CN110505618A - A kind of method for processing business and server - Google Patents

Abstract

The embodiment provides a kind of method for processing business and servers, it is related to field of communication technology, it solves eSIM management platform in the prior art and receives multiple internet-of-things terminals including identical preset number when the code downloading service that the same time sends is requested, the case where will appear request collision generation, the problem of eSIM, which manages platform, at this time can terminate the code downloading service request of each internet-of-things terminal, influence user experience.This method includes when server determines that synchronization receives the code downloading service request comprising identical preset number that multiple UE are sent, obtaining the EID and operating parameter of each UE；Server determines processing priority according to EID and/or operating parameter；Wherein, processing priority is used to indicate the sequencing of the code downloading service request of server response UE；Server successively responds the code downloading service request of UE according to processing priority.

Description

Service processing method and server

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a service processing method and a server.

Background

At present, mobile communication systems mainly use pluggable Subscriber Identity Modules (SIMs) of 2FF-4FF and other sizes, and with the technical development, the consumer market continuously increases the shipment volume of novel terminal products represented by intelligent wearable equipment, and the number of connections such as vehicle-mounted equipment and industrial internet equipment in the field of internet of things increases rapidly, and higher requirements are put forward on smart cards: smart cards are required to have higher physical and electrical characteristics (e.g., ambient temperature, humidity, etc.); the smart card is required to have a longer service life and higher reliability; the physical connection contacts of the smart card are required to be more reliable and more wear resistant; some application scenarios require that the smart card be capable of remote configuration, remote activation, flexible user identity change over the air interface, etc. Under the push of many demands, GSMA has mainly proposed an embedded SIM card (eSIM) technology system, guiding SIM cards to develop into an electronic form, so as to manage SIM card subscription and use more flexibly, and meet special requirements proposed for terminal size, price, physical/electrical characteristics and the like in some application scenarios and use environments.

Over the past two years, there has been a significant development of the global eSIM ecosystem. The types of businesses involved in the development of the eSIM industry are more widespread. The fields of car networking, consumer electronics, industrial internet and machine-to-machine (M2M) are becoming the hot industry for the development of esims, and all mobile industry stakeholders are strongly supporting technology development and pushing a series of commercial products and solutions to meet the early market demand of esims. In the prior art, due to the shortage of number resources, an operator can allocate the same preset number to a plurality of internet of things terminals (for example, the operator can allocate the same preset number to each automobile with the same brand and the same model in the internet of vehicles); therefore, when the eSIM management platform receives a number download service request sent by a plurality of internet of things terminals with the same preset number at the same time, a request conflict occurs, and at this time, the eSIM management platform may terminate the number download service request of each internet of things terminal, which affects user experience.

According to the scheme, in the prior art, when an eSIM management platform receives a code number downloading service request sent by a plurality of Internet of things terminals with the same preset number at the same time, a request conflict occurs, and at the moment, the eSIM management platform can terminate the code number downloading service request of each Internet of things terminal, so that the user experience is influenced.

Disclosure of Invention

The embodiment of the invention provides a service processing method and a server, which solve the problems that in the prior art, when an eSIM management platform receives code number downloading service requests sent by a plurality of Internet of things terminals comprising the same preset number at the same time, request conflict occurs, and at the moment, the eSIM management platform terminates the code number downloading service requests of all the Internet of things terminals and influences user experience.

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

in a first aspect, an embodiment of the present invention provides a service processing method, including: the method comprises the steps that when a server determines that code number downloading service requests containing the same preset number and sent by a plurality of UE are received at the same time, the EID and the operation parameters of each UE are obtained; the server determines a processing priority according to the EID and/or the operation parameters; the processing priority is used for indicating the sequence of the server responding to the code number downloading service request of the UE; and the server responds to the code number downloading service request of the UE in sequence according to the processing priority.

According to the scheme, when the server is the eSIM management platform, the eSIM management platform receives code number downloading service requests sent by a plurality of terminals of the Internet of things with the same preset number at the same time, acquires the EID and the operation parameters of each UE, and determines the processing priority according to the EID and/or the operation parameters, so that the eSIM management platform can determine the sequence of responding to the code number downloading service requests of the UE, and sequentially responds to the code number downloading service requests of the UE according to the processing priority, thereby solving the problem that the request conflict occurs when the eSIM management platform receives the code number downloading service requests sent by the plurality of terminals of the Internet of things with the same preset number at the same time, and at the moment, the eSIM management platform can terminate the code number downloading service requests of each terminal and influence the user experience.

In a second aspect, an embodiment of the present invention provides a server, including: the acquiring unit is used for acquiring the EID and the operation parameters of each UE when the processing unit determines that the code number downloading service requests containing the same preset number and sent by a plurality of UEs are received at the same time; the processing unit is also used for determining the processing priority according to the EID acquired by the acquisition unit and/or the operation parameters acquired by the acquisition unit; the processing priority is used for indicating the sequence of the server responding to the code number downloading service request of the UE; and the processing unit is also used for sequentially responding to the code number downloading service request of the UE according to the processing priority.

In a third aspect, an embodiment of the present invention provides a server, including: communication interface, processor, memory, bus; the memory is used for storing computer-executable instructions, the processor is connected with the memory through the bus, and when the server runs, the processor executes the computer-executable instructions stored in the memory so as to enable the server to execute the method provided by the first aspect.

In a fourth aspect, an embodiment of the present invention provides a computer storage medium comprising instructions which, when run on a computer, cause the computer to perform the method as provided in the first aspect above.

It can be understood that any one of the servers provided above is configured to execute the method according to the first aspect provided above, and therefore, the beneficial effects that can be achieved by the server refer to the beneficial effects of the method according to the first aspect and the solutions in the following detailed description, which are not described herein again.

Drawings

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

FIG. 1 is a schematic diagram of a module logic function architecture of an eSIM function module in the prior art;

FIG. 2 is a diagram illustrating a prior art remote configuration architecture for eSIM;

FIG. 3 is a schematic diagram of a business process of a class A module in the prior art;

FIG. 4 is a second schematic diagram illustrating a business process of a B-type module in the prior art;

fig. 5 is a flowchart illustrating a service processing method according to an embodiment of the present invention;

fig. 6 is a second schematic flowchart of a service processing method according to an embodiment of the present invention;

fig. 7 is a third schematic flowchart of a service processing method according to an embodiment of the present invention;

fig. 8 is a fourth schematic flowchart of a service processing method according to an embodiment of the present invention;

fig. 9 is a fifth flowchart illustrating a service processing method according to an embodiment of the present invention;

fig. 10 is a sixth schematic flowchart of a service processing method according to an embodiment of the present invention;

fig. 11 is a seventh schematic flowchart of a service processing method according to an embodiment of the present invention;

FIG. 12 is a schematic structural diagram of a server according to an embodiment of the present invention;

fig. 13 is a second schematic structural diagram of a server according to an embodiment of the present invention.

Reference numerals:

a server-10;

an acquisition unit-101; a processing unit-102.

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.

For the convenience of clearly describing the technical solutions of the embodiments of the present invention, in the embodiments of the present invention, the words "first", "second", and the like are used for distinguishing the same items or similar items with basically the same functions and actions, and those skilled in the art can understand that the words "first", "second", and the like are not limited in number or execution order.

In the embodiments of the present invention, words such as "exemplary" or "for example" are used to mean serving as examples, illustrations or descriptions. Any embodiment or design described as "exemplary" or "e.g.," an embodiment of the present invention is not necessarily to be construed as preferred or advantageous over other embodiments or designs. Rather, use of the word "exemplary" or "such as" is intended to present concepts related in a concrete fashion.

In the description of the embodiments of the present invention, the meaning of "a plurality" means two or more unless otherwise specified. For example, a plurality of networks refers to two or more networks.

The term "and/or" herein is merely an association describing an associated object, meaning that three relationships may exist, e.g., a and/or B, may mean: a exists alone, A and B exist simultaneously, and B exists alone. The symbol "/" herein denotes a relationship in which the associated object is or, for example, a/B denotes a or B.

The eSIM function module shown in fig. 1 is composed of a communication function module, a Local Profile access agent (LPA) function module, other function modules, and an embedded universal integrated Circuit Card (eUICC) module. Wherein the functions of each part are as follows: communication function: the data transmission is carried out over the air; the LPA function: the LPA is responsible for functions of downloading the file Profile, managing the state, inquiring information and the like; other functions are as follows: according to different application scenes and service requirements of the module, other functions possibly supported by the module, such as a positioning function and the like; a UICC module: and the user identity identification module is responsible for network access authentication.

Fig. 2 is a schematic diagram of a remote configuration architecture for esims, including: a code number management system, an eSIM management platform (SM-DP), a Mobile Network Operator (MNO), a communication module, an eUICC manufacturer (EUM), and certificate authentication (corporation identity, CI); the SM-DP is responsible for generating, storing, protecting, transmitting and binding the Profile Package; specifically, the SM-DP should obtain the necessary tools or services needed to program the eUICC from the eUICC Manufacturer (EUM), and then the SM-DP should obtain input data from the MNO that will be used to create the profile (or profiles) for the target eUICC; the communication module comprises an LPA and an eUICC, wherein the LPA is responsible for local Profile downloading, a main terminal or an eSIM service acceptance and download trigger server to provide a user interface and a code number order; the LPA at least comprises an LPD (local Profile download) and an LUI (local User interface), wherein the LPD is used as a proxy between the eUICC and the eSIM management platform, acquires a Profile data packet from the SM-DP and transfers the Profile data packet to the eUICC, and the LUI is used for providing functions of Profile management for a User, and comprises activation, deactivation, deletion and the like of the Profile.

According to different download triggering modes of the eSIM profile, the eSIM module can be divided into two types: the terminal of the Internet of things module is in an unattended state for most of time, so that the profile downloading is mainly carried out in a push mode of passively receiving remote management; the method is applied to modules in human-computer interaction scenes such as the Internet of vehicles and the like, wherein a terminal of the module is usually used by a user, or a main terminal (a mobile phone, a Personal Computer (PC), a tablet personal computer (Pad) and the like) is matched in a business process, and the intention and the requirement of the user need to be respected in a business mode, so that a pull mode in which the user actively applies for remote management is taken as a main mode for downloading the profile. The service fields and service modes corresponding to the two profile download triggering modes are greatly different, so that the eSIM modules are divided into two types by the white paper of the technology, and the corresponding eSIM service flows and the technical requirements are discussed respectively:

1. the class-A module downloads profile in a push mode as shown in FIG. 3, and is mainly applied to the field of low-power-consumption wide-area Internet of things.

2. The type B module downloads profile in a pull mode as shown in FIG. 4, and is mainly applied to the field of intelligent interconnection such as Internet of vehicles.

Wherein, fig. 3 is a class a module code number downloading flow, the industry terminal works in an unattended state for a long time, and the code number downloading cannot be triggered by the user, so that the eSIM service is required to be accepted and the download trigger server triggers the module to download the profile, and the specific flow is as follows:

1. and (3) business handling: and the industry user is connected to the related service system of the communication through the eSIM service acceptance and download trigger server to conduct service handling.

2. And (3) generating Profile: and after the business is successfully transacted, the eSIM management platform generates the profile.

3. Synchronization of code number ordering information: and the service system synchronizes the subscription information to the eSIM service acceptance and download trigger server.

4. Service subscription information query: after the module is started, the module is periodically and automatically connected to an eSIM service acceptance and download trigger server, and whether service order information exists is inquired through an Electronic Identity (EID).

5. profile download trigger: the eSIM service acceptance and download triggering server informs the address of the eSIM management platform to the module and triggers the module to download the profile.

6. profile download: and the module is connected to the eSIM management platform to download the profile.

The eSIM service acceptance and download triggering server is mainly used for service order initiation and triggering the A-type module to be connected to an eSIM management platform for code number download, and has the following specific functions: service subscription initiation function: the system is responsible for connecting to a China Unicom related service system and ordering the service; order information synchronization function: synchronizing order data through an order synchronization interface, wherein the synchronization data comprise an EID (electronic identification device), an International Mobile Equipment Identity (IMEI), an activation code and order time; the downloading triggering function: providing an eSIM query, trigger and download interface based on a hypertext transfer protocol (HTTP)/Transmission Control Protocol (TCP)/User Datagram Protocol (UDP) for the module, and recording a download process log and a download result; management and configuration functions: basic configuration management, log query, order record, download record.

Fig. 4 shows a reference process for downloading the class B module number, which may be different according to different implementations. The module is a 'dumb terminal' without a man-machine interaction interface, so that a main terminal is required to display a management interface for a user and provide network connection for the module to download the profile, the main terminal can be a smart phone, a tablet personal computer and the like, is provided with a corresponding application program, is matched with the LPA at the module side, is connected to a communication service system to order the code number, and triggers the module to complete code number downloading. The B-type specific service process comprises the following steps:

1. pairing the main terminal: the module pairs with main terminal, and communication module such as bluetooth, wireless fidelity (WIFI) at the terminal of accessible module place pairs with main terminal.

2. Obtaining an EID: and the main terminal acquires the EID from the module for profile ordering and querying.

3. And returning to EID: the module returns the EID to the master terminal.

4. eSIM service transaction: the main terminal is connected to the communication service system through a service acceptance entrance such as a mobile phone business hall and the like to order a code number; and if the business handling is offline, the main terminal inquires whether the module has the profile to be downloaded or not from the eSIM management platform through the EID.

5. Generating profile: and after the service subscription is successful, the eSIM management platform generates a profile.

6. And (4) notifying the success of business transaction: the Unicom service system informs the main terminal of successful service transaction.

7. Issuing an address of an eSIM management platform: the main terminal informs the module of the address of the eSIM management platform.

8. profile download trigger: the main terminal triggers the module to download the profile, or triggers the module to download the profile by the mobile phone software (APP) of the terminal where the module is located.

9. profile download: the module is connected to the eSIM management platform through the main terminal to download the profile.

Some terms used in this disclosure have their ordinary and customary meaning in the industry. In addition, some terms will be explained when appearing in the present specification. It is to be understood that several terms specifically used herein may be helpful. When referring to eSIM _ i, an ith eSIM end user; when the condition that the eSIM _ i _ j _ k indicates that the ith eSIM terminal user uses the preset number with the number k for the jth time to carry out service request is mentioned; when the Level _ i is mentioned, the EID of the eSIM terminal used for storing the ith use of the preset number is stored; when the Service _ i is mentioned to represent the EID used for storing the eSIM terminals with different application Service types; when the QoS _ i is referred to be in the same Service set, the QoS _ i is used for storing EIDs of eSIM terminals with different Service levels; when reference is made to M, N as thresholds for performing traffic class classification, respectively; when SINR _ QoSi _ j is mentioned to represent SINR of jth eSIM terminal in QoS set i; when referring to RSRP _ QoSi _ j, the RSRP of the jth eSIM terminal in QoS set i is represented; when referring to TH _ SINR, the user snr threshold is indicated.

The User Equipment (UE) in the embodiment of the present invention may be an intelligent mobile terminal, and the UE is provided with an eSIM function module as shown in fig. 1, and is suitable for use in a remote configuration architecture as shown in fig. 2. The intelligent mobile terminal is a mobile terminal with an operating system. The intelligent mobile terminal can be: the smart mobile terminal may be a terminal device such as a smart phone, a tablet computer, a notebook computer, an ultra-mobile personal computer (UMPC), a netbook, a Personal Digital Assistant (PDA), a smart watch, and a smart bracelet, or the smart mobile terminal may be another type of smart mobile terminal, and embodiments of the present invention are not limited in particular.

The case of using the preset number in the actual application is classified into several types: 1. the method comprises the steps that an Internet of things terminal (such as a smoke alarm) which cannot perform man-machine interaction does not have communication modes such as wifi and Bluetooth, and a code number downloading request is performed on an eSIM management platform through a preset number; 2. the internet of things terminal which can not carry out man-machine interaction does not have communication modes such as wifi and Bluetooth, the problem occurs to the formal esim code number which is used currently, and the code number needs to be downloaded by the reconnection platform through the preset code number. As can be seen from fig. 3 and 4, no matter the UE downloads the profile in the a-type module manner or the UE downloads the profile in the B-type module manner, when the eSIM management platform receives a number download service request sent by multiple internet of things terminals including the same preset number at the same time, a request conflict occurs, and at this time, the eSIM management platform terminates the number download service request of each internet of things terminal, which affects user experience; therefore, in order to solve the above problem, the service processing method provided in the embodiments of the present invention performs priority ordering on the number download service requests, thereby solving the problem of download conflict and ensuring user experience; exemplarily, a UE is taken as an eSIM terminal for explanation, and a specific implementation process is as follows;

example one

An embodiment of the present invention provides a service processing method, as shown in fig. 5, including;

s101, when the server determines that a number downloading service request containing the same preset number and sent by a plurality of UE is received at the same time, the server acquires the EID and the operation parameters of each UE.

In an actual application, before the server performs S101, the server performs S101 only when the server receives a number download service request containing the same preset number, which is sent by a plurality of UEs at the same time.

S102, the server determines a processing priority according to the EID and/or the operation parameters; the processing priority is used for indicating the sequence of the server responding to the code number downloading service request of the UE.

It should be noted that, in practical applications, each preset number preset in the UE may be the same or different, and the EID of each UE is different; illustratively, for example, the preset number of the UE1 is k, the EID is X1, the preset number of the UE1 is k, the EID is X2, and X1 is not equal to X2; at this time, the UE1 and the UE2 have the same preset number k, and the EID of the UE1 is different from that of the UE 2.

Because the EID of each UE is different, and the preset numbers between different UEs may be the same or different; thus, the server determines a processing priority based on the EID and/or the operational parameters, including:

and the server sequences the EIDs of the UE according to the sequence from large to small, and responds to the code number downloading service requests of the UE in sequence according to the sequence from large to small.

Or,

and the server sequences the EIDs of the UE according to the sequence from small to large and responds to the code number downloading service requests of the UE in sequence according to the sequence from small to large.

Optionally, the operation parameter includes a number of times of repetition of a request for transmitting a code number download service by the UE; the server determines the processing priority according to the EID and/or the operating parameters, as shown in fig. 6 and 7, including:

s1020, the server determines the processing priority according to the repetition times.

Specifically, the server determines the processing priority according to the repetition times, and the determining includes:

the server determines that each eSIM terminal uses the preset number for the second time (namely, the number of times of repetition of the number downloading service request sent by the eSIM terminal to the server), and then the server puts the eSIM terminals with the same number of times of repetition into the same set Level _ i; each repetition time corresponds to a processing priority, the processing priorities of the eSIM terminals in the same set are the same, and the repetition times are in direct proportion to the processing priorities (i.e., the larger the repetition times, the higher the processing priority, the shorter the processing period of the server responding to the code number download service request is, the higher the processing priority is (it can be ensured that the eSIM terminal which sends the request for many times obtains the response of the server to the code number download service request as soon as possible, thereby ensuring the user experience)).

It should be noted that, when each set only includes 1 eSIM terminal, the sequence of the code number download service requests of the responding eSIM terminals can be determined only according to the number of repetitions at this time; when a plurality of (greater than or equal to two) eSIM terminals exist in any one set, when responding to the eSIM terminals in the set, the sequence of downloading the service requests of the code numbers of the responding eSIM terminals in the set needs to be determined according to S1021.

Or,

and S1021, the server determines the processing priority according to the repetition times and the EID.

It should be noted that, when a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i determined according to the same repetition times, the EIDs may be sequentially arranged in the order from small to large when responding to the eSIM terminals in the set, and the order of downloading the service requests of the code numbers of the eSIM terminals may be sequentially responded in the order from small to large; or, when there are multiple (greater than or equal to two) eSIM terminals in any set Level _ i, when responding to the eSIM terminals in the set, the EIDs may be sequentially arranged in the order from large to small, and the sequence of downloading service requests of the code numbers of the eSIM terminals may be sequentially responded in the order from large to small; or, when there are multiple (greater than or equal to two) eSIM terminals in any set Level _ i, when responding to the eSIM terminals in the set, sequentially arranging the EIDs according to the sequence of the request time for the eSIM terminal to first send a code number download service request, and sequentially responding to the code number download service request of the eSIM terminal according to the sequence of the arranged EIDs.

Optionally, the operation parameter further includes a service type, and the service type includes an internet of vehicles service and an industrial internet service; the server determines the processing priority according to the EID and/or the operating parameters, as shown in fig. 8 and 9, including:

and S1022, the server determines the processing priority according to the repetition times and the service types.

It should be noted that when a plurality of (greater than or equal to two) eSIM terminals exist in a set Level _ i determined according to the same repetition number, when responding to an eSIM terminal in the set, eSIM terminals of the same service type may be placed in the same set Level _ i' according to the service type requested by each eSIM terminal in the set; wherein each service type corresponds to a processing priority.

For example, assume that the traffic types include vehicle networking traffic, industrial internet traffic, and utility traffic; the processing priority of the Internet of vehicles service is highest, the processing priority of the industrial Internet service is next to the processing priority of the industrial Internet service, and the processing priority of the public service is lowest; therefore, the processing priority corresponding to each service type can be determined according to the service type requested by each eSIM terminal, and then the service requests are downloaded sequentially in response to the code number of each eSIM terminal in Level _ i' according to the arrangement sequence of the processing priorities.

Or,

s1023, the server determines the processing priority according to the repetition times, the service type and the EID.

It should be noted that, when a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i determined according to the same repetition times and a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i' determined according to the same service type, EIDs may be sequentially arranged from small to large, and the sequence of downloading service requests may be sequentially responded to the code numbers of the eSIM terminals from small to large; or, when there are multiple (greater than or equal to two) eSIM terminals in any set Level _ i, when responding to the eSIM terminals in the set, the EIDs may be sequentially arranged in the order from large to small, and the sequence of downloading service requests of the code numbers of the eSIM terminals may be sequentially responded in the order from large to small; or, when there are multiple (greater than or equal to two) eSIM terminals in any set Level _ i, when responding to the eSIM terminals in the set, sequentially arranging the EIDs according to the sequence of the request time for the eSIM terminal to first send a code number download service request, and sequentially responding to the code number download service request of the eSIM terminal according to the sequence of the arranged EIDs.

Optionally, the operation parameters further include a delay indicator and an SINR value; the server determines the processing priority according to the EID and/or the operation parameters, as shown in fig. 10 and 11, including:

and S1024, the server determines the processing priority according to the repetition times, the service type and the time delay index.

It should be noted that, when a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i determined according to the same repetition number and a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i' determined according to the same service type, the processing priority may be determined according to a delay index of the service type requested by each eSIM terminal; if the Delay index Delay is less than or equal to M, the processing priority is highest; when M is less than Delay and less than or equal to N, processing the priority level; when Delay is greater than N, the processing priority is lowest; therefore, the processing priority corresponding to each delay index can be determined according to the delay index of the service type requested by each eSIM terminal, and then the service requests are downloaded by sequentially responding to the code numbers of each eSIM terminal in the Level _ i' according to the arrangement sequence of the processing priorities.

Or,

s1025, the server determines the processing priority according to the repetition times, the service type, the time delay index and the SINR value.

It should be noted that, when a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i determined according to the same repetition times, a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i' determined according to the same service type, and a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i ″ determined according to the same delay index, the SINR values may be sequentially arranged in a sequence from small to large, and a sequence of downloading service requests may be sequentially responded to code numbers of the eSIM terminals in a sequence from small to large; or, when a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i determined according to the same repetition times, a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i' determined according to the same service type, and a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i "determined according to the same delay index, the SINR values may be sequentially arranged in a descending order, and the sequence of downloading service requests may be sequentially responded to the code numbers of the eSIM terminals in a descending order; or, when a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i determined according to the same repetition times, a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i' determined according to the same service type, and a plurality of (greater than or equal to two) eSIM terminals exist in the set Level _ i "determined according to the same delay index, the EIDs may be sequentially arranged according to the sequence of the request time for the eSIM terminals to first send the code number download service requests, and the code number download service requests of the eSIM terminals may be sequentially responded according to the sequence of the arranged EIDs.

Specifically, in the set Level _ i ", the set Level _ i" is divided into a set a and a set B by taking TH _ SINR as a boundary:

set a ≧ SINR _ QoSi _ j ≧ TH _ SINR | EID1, EID 2.

Set B ═ SINR _ QoSi _ j < TH _ SINR | EID1, EID 2.

And sequentially responding the code number downloading service requests of the eSIM terminals in the Level _ i' set, and sequentially responding the code number downloading service requests of the eSIM terminals in the set B after the code number downloading service requests of the eSIM terminals in the set A are completely responded.

TABLE 1 processing priority lists

Specifically, the server may determine that the processing of each eSIM terminal has a priority in a manner of looking up table 1 according to the EID and the operating parameter of the terminal, and sequentially respond to the code number download service request of the UE according to the processing priority; wherein A, B, C and D are both integers greater than 0.

S103, the server responds to the code number downloading service request of the UE in sequence according to the processing priority.

Specifically, in practical application, each processing priority includes at least one eSIM terminal, and therefore, the server needs to sequentially respond to the code number downloading service requests of the UE according to the processing priority of each eSIM terminal in each processing priority, so as to ensure that when receiving the code number downloading service requests sent by a plurality of internet of things terminals including the same preset number at the same time, the server always only responds to the code number downloading service request of one eSIM terminal at the same time, and ensure user experience.

According to the scheme, when the server is the eSIM management platform, the eSIM management platform receives code number downloading service requests sent by a plurality of terminals of the Internet of things with the same preset number at the same time, acquires the EID and the operation parameters of each UE, and determines the processing priority according to the EID and/or the operation parameters, so that the eSIM management platform can determine the sequence of responding to the code number downloading service requests of the UE, and sequentially responds to the code number downloading service requests of the UE according to the processing priority, thereby solving the problem that the request conflict occurs when the eSIM management platform receives the code number downloading service requests sent by the plurality of terminals of the Internet of things with the same preset number at the same time, and at the moment, the eSIM management platform can terminate the code number downloading service requests of each terminal and influence the user experience.

Example two

An embodiment of the present invention provides a server 10, as shown in fig. 12, including:

an obtaining unit 101, configured to, when the processing unit 102 determines that a number download service request including the same preset number and sent by multiple UEs is received at the same time, obtain an EID and an operation parameter of each UE.

The processing unit 102 is further configured to determine a processing priority according to the EID acquired by the acquiring unit 101 and/or the operation parameter acquired by the acquiring unit 101; the processing priority is used for indicating the sequence of the server responding to the code number downloading service request of the UE.

The processing unit 102 is further configured to sequentially respond to the code number download service request of the UE according to the processing priority.

Optionally, the operation parameter includes a number of times of repetition of a request for transmitting a code number download service by the UE; a processing unit 102, configured to determine a processing priority according to the number of repetitions acquired by the acquiring unit 101; alternatively, the processing unit 102 is specifically configured to determine the processing priority according to the number of repetitions acquired by the acquiring unit 101 and the EID acquired by the acquiring unit 101.

Optionally, the operation parameter further includes a service type, and the service type includes an internet of vehicles service and an industrial internet service; a processing unit 102, configured to determine a processing priority according to the number of repetitions obtained by the obtaining unit 101 and the service type obtained by the obtaining unit 101; or, the processing unit 102 is specifically configured to determine the processing priority according to the number of repetitions acquired by the acquiring unit 101, the service type acquired by the acquiring unit 101, and the EID acquired by the acquiring unit 101.

Optionally, the operation parameters further include a delay indicator and an SINR value; the processing unit 102 is specifically configured to determine a processing priority according to the number of repetitions obtained by the obtaining unit 101, the service type obtained by the obtaining unit 101, and the delay indicator obtained by the obtaining unit 101; or, the processing unit 102 is specifically configured to determine a processing priority according to the number of repetitions acquired by the acquiring unit 101, the service type acquired by the acquiring unit 101, the delay indicator acquired by the acquiring unit 101, and the SINR value acquired by the acquiring unit 101.

All relevant contents of each step related to the above method embodiment may be referred to the functional description of the corresponding functional module, and the function thereof is not described herein again.

In the case of integrated modules, the server 10 comprises: the device comprises a storage unit, a processing unit and an acquisition unit. A processing unit for performing control management on the actions of the server, for example, the processing unit is used for supporting the server to execute the processes S101, S102 and S103 in fig. 5; the acquisition unit is used for supporting information interaction between the server and other equipment. And a storage unit for storing the program codes and data of the server.

For example, the processing unit is a processor, the storage unit is a memory, and the obtaining unit is a communication interface. The server shown in fig. 13 includes a communication interface 501, a processor 502, a memory 503, and a bus 504, and the communication interface 501 and the processor 502 are connected to the memory 503 through the bus 504.

The processor 502 may be a general-purpose Central Processing Unit (CPU), a microprocessor, an Application-Specific Integrated Circuit (ASIC), or one or more Integrated circuits configured to control the execution of programs in accordance with the teachings of the present disclosure.

The Memory 503 may be a Read-Only Memory (ROM) or other type of static storage device that can store static information and instructions, a Random Access Memory (RAM) or other type of dynamic storage device that can store information and instructions, an electrically erasable Programmable Read-Only Memory (EEPROM), a Compact Disc Read-Only Memory (CD-ROM) or other optical Disc storage, optical Disc storage (including Compact Disc, laser Disc, optical Disc, digital versatile Disc, blu-ray Disc, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, but is not limited to these. The memory may be self-contained and coupled to the processor via a bus. The memory may also be integral to the processor.

The memory 503 is used for storing application program codes for executing the scheme of the application, and the processor 502 controls the execution. The communication interface 501 is used for information interaction with other devices, for example, with a remote controller. The processor 502 is configured to execute application program code stored in the memory 503 to implement the methods described in the embodiments of the present application.

Further, a computing storage medium (or media) is also provided, comprising instructions which, when executed, perform the method operations performed by the server in the above embodiments. Additionally, a computer program product is also provided, comprising the above-described computing storage medium (or media).

It should be understood that, in various embodiments of the present invention, the sequence numbers of the above-mentioned processes do not mean the execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation on the implementation process of the embodiments of the present invention.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus, and method may be implemented in other ways. For example, the above-described device embodiments are merely illustrative, and for example, the division of the units is only one logical functional division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U disk, a removable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

It can be understood that any one of the servers provided above is used to execute a corresponding method of the embodiments provided above, and therefore, the beneficial effects that can be achieved by the server can refer to the beneficial effects of the method of the first embodiment above and the corresponding scheme in the following detailed description, and are not described again here.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. A method for processing a service, comprising:

the method comprises the steps that when a server determines that code number downloading service requests containing the same preset number and sent by a plurality of UE are received at the same time, the EID and the operation parameters of each UE are obtained;

the server determines a processing priority according to the EID and/or the operation parameters; the processing priority is used for indicating the sequence of the server responding to the code number downloading service request of the UE;

and the server sequentially responds to the code number downloading service request of the UE according to the processing priority.

2. The traffic processing method according to claim 1, wherein the operation parameter includes a number of repetitions of the UE sending a code number download traffic request;

the server determines a processing priority according to the EID and/or the operation parameter, including:

the server determines a processing priority according to the repetition times;

or,

and the server determines the processing priority according to the repetition times and the EID.

3. The traffic processing method according to claim 2, wherein the operation parameters further include traffic types, the traffic types including car networking traffic and industrial internet traffic;

the server determines a processing priority according to the EID and/or the operation parameter, including:

the server determines a processing priority according to the repetition times and the service type;

or,

and the server determines the processing priority according to the repetition times, the service type and the EID.

4. The traffic processing method according to claim 3, wherein the operation parameters further include a delay indicator and an SINR value;

the server determines a processing priority according to the EID and/or the operation parameter, including: the method comprises the following steps:

the server determines a processing priority according to the repetition times, the service type and the time delay index;

or,

and the server determines the processing priority according to the repetition times, the service type, the time delay index and the SINR value.

5. A server, comprising:

the acquiring unit is used for acquiring the EID and the operation parameters of each UE when the processing unit determines that a code number downloading service request containing the same preset number and sent by a plurality of UEs is received at the same time;

the processing unit is further configured to determine a processing priority according to the EID acquired by the acquiring unit and/or the operating parameter acquired by the acquiring unit; the processing priority is used for indicating the sequence of the server responding to the code number downloading service request of the UE;

and the processing unit is further configured to sequentially respond to the code number downloading service request of the UE according to the processing priority.

6. The server according to claim 5, wherein the operation parameter includes a number of repetitions of the UE sending a code number download service request;

the processing unit is specifically configured to determine a processing priority according to the repetition times acquired by the acquiring unit;

or,

the processing unit is specifically configured to determine a processing priority according to the repetition times acquired by the acquiring unit and the EID acquired by the acquiring unit.

7. The server of claim 6, wherein the operational parameters further comprise traffic types, the traffic types comprising Internet of vehicles traffic and Internet of industry traffic;

the processing unit is specifically configured to determine a processing priority according to the number of repetitions obtained by the obtaining unit and the service type obtained by the obtaining unit;

or,

the processing unit is specifically configured to determine a processing priority according to the number of repetitions obtained by the obtaining unit, the service type obtained by the obtaining unit, and the EID obtained by the obtaining unit.

8. The server of claim 7, wherein the operational parameters further include a delay indicator and a SINR value;

the processing unit is specifically configured to determine a processing priority according to the repetition times acquired by the acquiring unit, the service type acquired by the acquiring unit, and the delay indicator acquired by the acquiring unit;

or,

the processing unit is specifically configured to determine a processing priority according to the repetition number obtained by the obtaining unit, the service type obtained by the obtaining unit, the delay indicator obtained by the obtaining unit, and the SINR value obtained by the obtaining unit.

9. A computer storage medium comprising instructions which, when run on a computer, cause the computer to perform the business process method of any one of claims 1-4 above.

10. A server, comprising: communication interface, processor, memory, bus; the memory is used for storing computer execution instructions, the processor is connected with the memory through the bus, and when the server runs, the processor executes the computer execution instructions stored in the memory so as to enable the server to execute the business processing method according to any one of the claims 1-4.