRemainx is less than or equal to flowRemainmax,

flowRemainx＝flowRemainx；

when flowRemainx < flowRemainmin, flowRemainx is flowRemainmin;

when flowRemainx > flowRemainMin, flowRemainx is flowremamax.

If all the SIM cards in the card pool with the user requirement parameter number x are used in the set period, the average value flowremainmedidian of the traffic flow of the SIM card with the user requirement parameter number x, the card requirement value weightc (x) with the card number x is:

when flowRemainMedian is less than or equal to flowRemainx is less than or equal to flowRemainMax,

when flowRemainmin is less than or equal to flowRemainx is less than or equal to flowRemainmedian,

thus, a weight card requirement value for a card number x is:

Weight(x)＝signalFactor*WeightA(x)+priceFactor*WeightB(x)+flowFactor*WeightC(x)；

wherein, the signalFactor is a weight coefficient of a communication service A of which the SIM card is emphasized on the network signal quality, the primacord is a weight coefficient of a communication service B of which the SIM card is emphasized on the price, and the flowFactor is a weight coefficient of a communication service C of which the SIM card is emphasized on the data flow. In this embodiment, the signalFactor, princefactor, or flowFactor may be 0, but at least one is not 0, to indicate that there is at least one weight card requirement value calculated under the individual user requirement and card condition in one communication service.

The weight card requirement values of all the SIM cards in the card pool are calculated through the operation, and are compared, the SIM with the highest weight card requirement value is selected, wherein the SIM card is the SIM card with the highest cost performance under three communication services of compatible communication service A, B and C.

Another embodiment of the step S3 specifically includes:

starting from the selectable networks with the signal intensity from strong to weak, determining the first selectable network which can be supported by the selected card pool;

according to the operator to which the first selectable network belongs, screening out SIM cards supporting the operator to which the first selectable network belongs from the selected card pool;

selecting the SIM card with the highest weight card requirement value from the screened SIM cards as the SIM card with the highest communication service cost performance:

calculating a card requirement value of the correlation size of the SIM card and each communication service for each screened SIM card;

acquiring a weight coefficient of each communication service corresponding to the standard user level;

multiplying the card required value of the correlation size of the SIM card and each communication service by the weight coefficient of the corresponding communication service, and summing the multiplied numerical values to obtain the weight card required value of the SIM card;

and comparing the screened weight card required values of all the SIM cards, and selecting the SIM card with the highest weight card required value as the SIM card with the highest communication service cost performance.

The implementation of this step is consistent with the technical effect achieved by the previous implementation, and is not described herein again.

Still further, after determining the first optional network that can be supported by the selected card pool, starting from the optional networks with strong signal strength to weak signal strength, the method further includes:

when the first selectable network is not the selectable network with the strongest signal strength, judging whether SIM cards of the same operator as the operator to which the selectable network with the strongest signal strength belongs exist in the SIM cards configured to the mobile terminal in the selected card pool;

if not, recording the operator to which the selectable network with the strongest signal strength belongs, the signal strength and the communication area so as to provide a purchasing reference.

The method for realizing communication connection provided by the embodiment of the invention selects the card pool which accords with the user level, supports the network standard and covers the communication area from N pre-configured card pools by acquiring the card configuration request sent by the mobile terminal, selects the SIM card of the same operator with the strongest signal strength from the selected card pool according to the operator and the signal strength of each selectable network, calculates the card requirement value of the selected SIM card, selects the SIM card with the highest communication service cost performance, and configures the selected SIM card to the mobile terminal so that the mobile terminal can be accessed into the communication network through the SIM card. Namely, through setting up the card pool in advance, when receiving the card configuration request that mobile terminal sent, only need according to the information in the card configuration request, can match corresponding card pool fast, then calculate the card in the card pool that matches, with the highest same operator of adaptation local signal intensity and the highest card configuration mobile terminal of communication service price/performance ratio in this card pool to realize automatic allocation SIM card, satisfy user's demand, improve user experience.

Correspondingly, the present invention further provides a card configuration server for implementing communication connection, which is capable of implementing all the processes of the method for implementing communication connection in the foregoing embodiment, and the card configuration server for implementing communication connection provided by the present invention is described in detail below with reference to fig. 2 to 9.

Referring to fig. 2, it is a schematic structural diagram of an embodiment of a card configuration server for implementing communication connection provided in the present invention, where the card configuration server specifically includes:

a card allocation request obtaining module 10, configured to obtain a card allocation request sent by a mobile terminal; the card configuration request comprises a network type of the mobile terminal, a communication area to be accessed, each optional network searched in the communication area and a user level;

a card pool selection module 20, configured to select, from N card pools configured in advance, a card pool that meets the user level, supports the network standard, and covers the communication area;

a card selection module 30, configured to select, according to the operator to which each of the selectable networks belongs and the signal strength, an SIM card of the same operator as the operator that can be supported by the card pool and has the strongest signal strength from the selected card pool, calculate a card requirement value of the selected SIM card, and select an SIM card with the highest cost performance of communication services;

and a card configuration module 40, configured to configure the selected SIM card to the mobile terminal, so that the mobile terminal accesses a communication network through the SIM card.

In one embodiment, the card configuration server further includes a card pool configuration module 50, configured to configure the N card pools; referring to fig. 3, which is a schematic structural diagram of an embodiment of a card pool configuration module of a card configuration server for implementing communication connection provided in the present invention, the card pool configuration module 50 specifically includes:

a card pool setting unit 51, configured to set N card pools, so that at least one of a user level, a supported network type, and a covered communication area that are met between each card pool is different;

a card acquisition unit 52 for acquiring a plurality of SIM cards;

the card is configured to the card pool unit 53, and is configured to configure SIM cards supporting the same user level, the same network system, and the same communication area to a corresponding card pool.

In another embodiment, the card provisioning server further includes a card pool configuration module 50, configured to configure the N card pools, see fig. 4, which is a schematic structural diagram of another embodiment of the card pool configuration module of the card provisioning server for implementing communication connection provided by the present invention, where the card pool configuration module 50 specifically includes:

a first card pool setting unit 54, configured to set card pools of different user levels according to a preset user level;

a second card pool setting unit 55, configured to set card pools of different network systems in each of the card pools of different user levels; setting card pools of different communication areas in each card pool of different network systems to complete the setting of N card pools; or,

setting card pools of different communication areas in each card pool of different user levels, setting card pools of different network standards in each card pool of different communication areas, and completing the setting of N card pools;

a card acquisition unit 56 for acquiring a plurality of SIM cards;

the card is configured to the card pool unit 57, and is configured to configure SIM cards supporting the same user level, the same network system, or the same communication area to a corresponding card pool.

Further, if the user level includes m user levels, referring to fig. 5, it is a schematic structural diagram of an embodiment of a card pool selection module of a card configuration server for implementing communication connection provided by the present invention, where the card pool selection module 20 specifically includes:

a user level selecting unit 21, configured to select one user level from m user levels as a standard user level according to a v (1 … m) algorithm function;

a first card pool selecting unit 22, configured to select, according to the standard user level, a card pool meeting the standard user level from N card pools configured in advance;

a second card pool selecting unit 23, configured to select, according to the communication area, a card pool capable of supporting the network system from the selected card pools meeting the standard user level;

a third card pool selecting unit 24, configured to select a card pool that can cover the communication area from the selected card pools that can cover the communication area;

and a fourth card pool selecting unit 25, configured to select, from the selected card pools that can cover the communication area, a card pool that has a smallest communication area range that can be covered.

Further, the card requirement value indicates a correlation size of a SIM card with a communication service;

then, the card requirement value indicating the correlation size of the SIM card with the card number x and the y-th communication service is: weight_y(x)＝f_y(r_y(v(1…m)),c_y(x))；

Wherein f is_yAn algorithmic function serving the y-th communication; r is_y(v (1 … m)) is a user demand parameter on the premise of the yth communication service and a standard user level selected according to the v (1 … m) algorithm function; c. C_y(x) The card condition parameter of the SIM card with the card number of x under the y communication service is shown; the user demand parameter represents a subset of a set of parameters of service content, network signal quality, data traffic, voice duration, and price sensitivity demanded by a user; the card condition parameters represent a subset of a set of parameters of service content, network signal quality, available data traffic limits, available voice duration limits, and card cost price that the SIM card has.

Further, the v (1 … m) algorithm function is to select the user level with the highest user level from the m user levels as the standard user level.

Still further, the card pool is compatible with multiple communication services, the card selection module 30 has two implementation manners, one implementation manner of which is shown in fig. 6, and is a schematic structural diagram of an embodiment of the card selection module of the card configuration server for implementing communication connection provided by the present invention, where the card selection module 30 specifically includes:

a first card screening unit 31, configured to screen out, according to an operator to which each of the selectable networks belongs, an SIM card supporting the operator from the selected card pool;

an operator confirming unit 32, configured to determine, according to the operator to which each of the selectable networks belongs and the signal strength, an operator with the strongest signal strength from the operators that can be supported by the screened SIM card;

a second screening card unit 33, configured to select, from the screened SIM cards, an SIM card supporting the operator with the strongest signal strength;

a third screening card unit 34, configured to select, from the selected SIM cards supporting the operator with the strongest signal strength, the SIM card with the highest weight card requirement value as the SIM card with the highest cost performance of communication service; referring to fig. 7, which is a schematic structural diagram of an embodiment of a third filter card unit of the card selecting module of the card provisioning server for implementing communication connection provided in the present invention, where the third filter card unit 34 specifically includes:

a requirement value calculation operator unit 341, configured to calculate, for each selected SIM card supporting the operator with the strongest signal strength, a card requirement value of the correlation size between the SIM card and each communication service;

a weight coefficient acquiring subunit 342, configured to acquire a weight coefficient of each communication service corresponding to the standard user level;

a weight calculating subunit 343, configured to multiply the card requirement value of the correlation size between the SIM card and each communication service by the weight coefficient of the corresponding communication service, and sum the multiplied values to obtain a weight card requirement value of the SIM card;

a comparing and selecting subunit 344, configured to compare the weight card requirement values of all the selected SIM cards supporting the operator with the strongest signal strength, and select the SIM card with the highest weight card requirement value as the SIM card with the highest cost performance of the communication service.

Another embodiment of the card selecting module 30 referring to fig. 8, is a schematic structural diagram of another embodiment of the card selecting module of the card-matching service end for implementing communication connection provided by the present invention, where the card selecting module 30 specifically includes:

an optional network determining unit 35, configured to determine, starting from an optional network with strong signal strength to a weak signal strength, a first optional network that can be supported by the selected card pool;

a fourth card screening unit 36, configured to screen out, according to the operator to which the first selectable network belongs, a SIM card supporting the operator to which the first selectable network belongs from the selected card pool;

a fifth screening card unit 37, configured to select, from the screened SIM cards, an SIM card with a highest weight card requirement value as an SIM card with a highest cost performance for communication services; referring to fig. 9, which is a schematic structural diagram of a fifth filter card unit of the card selecting module of the card provisioning server for implementing communication connection provided in the present invention, the fifth filter card unit 37 includes:

a second demand value operator unit 371, configured to calculate, for each SIM card screened out, a card demand value of a size of correlation between the SIM card and each communication service;

a second weight coefficient obtaining subunit 372, configured to obtain a weight coefficient of each communication service corresponding to the standard user level;

a second weight calculation subunit 373, configured to multiply the card requirement value of the correlation size between the SIM card and each communication service by the weight coefficient of the corresponding communication service, and sum the multiplied values to obtain a weight card requirement value of the SIM card;

a second comparing and selecting subunit 374, configured to compare the weight card requirement values of all the screened SIM cards, and select the SIM card with the highest weight card requirement value as the SIM card with the highest cost performance of the communication service.

Still further, the card selecting module 30 further includes:

a determining unit 38, configured to determine whether an SIM card of the same operator as the operator to which the selectable network with the strongest signal strength belongs exists in the SIM cards configured to the mobile terminal in the selected card pool when the first selectable network is not the selectable network with the strongest signal strength;

a recording unit 39, configured to record, when there is no SIM card of the same operator as the operator to which the selectable network with the strongest signal strength belongs, the signal strength, and the communication area, so as to provide a purchase reference.

The card distribution server for realizing communication connection provided by the embodiment of the invention is characterized in that a card pool is preset, when a card distribution request sent by a mobile terminal is received, the corresponding card pool can be quickly matched according to information in the card distribution request, then the card in the matched card pool is calculated, and the mobile terminal is configured with the card which is suitable for the same operator with the highest local signal intensity and has the highest communication service cost performance, so that the SIM card is automatically distributed, the requirements of users are met, and the user experience is improved.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (14)

1. A method for implementing a communication connection, comprising:

acquiring a card configuration request sent by a mobile terminal; the card configuration request comprises a network type of the mobile terminal, a communication area to be accessed, each optional network searched in the communication area and a user level;

selecting card pools which accord with the user level, support the network standard and cover the communication area from N pre-configured card pools;

according to the operator to which each selectable network belongs and the signal intensity, selecting the SIM card of the same operator as the operator which can be supported by the card pool and has the strongest signal intensity from the selected card pool, calculating the card required value of the selected SIM card, and selecting the SIM card with the highest communication service cost performance;

configuring the selected SIM card to the mobile terminal so that the mobile terminal is accessed to a communication network through the SIM card;

the configuration method of the N card pools specifically comprises the following steps:

setting N card pools, wherein at least one of the user level, the supported network type and the covered communication area which are accorded with each card pool is different;

acquiring a plurality of SIM cards;

configuring SIM cards supporting the same user level, the same network system and the same communication area into corresponding card pools;

or

The configuration method of the N card pools specifically comprises the following steps:

setting card pools of different user levels according to a preset user level;

setting card pools with different network systems in each card pool with different user levels; setting card pools of different communication areas in each card pool of different network systems to complete the setting of N card pools; or,

setting card pools of different communication areas in each card pool of different user levels, setting card pools of different network standards in each card pool of different communication areas, and completing the setting of N card pools;

acquiring a plurality of SIM cards;

and configuring the SIM cards supporting the same user level, the same network system or the same communication area into a corresponding card pool.

2. The method according to claim 1, wherein the user level includes m user levels, and the selecting a card pool that meets the user level, supports the network standard, and covers the communication area from N pre-configured card pools specifically includes:

selecting one user level from m user levels as a standard user level according to a v (1 … m) algorithm function;

according to the standard user level, selecting a card pool meeting the standard user level from N pre-configured card pools;

according to the communication area, selecting a card pool capable of supporting the network system from the selected card pools meeting the standard user level;

selecting a card pool capable of covering the communication area from the selected card pools capable of covering the communication area;

and selecting the card pool with the smallest coverage area of the communication area from the selected card pools capable of covering the communication area.

3. The method of effecting a communication connection of claim 2 wherein said card requirement value represents a correlation size of a SIM card with a communication service;

then, the card requirement value indicating the correlation size of the SIM card with the card number x and the y-th communication service is: weight_y(x)＝f_y(r_y(v(1…m)),c_y(x))；

Wherein f is_yAn algorithmic function serving the y-th communication; r is_y(v (1 … m)) is a user demand parameter on the premise of the yth communication service and a standard user level selected according to the v (1 … m) algorithm function; c. C_y(x) The card condition parameter of the SIM card with the card number of x under the y communication service is shown; the user demand parameter represents a subset of a set of parameters of service content, network signal quality, data traffic, voice duration, and price sensitivity demanded by a user; the card condition parameter represents the garment that the SIM card hasA subset of a set of parameters of traffic content, network signal quality, available data traffic quota, available voice duration quota, and card cost price.

4. The method for effectuating a communicative connection as recited in claim 2 wherein the v (1 … m) algorithmic function is to select the highest user level from the m user levels as the standard user level.

5. The method of effecting a communication connection according to claim 3, wherein said card pool is compatible with a plurality of communication services; then, according to the operator to which each selectable network belongs and the signal strength, selecting an SIM card of the same operator as the operator that can be supported by the card pool and has the strongest signal strength from the selected card pool, calculating a card requirement value of the selected SIM card, and selecting the SIM card with the highest communication service cost performance, specifically including:

according to the operator to which each selectable network belongs, SIM cards supporting the operator are screened from the selected card pool;

according to the operator to which each selectable network belongs and the signal strength, determining the operator with the strongest signal strength from the operators which can be supported by the screened SIM card;

selecting an SIM card supporting the operator with the strongest signal intensity from the screened SIM cards;

selecting the SIM card with the highest weight card requirement value from the selected SIM cards supporting the operators with the strongest signal strength as the SIM card with the highest communication service cost performance:

for each selected SIM card supporting the operator with the strongest signal strength, calculating a card requirement value of the correlation size of the SIM card and each communication service;

acquiring a weight coefficient of each communication service corresponding to the standard user level;

multiplying the card required value of the correlation size of the SIM card and each communication service by the weight coefficient of the corresponding communication service, and summing the multiplied numerical values to obtain the weight card required value of the SIM card;

and comparing the weight card required values of all the selected SIM cards supporting the operator with the strongest signal strength, and selecting the SIM card with the highest weight card required value as the SIM card with the highest communication service cost performance.

6. The method of effecting a communication connection according to claim 3, wherein said card pool is compatible with a plurality of communication services; then, according to the operator to which each selectable network belongs and the signal strength, selecting an SIM card of the same operator as the operator that can be supported by the card pool and has the strongest signal strength from the selected card pool, calculating a card requirement value of the selected SIM card, and selecting the SIM card with the highest communication service cost performance, specifically including:

starting from the selectable networks with the signal intensity from strong to weak, determining the first selectable network which can be supported by the selected card pool;

according to the operator to which the first selectable network belongs, screening out SIM cards supporting the operator to which the first selectable network belongs from the selected card pool;

selecting the SIM card with the highest weight card requirement value from the screened SIM cards as the SIM card with the highest communication service cost performance:

calculating a card requirement value of the correlation size of the SIM card and each communication service for each screened SIM card;

acquiring a weight coefficient of each communication service corresponding to the standard user level;

multiplying the card required value of the correlation size of the SIM card and each communication service by the weight coefficient of the corresponding communication service, and summing the multiplied numerical values to obtain the weight card required value of the SIM card;

and comparing the screened weight card required values of all the SIM cards, and selecting the SIM card with the highest weight card required value as the SIM card with the highest communication service cost performance.

7. The method for implementing communication connection according to claim 6, wherein after determining the first selectable network that can be supported by the selected card pool, starting from the selectable networks with strong to weak signal strength, further comprising:

when the first selectable network is not the selectable network with the strongest signal strength, judging whether SIM cards of the same operator as the operator to which the selectable network with the strongest signal strength belongs exist in the SIM cards configured to the mobile terminal in the selected card pool;

if not, recording the operator to which the selectable network with the strongest signal strength belongs, the signal strength and the communication area so as to provide a purchasing reference.

8. A card configuration server for realizing communication connection is characterized by comprising:

the card allocation request acquisition module is used for acquiring a card allocation request sent by the mobile terminal; the card configuration request comprises a network type of the mobile terminal, a communication area to be accessed, each optional network searched in the communication area and a user level;

the card pool selection module is used for selecting a card pool which accords with the user level, supports the network system and covers the communication area from N pre-configured card pools;

the card selection module is used for selecting the SIM card of the same operator as the operator which can be supported by the card pool and has the strongest signal intensity from the selected card pool according to the operator to which each selectable network belongs and the signal intensity, calculating the card required value of the selected SIM card and selecting the SIM card with the highest communication service cost performance;

the card configuration module is used for configuring the selected SIM card to the mobile terminal so that the mobile terminal can be accessed into a communication network through the SIM card;

the card configuration server side for realizing communication connection further comprises a card pool configuration module for configuring the N card pools; the card pool configuration module specifically comprises:

the card pool setting unit is used for setting N card pools, so that at least one of the user level, the supported network type and the covered communication area which are accorded with each card pool is different;

a card acquisition unit configured to acquire a plurality of SIM cards;

the SIM cards supporting the same user level, the same network system and the same communication area are configured in the corresponding card pool;

or

The card pool configuration module specifically comprises:

the first card pool setting unit is used for setting card pools of different user levels according to a preset user level;

a second card pool setting unit, configured to set card pools of different network systems in each of the card pools of different user levels; setting card pools of different communication areas in each card pool of different network systems to complete the setting of N card pools; or,

setting card pools of different communication areas in each card pool of different user levels, setting card pools of different network standards in each card pool of different communication areas, and completing the setting of N card pools;

a card acquisition unit configured to acquire a plurality of SIM cards;

the card is configured to the card pool unit and is used for configuring the SIM cards supporting the same user level, the same network system or the same communication area to the corresponding card pool.

9. The card-allocating server for implementing communication connection according to claim 8, wherein the user level includes m user levels, and the card pool selection module specifically includes:

a user level selection unit, configured to select one user level from m user levels as a standard user level according to a v (1 … m) algorithm function;

the first card pool selecting unit is used for selecting a card pool meeting the standard user level from N pre-configured card pools according to the standard user level;

a second card pool selecting unit, configured to select, according to the communication area, a card pool capable of supporting the network system from the selected card pools meeting the standard user level;

the third card pool selecting unit is used for selecting a card pool capable of covering the communication area from the selected card pools capable of covering the communication area;

and the fourth card pool selecting unit is used for selecting the card pool with the smallest coverage area from the selected card pools capable of covering the communication area.

10. A card-provisioning service for effecting a communications connection as recited in claim 9, wherein said card requirement value represents a size of a correlation of a SIM card with a communications service;

then, the card requirement value indicating the correlation size of the SIM card with the card number x and the y-th communication service is: weight_y(x)＝f_y(r_y(v(1…m)),c_y(x))；

Wherein f is_yAn algorithmic function serving the y-th communication; r is_y(v (1 … m)) is a user demand parameter on the premise of the yth communication service and a standard user level selected according to the v (1 … m) algorithm function; c. C_y(x) The card condition parameter of the SIM card with the card number of x under the y communication service is shown; the user demand parameter represents a subset of a set of parameters of service content, network signal quality, data traffic, voice duration, and price sensitivity demanded by a user; the card condition parameters represent a subset of a set of parameters of service content, network signal quality, available data traffic limits, available voice duration limits, and card cost price that the SIM card has.

11. The card-provisioning server of claim 9 wherein said v (1 … m) algorithm function selects the highest user level from the m user levels as the standard user level.

12. A card-equipped server for implementing communication connection according to claim 10, wherein the card pool is compatible with a plurality of communication services; the card selection module specifically includes:

the first screening card unit is used for screening out the SIM card supporting the operator from the selected card pool according to the operator to which each selectable network belongs;

an operator confirming unit, configured to determine, according to the operator to which each of the selectable networks belongs and the signal strength, an operator with the strongest signal strength from among the operators that can be supported by the screened SIM card;

the second screening card unit is used for selecting the SIM card supporting the operator with the strongest signal intensity from the screened SIM cards;

a third screening card unit, configured to select, from the selected SIM cards supporting the operator with the strongest signal strength, an SIM card with a highest weight card requirement value as an SIM card with the highest cost performance of communication services; the third filter card unit specifically includes:

a first demand value calculation subunit, configured to calculate, for each selected SIM card supporting the operator with the strongest signal strength, a card demand value of a correlation size between the SIM card and each communication service;

a first weight coefficient acquiring subunit, configured to acquire a weight coefficient of each communication service corresponding to the standard user level;

a first weight calculating subunit, configured to multiply the card requirement value of the correlation size between the SIM card and each communication service by the weight coefficient of the corresponding communication service, and sum the multiplied values to obtain a weight card requirement value of the SIM card;

and the first comparison and selection subunit is used for comparing the weight card required values of all the selected SIM cards supporting the operator with the strongest signal strength, and selecting the SIM card with the highest weight card required value as the SIM card with the highest communication service cost performance.

13. A card-equipped server for implementing communication connection according to claim 10, wherein the card pool is compatible with a plurality of communication services; the card selection module specifically includes:

the optional network determining unit is used for determining the first optional network which can be supported by the selected card pool from the optional networks with the signal intensity from strong to weak;

a fourth card screening unit, configured to screen out, according to the operator to which the first selectable network belongs, an SIM card supporting the operator to which the first selectable network belongs from the selected card pool;

a fifth screening card unit, configured to select, from the screened SIM cards, an SIM card with a highest weight card requirement value as an SIM card with a highest cost performance for communication services; the fifth filter card unit includes:

a second demand value operator unit, configured to calculate, for each SIM card screened out, a card demand value of a size of a correlation between the SIM card and each communication service;

a second weight coefficient obtaining subunit, configured to obtain a weight coefficient of each communication service corresponding to the standard user level;

a second weight calculating subunit, configured to multiply the card requirement value of the correlation size between the SIM card and each communication service by the weight coefficient of the corresponding communication service, and sum the multiplied values to obtain a weight card requirement value of the SIM card;

and the second comparison and selection subunit is used for comparing the weight card required values of all the screened SIM cards, and selecting the SIM card with the highest weight card required value as the SIM card with the highest communication service cost performance.

14. A card-matching service end for implementing communication connection according to claim 13, wherein said card-selecting module further comprises:

a determining unit, configured to determine whether an SIM card of the same operator as an operator to which the selectable network with the strongest signal strength belongs exists in SIM cards configured for the mobile terminal in the selected card pool, when the first selectable network is not the selectable network with the strongest signal strength;

and the recording unit is used for recording the operator to which the selectable network with the strongest signal strength belongs, the signal strength and the communication area to provide a purchasing reference when the SIM card of the same operator to which the selectable network with the strongest signal strength belongs does not exist.