CN103490957A - One-card platform system and method for applying same - Google Patents

Abstract

The invention relates to a one-card platform system and a method for applying the one-card platform system. The one-card platform system comprises a control center, a terminal card and an application terminal. The working mode of the application terminal includes a normal mode and a test mode, the application terminal in the test mode does not respond to a normal user card, and data generated in the test mode are all test data. Because the test data of the one-card platform system and data generated when the one-card platform system is normally used are respectively stored and processed, when terminal test is carried out, the one-card platform system can still be normally used, and the conditions that due to system test, the system can not be normally used entirely or partially in the prior art will not appear.

Description

All-in-one card platform system and application process thereof

Technical field

The present invention relates to communication technical field, relate in particular to a kind of all-in-one card platform system and application process thereof.

Background technology

The card system of prior art often need to carry out system testing and artificial the maintenance and upgrading, and generally need to carry out the terminal equipment debugging when carrying out system testing, because the data that test data of card system do not produced during with normal the use are done the difference storage and processed, often cause whole card system when test all can't normally use for the treatment of test data.And the Automation Design degree that existing card system is done in system maintenance and upgrading is generally not high, need to artificially safeguard and upgrading, when system maintenance and upgrading, whole system can't normally be used, and has had a strong impact on service efficiency.

Summary of the invention

The technical problem to be solved in the present invention is, the above-mentioned many defects for existing card system, provide a kind of all-in-one card platform system and application process thereof.

The technical solution adopted for the present invention to solve the technical problems is:

A kind of all-in-one card platform system is provided, comprise: control centre, terminal card, application terminal, described control centre is connected with each described application terminal, be used for responding the operational order of each described application terminal of processing and the data of generation, described terminal card is for being inserted into described application terminal so that described application terminal enters designated mode or enable Terminal Service under designated mode;

Described control centre comprises formal service module for formal service is provided, for testing service module that testing service is provided, for the display module of the operating state that shows described all-in-one card platform system; Described formal service module comprises for each described application terminal, carrying out the automatic communication submodule of communication, for the plant maintenance submodule of each described application terminal of maintenance management, for the database submodule of every formal data of storing described application terminal; Described testing service module comprise the test macro instrument submodule that is used to described application terminal that testing service is provided, for store described application terminal the test database submodule of every test data;

Described terminal card comprises formal card for described formal service is provided and for the test card of described testing service is provided, described formal card comprises M1 card, CPU card, the RFID-SIM card with identification for consumption, and described test card comprises test subcard and the test subscriber's card for described application terminal is tested of the test pattern for opening described application terminal;

The operating state of described application terminal comprises originate mode, formal pattern and test pattern; Wherein, the pattern of dispatching from the factory of described application terminal is originate mode, described application terminal in described originate mode enters described formal pattern after receiving the card using information of described formal card, described application terminal in described originate mode enters described test pattern after receiving the card using information of described survey formula card, in the described originate mode of the described application terminal of described test pattern recovery after power cut; Described formal service is opened after receiving the card using information of described formal card in described application terminal in described formal pattern, described testing service is opened after receiving the card using information of described test subscriber card in described application terminal in described formal pattern or described test pattern, and the described formal card of described application terminal refusal response in described test pattern.

Preferably, described automatic communication submodule is for being stored in described database submodule with the communication of described application terminal and by communication data, described plant maintenance submodule is for the parameter of each described application terminal of administration configuration, monitor the running status of each described application terminal, also for the loading upgrading bag, remote upgrade is carried out in each described application terminal; Described database submodule is for storing every data that described application terminal produces under described formal pattern; Described test macro instrument submodule is used to described application terminal that test guide is provided, and carries out communication instruction test, equipment running status analysis and the analysis of device systems parameter; Described test database submodule for store described application terminal every test data, described display module is for showing the running status of described all-in-one card platform various parts.

Preferably, described application terminal comprises attendance recorder, door access machine, consumption machine for punching the card, self-service terminal machine.

Preferably, unified device talk agreement is followed in described application terminal, and described application terminal comprises: for the communication module that carries out communication with described control centre, card reading module, memory module, processor module and external equipment module; The communications protocol of described communication module comprises TCP-IP, WIFI, GPRS, RS485, and described card reading module is supported M1 card, CPU card, RFID-SIM card.

Preferably, described application terminal regularly sends to described control centre the heartbeat packet that comprises this application terminal equipment running status information.

Preferably, described application terminal is used different communication instructions to transmit respectively described formal data and described test data, simultaneously, in the described memory module of described application terminal, for described formal data and described test data, is provided with different storage areas.

A kind of method of applying the all-in-one card platform system comprises the following step of carrying out of selecting:

A: equipment state analysis: described control centre is the running status of the described application terminal of monitoring in real time, and the equipment state of described application terminal is analyzed, and shows abnormality and abnormal equipment, and historic state inquiry, state export function are provided;

B: remote equipment upgrading: described control centre loads the encryption AKU remote upgrade is carried out in described application terminal;

C: terminal test: the device line that described control centre tests respectively described application terminal connects, track stability, and record shows corresponding test data and result.

Preferably, described steps A comprises following sub-step:

A1: described control centre receives the described heartbeat packet that described application terminal sends;

A2: described control centre resolves the state information in described heartbeat packet according to described communications protocol, and searches in described state information the abnormal equipment running status that may comprise;

A3: described control centre stores the state information after described parsing in described database module into;

A4: described control centre reads in described database module the described state information of storing;

A5: the described display module of described control centre shows the real-time running state of described application terminal, and regularly highlights the abnormal equipment running status of described application terminal.

Preferably, described step B comprises following sub-step:

B1: the selected described application terminal that need to be upgraded of described control centre, and load the encryption AKU;

B2: described control centre judges whether described encryption AKU and described application terminal mate;

B3: described control centre arrange application terminal that described needs are upgraded the upgrading sign, and described upgrading sign is transferred to described application terminal;

B4: described application terminal proposes upgrade request to described control centre, and described control centre is transferred to described application terminal by described encryption AKU, is upgraded in described application terminal.

Preferably, described step C comprises following sub-step:

C1: whether described test data library module detects in described control centre available, if unavailable, configures described test database, enters step C2 if available;

C2: the selected described application terminal that need to be tested of described control centre, string slogan or the port numbers of the described application terminal that configuration need to be tested, described application terminal is to described control centre transmitting apparatus communication bag, described control centre judges that according to the instruction of registering or shake hands in described device talk agreement whether this communication bag is legal, if illegal, stop test, if legal, enter step C3;

C3: stability test is selected whether to carry out by described control centre, if do not carry out stability test, enter step C4, if carry out stability test, the test macro tool model of described control centre is selected the described application terminal that need to carry out stability test, and at the appointed time introversive described application terminal sends the connecting test instruction specified number, the correctness of this connecting test director data of verification is also added up the success rate of this connecting test instruction and the weighted average of the communication time of each described device talk bag, stability according to the weighted average critic network environment of the correctness of described connecting test director data and described communication time,

C4: data acquisition test is selected whether to carry out by described control centre, if do not carry out data acquisition test, enter step C5, if carry out data acquisition test, the selected ，Gai application terminal, described application terminal that need to carry out data acquisition test of described control centre gathers the service data of this terminal equipment and generates described test data and store in described memory module;

C5: the equipment running status test is selected whether to carry out by described control centre, if do not carry out the equipment running status test, enter step C6, if remembered the equipment running status test, described control centre selectes the described application terminal that need to obtain equipment running status, described test macro tool model is inquired about the up-to-date described heartbeat packet that described application terminal sends, read and resolve this state information, described state information after the described heartbeat packet of described test database module stores and parsing, described display module reads and shows the details of this equipment of described test database module stores.

C6: described control centre selects whether carry out the device systems parameter acquisition, if do not carry out the device systems parameter acquisition, finishes this test; If carry out the device systems parameter acquisition, the test macro instrument submodule of described control centre waits for that the equipment of described application terminal uploads the data of appointed area in described memory module and analyzed, and resolves this system parameters and shows analysis result by the display module of described control centre.

The accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, in below describing embodiment, the accompanying drawing of required use is briefly described, obviously, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings, in accompanying drawing:

Fig. 1 is the hardware structure diagram of all-in-one card platform system of the present invention;

Fig. 2 is the functional block diagram of the control centre 1 of the all-in-one card platform system shown in Fig. 1;

Fig. 3 is the functional block diagram of the application terminal 2 shown in Fig. 1;

Fig. 4 is the mode of operation schematic diagram of the application terminal 2 shown in Fig. 1;

Fig. 5 is the method flow diagram that application all-in-one card platform system of the present invention is carried out the equipment state analysis;

Fig. 6 is the method flow diagram that application all-in-one card platform system of the present invention is carried out the remote equipment upgrading;

Fig. 7 is the method flow diagram that application all-in-one card platform system of the present invention is carried out terminal test.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer, the various embodiment that hereinafter will describe will be with reference to corresponding accompanying drawing, these accompanying drawings have formed the part of embodiment, have wherein described the various embodiment that realize that the present invention may adopt.Should understand, also can use other embodiment, or the embodiment that this paper is enumerated carries out the modification on 26S Proteasome Structure and Function, and can not depart from the scope and spirit of the present invention.

As shown in Figure 1, be the hardware structure diagram of all-in-one card platform system of the present invention; Comprise:

Control centre 1, application terminal 2, terminal card 3; As preferred implementation, application terminal 2 comprises attendance recorder 2A, door access machine 2B, consumption machine for punching the card 2C, self-service terminal machine 2D; Terminal card 3 comprises formal card 31 and test card 32, and test card 32 comprises that test subcard 321 blocks 322 with the test subscriber.Control centre 1 is connected with each application terminal of application terminal 2, for the operational order that responds each application terminal of processing application terminal 2 and the data of generation, terminal card 3 can be inserted into application terminal 2 each application terminal so that its enter designated mode or enable Terminal Service under designated mode; Formal card 31, for formal service is provided, as preferred implementation, formally blocks 31 and can comprise M1 card, CPU card, the RFID-SIM card with identification for consumption; Test card 32 is for testing service is provided, and test subcard 321 is for the test pattern of each application terminal of opening application terminal 2, and the test subscriber blocks 322 and tested for each application terminal to application terminal 2.Preferred embodiment as preferred implementation, application terminal 2 regularly sends the heartbeat packet of the equipment running status information that comprises application terminal 2 to control centre 1, particularly, this state information can comprise version information, card reader state, display screen state, recording mechanism, equipment state, relay status, records read pointer, communication module state, key-press status, records write pointer, buzzer state, inductor state, voice module state, not adopt and record number, LCD display state, operational mode state etc.

As shown in Figure 2, be the functional block diagram of the control centre 1 shown in Fig. 1; Comprise:

For formal service module 11 that formal service is provided, for testing service module 12 that testing service is provided, for the display module 13 of the operating state that shows the all-in-one card platform system; Formal service module 11 comprise for each application terminal with application terminal 2 carry out the automatic communication submodule 111 of communication, for the plant maintenance submodule 112 of each application terminal of maintenance management application terminal 2, for the database submodule 113 of every formal data of the application terminal of storing application terminal 2; Testing service module 12 comprise each application terminal that is used to application terminal 2 the test macro instrument submodule 121 of testing service is provided, for the test database submodule 122 of every test data of each application terminal of storing application terminal 2.

As shown in Figure 3, be the functional block diagram of the application terminal 2 shown in Fig. 1; Comprise:

Communication module 21, for with control centre 1, carrying out communication, card reading module 22, for reading inductive terminations card 3, memory module 23, the data, the processor module 24 that for interim storage terminal, produce, for carrying out data operation, the instruction of mission control center 1 and peripheral module 25, for providing the peripheral operation interface; As preferred implementation, the communications protocol of communication module 21 be TCP-IP, WIFI, GPRS, RS485 one of them, card reading module 22 is supported M1 card, CPU card, RFID-SIM card, application terminal 2 is used different communication instructions to transmit respectively formal data and test data, simultaneously, in the memory module 23 of application terminal 2 for formal data and test data are provided with different storage areas, and in the FLASH sector of the device memory systems parameter for being provided with storage application terminal 2 in the storage area of formal data setting.

As shown in Figure 4, be the working mode figure of the application terminal 2 shown in Fig. 1; Comprise:

Originate mode O, formal model F, test pattern T; Wherein, the pattern of dispatching from the factory of application terminal 2 is originate mode O, enter formal model F after the formal card 31 of application terminal 2 brush in originate mode O, after surveying formula card 321, application terminal 2 brushes in originate mode O enter test pattern T, enter originate mode O after application terminal 2 outages in test pattern T, the formal card of application terminal 2 brush 31 rear unlatchings in formal model F are formally served, application terminal 2 brush test subscribers in formal model F or test pattern T block 322 rear unlatching testing services, and the application terminal 2 in test pattern T does not respond formal card 31.

As preferred implementation, the formal service of application terminal 2 comprises: the work attendance of the attendance recorder 2A service of swiping the card, the identification service of door access machine 2B, the service of deducting fees of swiping the card of consumption machine for punching the card 2C, the self-service consumption services of self-service terminal machine 2D etc., also comprise the processes such as the auto-update of each terminating machine and plant maintenance; The testing service of application terminal 2 comprises the debugging test of each terminating machine, the storage of test data and reading displayed process.

The method of the all-in-one card platform system of application the preferred embodiment of the present invention as shown in Figure 1 comprises the following step of carrying out of selecting:

A: the equipment state analysis, described control centre is the running status of the described application terminal of monitoring in real time, and the equipment state of described application terminal is analyzed, and shows abnormality and abnormal equipment, and historic state inquiry, state export function are provided;

B: the remote equipment upgrading, described control centre loads the encryption AKU remote upgrade is carried out in described application terminal;

C: terminal test, the device line of testing respectively described application terminal connects, track stability, and record shows corresponding test data and result.

As preferred implementation, as shown in Figure 5, described step: equipment state is analyzed A and is comprised following sub-step:

S11: whether heartbeat packet judgement that control centre 1 receives application terminal 2 transmissions wherein comprise the state information of application terminal 2, if, enter step S12, otherwise enter step S10, wait for and receive heartbeat packet next time; As preferred embodiment, the equipment running status analytic function can be integrated in plant maintenance software, and be installed in the formal service module 11 of control centre 1.

S12: control centre 1 resolves the state information in heartbeat packet according to the communications protocol of communication module 21, searches in this state information the abnormal equipment running status that may comprise; And the state information after resolving is stored in the database submodule 113 of control centre 1;

S131: judge whether opening device status poll service of control centre 1, if, enter step S132, otherwise enter step S10, wait for and receive heartbeat packet next time;

S132: control centre 1 judges whether to arrive the time of Query Database, if, enter step S133, otherwise enter step S10, wait for and receive heartbeat packet next time;

S133: whether there is the device status data of application terminal 2 in Query Database submodule 113, if, enter step S14, otherwise enter step S10, wait for and receive heartbeat packet next time;

S14: the device status data of the application terminal 2 in the database submodule 113 that 1 pair, control centre inquires is scanned, and extracts up-to-date device status data by the state analysis collocation strategy and analyzed, and judges abnormal equipment running status;

S15: the display module 13 of control centre 1 is presented at the equipment state list by highlighted font, and regularly ejects the window prompting extremely, and simultaneously, the attendant also can initiatively open the running status of detailed device running status display window inquiry designated equipment; As preferred embodiment, the equipment running status type configuration strategy that the attendant can show by the software customized highlighted demonstration oneself needed of plant maintenance, bullet window.Simultaneously software also can provide the collocation strategy of acquiescence, and the following abnormal operating condition of this strategy will highlightedly be presented at device state bar and play window and show: card reading module, the failure of PSAM card initialization do not detected, without battery, flowmeter is abnormal, buzzer is abnormal, LCD is abnormal, LED is abnormal, the button of going out is abnormal, the door magnetic state extremely, assist that input state is abnormal, relay status is abnormal, key-press status is abnormal, inductor abnormal state, inductor status data effect mistake, the format error of inductor state decode, inductor state passage mode mistake.This default configuration strategy is to be applicable to each all-purpose card equipment in the intelligent traffic card system, also can meet common environment for use and safety requirements.But the attendant is the history run state of query facility also, this information also is kept in the device status table of database submodule 113, in order to reduce the pressure of handling up of database, only have when equipment running status occurs changing or surpasses the running status aging time, current up-to-date equipment running status just can be write the database facility state table.

Described equipment running status analysis can at utmost be presented to the attendant by equipment operation condition in real time clearly, helps attendant's problem of settling a dispute by the parties concerned themselves.But the state export function also is provided, and the attendant can export as the info file by the equipment detailed status of current appointment, issues person skilled and helps solve problem.

As preferred implementation, as shown in Figure 6, described step: remote equipment upgrading B comprises following sub-step:

S211: loading upgrading bag in control centre 1, be three grades as this AKU of preferred implementation and encrypt AKU, adopt the DES algorithm, fail safe is high.This AKU packet header provides terminal type, key seed, file size, file name, file verification, out-of-service time and access times to control the information such as sign, access times, out-of-service time.Wherein out-of-service time and access times are controlled the authorization message that sign, access times, out-of-service time are AKU, make the use of AKU limited;

S212: the all-in-one card platform maintenance software in the formal service module 11 of control centre 1 reads authorization message and judges that whether AKU is effective, and deposits effective AKU in database;

S213: the equipment of application terminal 2 of one or more same device type and communication modes is selected as upgrading object by control centre 1;

S214: the device queue chosen of judgement whether with AKU packet header in device type and device subclass type be complementary, if do not mate, carry out execution step S210, stop upgrading, otherwise execution step S215;

S215: whether effectively again detect AKU;

S216: the upgrading sign that first equipment in the updating apparatus queue is set;

S217: when control centre 1 sends heartbeat packet at this equipment, this upgrading sign is write to the heartbeat response packet and send to equipment;

S218: after equipment receives the upgrading sign, initiating equipment upgrading task requests, formally enter the AKU transmitting procedure; Because AKU is larger, will resolve into AKU subpackage when transmission of tens suitable length, so this transmitting procedure is continuation, until whole AKU end of transmission;

S219: after AKU finishes receiving, integrality and the correctness of first this bag of verification in application terminal 2, and the new equipment program after autoboot operation upgrading; If, when the secondary device escalation process is stopped by accident or interrupts, re-execute step S217, can not affect like this safety of original record data, can not affect the function of existing equipment program;

S220-S225: application terminal 2 completes when the secondary device upgrading, all-in-one card platform plant maintenance software in control centre 1 adds 1 by the access times of AKU, reject the object when the secondary device upgrading from device queue, and whether inquiry there is the request of arrestment upgrading.If there is this to stop request, by the upgrading stopped other equipment in device queue, otherwise whether also has equipment in query facility upgrading queue, judge that whether AKU is still effective, as preferred embodiment, can according to AKU whether effectively access times whether be less than the AKU access times, whether the current time is less than the AKU out-of-service time judges that whether AKU is effective, and the upgrading sign that the equipment of head of the queue is ranked in current device upgrading queue is set, enter AKU transmitting procedure next time.Repeat afterwards this process until the device upgrade queue, for empty, now completes the upgrading to all devices selected.

As preferred implementation, as shown in Figure 7, described step: terminal test C comprises following sub-step:

S311: the test macro instrument submodule 121 of control centre 1 operation testing service module 12 judges whether successful connection of test database submodule 122, if successful connection, enter step S312, if connect unsuccessfully, enter step S310, the configuration testing database;

S312: described control centre 1 operation test guide, select one or more equipment that need to test from registered applications terminal 2, as preferred embodiment, the equipment of selection can be different device types, but the communications protocol that each equipment adopts needs unanimously;

S313: carry out the device line connecting test, as preferred embodiment, can carry out following sub-step:

S3131: configure the string slogan that adopts RS485 communication modes equipment and the port numbers that adopts the equipment of TCPIP/WIFI/GPRS communication modes;

S3132: control centre's 1 receiving equipment communication bag;

S3133: judge whether this communication bag is legal, and as preferred embodiment, its criterion can be registering or shaking hands instruction in the device talk agreement; If illegal, return to execution step S3132, if legal surface equipment connection is tested successfully, perform step S314;

S314: control centre 1 judges whether to carry out stability test, if do not carry out stability test, performs step S315, if carry out stability test, performs step S3141;

S3141: carry out stability test, the equipment that test macro instrument submodule 121 is chosen to appointment within a certain period of time sends the connecting test instruction specified number, by the success rate of check test director data correctness, the instruction of statistics connecting test and the stability of the weighted average measurement place network environment that each wraps communication time;

S315: control centre 1 judges whether to carry out data acquisition test, if do not carry out data acquisition test, performs step S316, if carry out data acquisition test, performs step S3151;

S3151: carry out data acquisition test, the selected application terminal that need to carry out data acquisition test of control centre 1, this application terminal is stored in described memory module after gathering the service data of this terminal equipment and generating test data, as preferred embodiment, application terminal 2 is used different command keywords to upload test record data and offical record data, guarantees that the test macro instrument can not collect the offical record data by mistake;

S316: control centre 1 judges whether to carry out the equipment running status test, if do not carry out the equipment running status test, performs step S317, if carry out the equipment running status test, performs step S3161;

S3161: control centre 1 chooses the application terminal 2 that need to obtain equipment running status, at first test macro instrument submodule 121 inquires about the last heartbeat packet, false reading if present resolved this state information and is presented in equipment details display window by the display module 13 of control centre 1, otherwise wait for heartbeat packet next time, and resolve this state information of demonstration;

S317: control centre 1 judges whether to carry out the device systems parameter acquisition, if do not carry out the device systems parameter acquisition, finishes this terminal test, if carry out the device systems parameter acquisition, performs step S3171;

S3171: the test macro instrument submodule 121 of control centre 1 waits for that the equipment of application terminals 2 uploads the data of appointed area in memory module 23 and analyzed, and resolves this system parameters and be presented at device systems parameter display window by the display module 13 of control centre 1; As preferred embodiment, the data analysis of in the memory module 23 of 121 pairs of application terminals 2 of test macro instrument submodule, specifying the FLASH sector to upload, these parameters comprise unit numbering, Back ground Information sector, key seed, device address, and low byte is uploaded in front, maximum and recorded number, uploads mode, application number, eartbeat interval time, the time of opening the door, blacklist version number, parameter version number, mode of operation, the record of terminal system title, managing keys, the ID of enterprise, sub-application type, sub-application references number, money Bale No. or selection are uploaded constantly.Different device types also has its exclusive parameter separately in addition, does not repeat them here.

The foregoing is only preferred embodiment of the present invention, those skilled in the art know, without departing from the spirit and scope of the present invention, can carry out various changes or be equal to replacement these features and embodiment.In addition, under instruction of the present invention, can modify to adapt to concrete situation and material and can not break away from the spirit and scope of the present invention these features and embodiment.Therefore, the present invention is not subject to the restriction of specific embodiment disclosed herein, and the embodiment in all the application's of falling into claim scope belongs to protection scope of the present invention.

All-in-one card platform system of the present invention is under formal pattern, dissimilar according to all-purpose card equipment, the user can brush the operations such as M1 card, CPU card, RFID-SIM card carry out work attendance, consume, supplement with money, gate inhibition, the data upload produced is to all-in-one card platform control centre, carry out the data processing by software, and generating report forms as requested.Simultaneously, the equipment regularly various states during uploading device operation, to all-in-one card platform software, and is analyzed by the state processing strategy configured, and by abnormality, points out in several ways the attendant.The attendant can also carry out remote upgrade to one or more equipment of appointment by all-in-one card platform Bootload AKU.

Under test pattern, thereby workmen or attendant can enter test pattern by the provisional initialization apparatus of test subcard, after entering test pattern, all-purpose card equipment is only understood the response test subscriber card, no longer responds formal subscriber card as M1 card, CPU card, RFID-SIM card.And all data that produce under test pattern are all test datas, will be automatically recognized and treat with a certain discrimination after uploading to all-in-one card platform software, can not have influence on formal data.Coordinate the use of test macro instrument simultaneously, can be omnibearing measurement circuit UNICOM, communication robust, functions of the equipments whether normal etc.The data that produce during due to the test data by card system and normal the use have been done difference and have been stored and process, when carrying out terminal test, card system still can normally be used, and not there will be the situation that causes whole system or local system normally to use due to system testing of prior art.

All-in-one card platform system of the present invention has realized the real-time monitoring to the running status of all-in-one card platform system terminal equipment, and the equipment of operation irregularity is carried out to intelligent early-warning, on the PC that intelligent all-in-one card platform is installed, abnormal equipment state is played to window, highlighted prompting, and record correlation behavior information for consulting analysis, can carry out the remote equipment upgrading to supporting all-purpose card equipment, the attendant without to on-the-spot, without detaching equipment.The optional majority platform equipment of upgrading, escalation process is safe and reliable.Compared with prior art, automaticity is high, saved a large amount of costs of human resources, the preferred embodiment of the present invention can also help the workmen at the scene the fast construction analog platform construction line, functions of the equipments etc. is tested, simplify workmen's operation.Simultaneously, the data that the use test card produces are test data, can not affect the form of formal data.

Claims (10)

1. an all-in-one card platform system, it is characterized in that, comprise: control centre, terminal card, application terminal, described control centre is connected with each described application terminal, be used for responding the operational order of each described application terminal of processing and the data of generation, described terminal card is for being inserted into described application terminal so that described application terminal enters designated mode or enable Terminal Service under designated mode;

Described control centre comprises formal service module for formal service is provided, for testing service module that testing service is provided, for the display module of the operating state that shows described all-in-one card platform system; Described formal service module comprises for each described application terminal, carrying out the automatic communication submodule of communication, for the plant maintenance submodule of each described application terminal of maintenance management, for the database submodule of every formal data of storing described application terminal; Described testing service module comprise the test macro instrument submodule that is used to described application terminal that testing service is provided, for store described application terminal the test database submodule of every test data;

Described terminal card comprises formal card for described formal service is provided and for the test card of described testing service is provided, described formal card comprises M1 card, CPU card, the RFID-SIM card with identification for consumption, and described test card comprises test subcard and the test subscriber's card for described application terminal is tested of the test pattern for opening described application terminal;

The operating state of described application terminal comprises originate mode, formal pattern and test pattern; Wherein, the pattern of dispatching from the factory of described application terminal is originate mode, described application terminal in described originate mode enters described formal pattern after receiving the card using information of described formal card, described application terminal in described originate mode enters described test pattern after receiving the card using information of described survey formula card, in the described originate mode of the described application terminal of described test pattern recovery after power cut; Described formal service is opened after receiving the card using information of described formal card in described application terminal in described formal pattern, described testing service is opened after receiving the card using information of described test subscriber card in described application terminal in described formal pattern or described test pattern, and the described formal card of described application terminal refusal response in described test pattern.

2. all-in-one card platform system according to claim 1, it is characterized in that, described automatic communication submodule is for being stored in described database submodule with the communication of described application terminal and by communication data, described plant maintenance submodule is for the parameter of each described application terminal of administration configuration, monitor the running status of each described application terminal, also for the loading upgrading bag, remote upgrade is carried out in each described application terminal; Described database submodule is for storing every data that described application terminal produces under described formal pattern; Described test macro instrument submodule is used to described application terminal that test guide is provided, and carries out communication instruction test, equipment running status analysis and the analysis of device systems parameter; Described test database submodule for store described application terminal every test data, described display module is for showing the running status of described all-in-one card platform various parts.

3. all-in-one card platform system according to claim 2, is characterized in that, described application terminal comprises attendance recorder, door access machine, consumption machine for punching the card, self-service terminal machine.

4. all-in-one card platform system according to claim 3, it is characterized in that, unified device talk agreement is followed in described application terminal, described application terminal comprises: for the communication module that carries out communication with described control centre, card reading module, memory module, processor module and external equipment module; The communications protocol of described communication module comprises TCP-IP, WIFI, GPRS, RS485, and described card reading module is supported M1 card, CPU card, RFID-SIM card.

5. all-in-one card platform system according to claim 4, is characterized in that, described application terminal regularly sends to described control centre the heartbeat packet that comprises this application terminal equipment running status information.

6. all-in-one card platform system according to claim 5, it is characterized in that, described application terminal is used different communication instructions to transmit respectively described formal data and described test data, simultaneously, be provided with different storage areas for described formal data and described test data in the described memory module of described application terminal.

7. an application, as the method for the described all-in-one card platform system of any one in claim 1-6, is characterized in that, the method comprises the following step of carrying out of selecting:

A: equipment state analysis: described control centre is the running status of the described application terminal of monitoring in real time, and the equipment state of described application terminal is analyzed, and shows abnormality and abnormal equipment, and historic state inquiry, state export function are provided;

B: remote equipment upgrading: described control centre loads the encryption AKU remote upgrade is carried out in described application terminal;

C: terminal test: the device line that described control centre tests respectively described application terminal connects, track stability, and record shows corresponding test data and result.

8. the method for application all-in-one card platform system according to claim 7, is characterized in that, described steps A comprises following sub-step:

A1: described control centre receives the described heartbeat packet that described application terminal sends;

A2: described control centre resolves the state information in described heartbeat packet according to described communications protocol, and searches in described state information the abnormal equipment running status that may comprise;

A3: described control centre stores the state information after described parsing in described database module into;

A4: described control centre reads in described database module the described state information of storing;

A5: the described display module of described control centre shows the real-time running state of described application terminal, and regularly highlights the abnormal equipment running status of described application terminal.

9. the method for application all-in-one card platform system according to claim 7, is characterized in that, described step B comprises following sub-step:

B1: the selected described application terminal that need to be upgraded of described control centre, and load the encryption AKU;

B2: described control centre judges whether described encryption AKU and described application terminal mate;

B3: described control centre arrange application terminal that described needs are upgraded the upgrading sign, and described upgrading sign is transferred to described application terminal;

B4: described application terminal proposes upgrade request to described control centre, and described control centre is transferred to described application terminal by described encryption AKU, is upgraded in described application terminal.

10. the method for application all-in-one card platform system according to claim 7, is characterized in that, described step C comprises following sub-step:

C1: whether described test data library module detects in described control centre available, if unavailable, configures described test database, enters step C2 if available;

C2: the selected described application terminal that need to be tested of described control centre, string slogan or the port numbers of the described application terminal that configuration need to be tested, described application terminal is to described control centre transmitting apparatus communication bag, described control centre judges that according to the instruction of registering or shake hands in described device talk agreement whether this communication bag is legal, if illegal, stop test, if legal, enter step C3;

C3: stability test is selected whether to carry out by described control centre, if do not carry out stability test, enter step C4, if carry out stability test, the test macro tool model of described control centre is selected the described application terminal that need to carry out stability test, and at the appointed time introversive described application terminal sends the connecting test instruction specified number, the correctness of this connecting test director data of verification is also added up the success rate of this connecting test instruction and the weighted average of the communication time of each described device talk bag, stability according to the weighted average critic network environment of the correctness of described connecting test director data and described communication time,

C4: data acquisition test is selected whether to carry out by described control centre, if do not carry out data acquisition test, enter step C5, if carry out data acquisition test, the selected ，Gai application terminal, described application terminal that need to carry out data acquisition test of described control centre gathers the service data of this terminal equipment and generates described test data and store in described memory module;

C5: the equipment running status test is selected whether to carry out by described control centre, if do not carry out the equipment running status test, enter step C6, if remembered the equipment running status test, described control centre selectes the described application terminal that need to obtain equipment running status, described test macro tool model is inquired about the up-to-date described heartbeat packet that described application terminal sends, read and resolve this state information, described state information after the described heartbeat packet of described test database module stores and parsing, described display module reads and shows the details of this equipment of described test database module stores.

C6: described control centre selects whether carry out the device systems parameter acquisition, if do not carry out the device systems parameter acquisition, finishes this test; If carry out the device systems parameter acquisition, the test macro instrument submodule of described control centre waits for that the equipment of described application terminal uploads the data of appointed area in described memory module and analyzed, and resolves this system parameters and shows analysis result by the display module of described control centre.

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