WO2014134907A1 - Recharge card management, recharge system and method thereof - Google Patents

Abstract

Disclosed are a recharge card management, recharge system and method thereof, the system comprising: an interface information processing module (10), an offline management module (20), an online recharge module (30), and a WEB server (40). The method comprises the following steps: receiving an issuing instruction; the offline management module (20) conducts an issuing operation on an unissued recharge card, and converts the issued recharge card to an issued state; receiving a recharge instruction, and the online recharge module (30) recharges the issued recharge card. The present invention improves the recharge efficiency and success rate, and effectively avoids the competition for system resource, thus ensuring stable recharge card management and efficient recharge.

Description

 Recharge card management and recharge system and method

TECHNICAL FIELD The present invention relates to the field of recharge card management and recharging, and in particular, to a recharge card management and refill system and method. BACKGROUND OF THE INVENTION A recharge center (Voucher Center, referred to as VC) stores recharge card resources, providing users with convenient recharge methods. In the prior art, a set of recharge center needs to be responsible for the management of the recharge card, and also needs to provide the user's recharge service, which is mainly divided into two major functional modules: a recharge card resource management module and a recharge module. Through these two main modules, the recharge center completes the purpose of providing users with efficient and stable recharge services. The recharge card resource management module is mainly responsible for generating recharge cards and recharge card lifecycle management, which involves management operations such as creating, issuing, blocking, unlocking, and recycling, and the recharge module is mainly responsible for providing external recharge access services and responding to user recharge. request. The CPU and 10 resources required for all operations of the two modules come from the same recharge center. In a commercial environment with small data volume and low recharge performance requirements, management and recharge can be deployed on a set of hardware devices. The impact between the two is relatively small, and it is within the performance security range of the system design. The center can meet the requirements of commercial use. However, when the recharge card reaches 80 million and the response to the recharge request is 80 caps (Call Attempts Per Second), the pressure in the recharge center is too large and is no longer within the performance safety range of the system. Stable and efficient recharge service. Because the larger the number of recharge cards means that the time to create, issue, delete, and query a recharge card becomes longer. To meet the higher recharge request response, the recharge will inevitably be in the same recharge center with card management. Contention of system resources makes card management and recharge have higher resource waiting conditions. At this time, the recharge card management operation time becomes longer, the stability becomes worse, and the recharge success rate is greatly reduced. In order to solve the problem of two modules competing for resources, the existing method is to linearly expand the recharge system according to the capacity of the recharge card, and then establish one or more recharge centers. After the expansion of the new recharge center, the resources will be re-added according to the recharge card number. Plan to distribute the recharge card number segments roughly equally to each recharge center. Through this linear expansion method, it seems that the storage capacity and recharge pressure of a single recharge center can be reduced, but in fact, there are still two outstanding problems: First, the card management and recharge functions of the recharge center are still together. The phenomenon of grabbing resources cannot be avoided. When the system encounters peak recharge or recharge activities, there is still a problem of slow recharge response and long card management time. Secondly, the recharge card is equally distributed to multiple recharge centers according to the number of resources, but the actual recharge request is irregular. In the case where all the recharge requests of a certain second point to the same recharge center, the system pressure of the single recharge center is increased. SUMMARY OF THE INVENTION The main object of the present invention is to implement a recharge card management and refill system and method for off-line management and online recharge, to realize mass storage of recharge cards in a single recharge center, improve recharge efficiency and success rate, and recharge cards can be offlinely managed. Maintenance does not affect its recharge business. The present invention provides a recharge card management and refilling system, comprising: an interface information processing module, configured to process information between interfaces, responsible for verifying the legality of the information and transmitting the verification information after it is legal; an offline management module, The interface information processing module is configured to manage the offline service of the recharge card and store the logic data of the recharge card of all states; the online recharge module, the interface information processing module, is configured to manage the online service of the recharge card, and The logical data of the recharge card in the released state is stored; the WEB server, the connection interface information processing module and the offline management module manage the user rights, the offline of the recharge card and the online service through the WEB server. Preferably, the offline management module and the online recharge module are separately configured. Preferably, the offline management module and the online recharge module are independently disposed on different physical devices. Preferably, the offline management module further comprises: an offline synchronization management module, configured to synchronize the logical data real-time/timing of the recharge card in the issued state to the online recharge module. Preferably, the online recharge module further comprises: an online synchronization management module, configured to synchronize the logical data real-time/timing of the recharge card in the used state to the offline management module. The invention also provides a method for managing and recharging a recharge card, comprising the steps of: receiving a issuance instruction, the offline management module issuing a recharge card in an unreleased state, converting the recharged card after the issuance into an issued state, and synchronizing the output has been The logic data of the recharge card in the release status is stored and stored; receiving the recharge command, the online recharge module recharges the recharge card in the issued state, converts the recharged recharge card to the used state, and synchronously outputs the recharged value of the used state. The card's logical data is stored and stored. Preferably, the method further comprises the step of: real-time/timing detecting whether there is logical data of the recharge card of the issued state, if present, synchronizing to the online recharge module and storing. Preferably, the method further comprises the step of: real-time/timing detecting whether there is logical data of the recharge card of the used state, if present, synchronizing to the offline management module and storing. Preferably, after synchronizing the logical data of the recharge card of the used state to the offline management module, the method further comprises: deleting the logical data of the recharge card of the used state. Preferably, the method further comprises the steps of: creating logical data of the unsold state recharge card and storing it. By separately deploying off-line management and online recharge, the present invention enables off-line management of recharge cards and online recharge of exclusive resources, increases the storage capacity of a single recharge center, improves the efficiency and success rate of recharge, and the recharge card can be managed offline. Maintenance does not affect its recharge business, effectively avoiding the contention of the system resources, ensuring stable recharge card management and efficient recharge. BRIEF DESCRIPTION OF THE DRAWINGS The implementation, features, and advantages of the objectives of the present invention will be further described in conjunction with the embodiments. 1 is a schematic structural diagram of a recharge card management and refill system according to the present invention; FIG. 2 is a flowchart of an embodiment of a recharge card management and recharge method according to the present invention; and FIG. 3 is another embodiment of the recharge card management and recharge method of the present invention. flow chart. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The technical solutions of the present invention will be further described below in conjunction with the drawings and specific embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. 1 is a schematic structural diagram of a recharge card management and refill system according to the present invention. The present invention provides a recharge card management and refill system. As shown in FIG. 1, the system includes: an interface information processing module 10, configured to process The information between the interfaces is responsible for verifying the legality of the information and transmitting it after the verification information is legal. The offline management module 20 is connected to the interface information processing module 10, configured to manage the offline service of the recharge card, and store the logical data of the recharge card in all states; the offline management module 20 is responsible for the management of the recharge card life cycle, mainly including creation. Recharge card resources, card-issuing and recharging cards, lock/unlock and delete and reclaim unused recharge cards. The online recharge module 30 is connected to the interface information processing module 20, configured to manage the online service of the recharge card, and store the logical data of the recharge card in the issued state; the online recharge module 30 provides high concurrency real-time recharge service, and the record is successful. Recharge card information. The WEB server (that is, the WWW server: WORLD WIDE WEB) 40, connects the interface information processing module 10 and the offline management module 20, and the user rights and the recharge card are offline and in the WEB server 40. Line services are managed. The WEB server 40 is a portal of the recharge center, and provides functions for recharging the user's rights management, offline management, and online recharge service. For example, the status of the offline recharge card can be directly queried through the WEB server 40, and the WEB server 40 is the operator. The most effective way to manage the recharge center, the recharge user of the present invention refers to a user who can recharge the mobile phone for himself or another person through a terminal device such as a mobile phone or a fixed line. The interface information processing module 10 is a message bridge between the offline management module 20 and the web server 40, and is also a message interaction link between the user refill and the online recharge module 30. Further, the offline management module 20 and the online recharge module 30 are separately configured. Both the offline management module 20 and the online recharge module 30 are independently disposed on different physical devices. The offline management module 20 stores the logical data of the recharge card in all states, and the administrator of the recharge center performs the operations of creating, issuing, blocking, unlocking, and reclaiming the recharge card through the front-end interface, and the background is completed by the offline management module 20. The administrator of the recharge center of the present invention can log in to the recharge center through the front-end interface, manage the massive recharge card resources, and can query the online recharge card channel to understand the real-time recharge situation; the online recharge module 30 only provides the recharge service, which stores The recharge card logic data of the issued status, and the used recharge card logic data are stored for a short time; although the offline management module 20 and the online recharge module 30 are separately set, logically, a recharge center is still presented for management. Further, the offline management module 20 may further include an offline synchronization management module configured to synchronize the real-time/timing of the logical data of the recharge card in the issued state to the online recharge module 30. The online recharge module 30 further includes an online synchronization management module configured to synchronize the real-time/timing of the logical data of the recharge card in the used state to the offline management module 20 for the administrator to query. The invention separates and deploys the offline management module 20 and the online recharge module 30, so that the offline management of the recharge card and the online recharge service respectively have exclusive resources, thereby increasing the storage capacity of the single recharge center, improving the efficiency and success rate of recharge, and The recharge card can be managed and maintained offline without affecting its recharge service, effectively avoiding the contention of the system resources, ensuring stable recharge card management and efficient recharge. Referring to FIG. 2, FIG. 2 is a flowchart of an embodiment of a method for managing and recharging a recharge card according to the present invention. The present invention further provides a method for managing and recharging a recharge card. As shown in FIG. 2, the method includes the following steps:

S100. Receiving the issuance instruction, the offline management module 20 issues a release operation to the unreleased prepaid card, converts the issued recharge card to the issued status, and synchronously outputs the logical data of the refilled card in the issued state, and stores the logical data. S200: Receive the recharge command, and the online recharge module 30 recharges the recharge card in the issued state, converts the recharged recharge card to the used state, and synchronously outputs the logical data of the recharge card in the used state, and stores the data. Referring to FIG. 3, FIG. 3 is a flowchart of another embodiment of a method for managing and recharging a recharge card according to the present invention. The method for recharging card recharge and recharging further includes the following steps: S101: Real-time/timing detecting whether there is logical data of a recharge card in an issued state If it exists, it is synchronized to the online recharge module 30 and stored. Further, the recharge card management and recharging method further includes the steps of: S201: Real-time/timing detecting whether there is logical data of the recharge card of the used state, and if so, synchronizing to the offline management module 20 and storing. Further, after synchronizing the logical data of the used recharge card to the offline management module 20, the method further includes: S202: deleting logical data of the recharge card in the used state. Further, the recharging card management and recharging method further includes the following steps: S102: Create logical data of the unsold state recharge card, and store the data. Specifically, as shown in FIG. 3, the recharge card management and recharging method may include the following steps:

S102. Create logical data of the unsold state recharge card and store it. Specifically, the administrator of the recharge center logs in to the front-end interface of the web server 40, creates an unreleased recharge card resource, and inserts the logical data of the successfully created recharge card into the unused recharge card table defined by the database, and the status is not Release status, not available for recharge.

S100. Receiving a distribution instruction, and the offline management module 20 performs a issuance operation on the recharge card in an unreleased state, converts the recharge card after the issue into an issued state, and synchronously outputs the logical data of the recharge card in the issued state, and stores the logical data; Specifically, the administrator of the recharge center selects a plurality of recharge cards in an unreleased state, performs a issuance operation, and the status of the recharge card that is successfully issued is changed to the issued status, and proceeds to step S101 to detect whether there is an issued status in real time/timing. The logical data of the recharge card, if any, is synchronized to the online recharge module 30 and stored. The storage refers to recording the number of detected recharge cards, the start and end recharge card number, etc., so that the administrator can query the synchronization result; otherwise, returning to the re Detection. S200: Receiving a recharge command, the online recharge module 30 recharges the recharge card in the issued state, converts the recharged recharge card into a used state, and synchronously outputs the logical data of the recharge card in the used state, and stores the logical data.

S20K Real-time/Timed Checks whether there is logical data of the used status recharge card. If it exists, it is synchronized to the offline management module 20 and stored. Otherwise, it returns to re-detection. Specifically, the online recharge module 30 is scanned. The recharge card in the used state is exported, and the logical data of the eligible recharge card is exported and synchronized to the offline management module 20. After the synchronization is successful, the process proceeds to step S202.

 S202. Delete logical data of the used card of the used state, that is, plan to delete the logical data of the used card of the used state. In the embodiment, the recharge card management and recharging system and method respectively configure the recharge card management and recharging functions independently on two sets of devices separated by a physical layer, and one set of devices provides an offline recharge card management service, and one set of devices is provided online. The recharge service, at this time, the management and recharge of the recharge card are separated, effectively avoiding the contention of the system resources, ensuring stable recharge card management and efficient recharge. Specifically, the management and recharge of the recharge card are exclusive resources of the two modules, there is no contention, and the functional stability and reliability of each module are improved; and the system environment exclusive to the offline management module provides mass storage. The prepaid card resources can store hundreds of millions or even billions of prepaid cards, satisfying 99% of the market demand; the online recharge module also has exclusive resources, which can meet the recharge of thousands of people per second, enabling operators to promote or holidays. The problem of lowering the peak success rate of the recharge period caused by the factors has become a thing of the past. The invention separates the recharge card management and the recharge service independently, and the recharge card can be offlinely maintained while ensuring the uninterrupted provision of the recharge service, and provides an effective operation for the long-term stable operation of the recharge center storing the mass recharge card. Maintenance means. The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the patents. The equivalent structure or equivalent process transformations made by the description of the present invention and the drawings are directly or indirectly applied to other related technical fields. The same is included in the scope of patent protection of the present invention.

Claims

Claims, a recharge card management and recharge system, including:

 The interface information processing module is configured to process information between the interfaces, and is responsible for verifying the legality of the information and transmitting the information after verifying that the information is legal;

 An offline management module, connected to the interface information processing module, configured to manage offline services of the recharge card, and store logical data of the recharge cards of all states;

 An online recharge module, connected to the interface information processing module, configured to manage an online recharge service of the recharge card, and store logic data of the recharge card in an issued state;

 The WEB server is connected to the interface information processing module and the offline management module, and manages user rights, offline and online services of the recharge card through the WEB server. The recharge card management and refill system according to claim 1, wherein the offline management module and the online recharge module are separately provided. The recharge card management and refill system according to claim 1, wherein the offline management module and the online recharge module are independently disposed on different physical devices. The recharge card management and refill system according to claim 1, wherein the offline management module further comprises: an offline synchronization management module, configured to synchronize the real-time/timing of the logical data of the recharge card in the issued state to the online recharge Module. The recharge card management and refill system according to claim 1, wherein the online recharge module further comprises: an online synchronization management module, configured to synchronize real-time/timing of the logical data of the recharge card in the used state to offline management Module. A method for recharging card management and recharging, comprising the following steps:

Receiving the issuance instruction, the offline management module performs a issuance operation on the recharge card in an unreleased state, converts the recharge card after the issue into an issued state, and synchronously outputs the logical data of the recharge card in the issued state, and stores the same; Receiving the recharge command, the online recharge module recharges the recharge card in the issued state, converts the recharged recharge card to the used state, and synchronously outputs the logical data of the recharge card in the used state, and stores it. The recharge card management and refilling method according to claim 6, further comprising the steps of: real-time/timing detecting whether there is logical data of the recharge card in the issued state, and if so, synchronizing to the online recharge module and storing. The recharge card management and refilling method according to claim 6, further comprising the steps of: real-time/timing detecting whether there is logical data of the recharge card of the used state, and if so, synchronizing to the offline management module and storing. The method for managing and recharging the recharge card according to claim 8, wherein the synchronizing the logical data of the recharge card in the used state to the offline management module further comprises: deleting the logical data of the recharge card in the used state. The method for managing and recharging a recharge card according to claim 6, further comprising the steps of:

 The logical data of the line state recharge card and store it.