CN111245782A - System and method for intelligently monitoring entry-exit self-service acceptance equipment - Google Patents

Abstract

The invention discloses a system and a method for intelligently monitoring entry-exit self-service acceptance equipment, which comprises the following steps: the equipment access unit is used for completing the access of the self-service acceptance equipment; the equipment access state monitoring unit is used for monitoring the access state of the self-service acceptance equipment according to the authentication file on the self-service acceptance equipment; the equipment running state monitoring unit is used for monitoring the running state according to the heartbeat signal; and the data acquisition monitoring unit is used for comparing the service data of the self-service acceptance equipment with a preset blacklist so as to monitor the service data. The invention greatly enhances the safety and reliability of the access of the entry-exit self-service acceptance equipment; through the monitoring function, the speed of knowing and processing abnormal conditions by management personnel is increased; through data analysis, scientific and visual monitoring means can be provided for entry and exit departments, data support is provided for maintenance and configuration of self-service acceptance equipment, and working efficiency of users is greatly improved.

Description

System and method for intelligently monitoring entry-exit self-service acceptance equipment

Technical Field

The invention relates to the technical field of control of entry and exit self-service acceptance equipment, in particular to a system and a method for intelligently monitoring entry and exit self-service acceptance equipment.

Background

In recent years, with the development and innovation of the economic society, the commuters of the Chinese and foreign people are more and more frequent, and the entry and exit people have the development situation of big in and big out and fast in and fast out. In the face of such huge daily acceptance amount, the requirement cannot be met only by accepting through the entry-exit foreground, so that self-service acceptance equipment is increasingly used. However, with the large amount of accesses of the self-service acceptance devices, the management and monitoring of the devices are very deficient, which mainly appears in the following aspects:

1) the entry and exit self-service acceptance equipment is various in types, and the equipment is different for different services and different manufacturers, so that the access and the safety certification of the equipment are particularly important, and the access monitoring of abnormal equipment is also necessary;

2) the number of people handling services through the self-service handling equipment every day is huge, if the equipment is abnormal and cannot be found and handled in time, the overstocked services can be caused, and the certificate handling efficiency is greatly reduced, so that the operation conditions of various self-service handling equipment need to be monitored in a unified manner in real time;

3) data acquired by the self-service acceptance equipment needs to be subjected to multiple checks, wherein part of the data may be checked by blacklist personnel, and early warning needs to be carried out in time at the moment and related personnel are informed to carry out processing;

4) the business volumes of entry and exit departments in different regions have larger differences, the service conditions of the equipment are different, and the equipment configuration and maintenance are difficult and the cost is increased due to the lack of scientific data support when the self-service acceptance equipment is configured and maintained.

Therefore, a system and a method for intelligently monitoring the entry and exit self-service acceptance equipment are needed.

Disclosure of Invention

The invention provides a system for intelligently monitoring entry and exit self-service acceptance equipment, which aims to solve the problem of how to intelligently monitor the entry and exit self-service acceptance equipment.

In order to solve the above problem, according to an aspect of the present invention, there is provided a system for intelligently monitoring entry and exit self-service acceptance devices, the system including:

the equipment access unit is used for determining an authentication file according to the received equipment registration request information, and storing the authentication file in the corresponding self-service acceptance equipment to complete registration; the data acquisition interface is connected with the self-service acceptance equipment in a butt joint mode;

the equipment access state monitoring unit is used for monitoring the access state of the self-service acceptance equipment according to the authentication file on the self-service acceptance equipment;

the equipment running state monitoring unit is used for monitoring the running state of the self-service acceptance equipment according to the heartbeat signal reported by the self-service acceptance equipment through the data acquisition interface;

and the data acquisition monitoring unit is used for comparing the service data of the self-service acceptance equipment with a preset blacklist so as to monitor the service data.

Preferably, the device access unit determines an authentication file according to the received device registration request information, stores the authentication file in the corresponding self-service acceptance device, and interfaces with the self-service acceptance device through a data acquisition interface, and includes:

when the received equipment registration request passes the examination and approval, acquiring the MAC address and the type parameter of the self-service acceptance equipment, generating a unique equipment identification code through an encryption algorithm, storing the unique equipment identification code in an authentication file, and storing the authentication file in the corresponding self-service acceptance equipment to complete registration; and the WebService data acquisition interface constructed by using the Axi s2 framework technology is in butt joint with the self-service acceptance equipment.

Preferably, the monitoring unit of the device access state monitors the access state of the self-service acceptance device according to an authentication file on the self-service acceptance device, and includes:

acquiring an authentication file on self-service acceptance equipment, decoding and analyzing information in the authentication file, and judging whether the self-service acceptance equipment is in a registration state; if the self-service acceptance device does not have the authentication file or the information of the authentication file is false, the self-service acceptance device is immediately terminated to access, and access error alarm information is sent to the main control unit after I P information of the self-service acceptance device is obtained.

Preferably, the device operation state monitoring unit monitors the operation state of the self-service acceptance device according to a heartbeat signal reported by the self-service acceptance device through a data acquisition interface, and includes:

if the time that the equipment running state monitoring unit does not receive the heartbeat signal sent by the self-service acceptance equipment through the data acquisition interface exceeds a preset heartbeat offline time threshold value, determining that the self-service acceptance equipment is in an offline state, and sending heartbeat error alarm information to the main control unit.

Preferably, the data acquisition and monitoring unit compares the service data of the self-service acceptance device with a preset blacklist to monitor the service data, and includes:

when the comparison result of the service data of the self-service acceptance equipment and the preset blacklist indicates that the verification fails, sending verification alarm information to the main control unit;

and when the comparison result of the service data of the self-service acceptance equipment and the preset blacklist indicates that the verification is passed, pushing the service data to an exit-entry certificate handling system server for warehousing.

Preferably, wherein the system further comprises:

and the intelligent analysis unit is used for analyzing the monitoring condition of the self-service acceptance equipment and the monitoring condition of the service data, generating an analysis report and an equipment maintenance trend chart according to a preset analysis period, and visually displaying the analysis report and the equipment maintenance trend chart.

According to another aspect of the invention, a method for intelligently monitoring entry and exit self-service acceptance equipment is provided, and the method comprises the following steps:

the equipment access unit determines an authentication file according to the received equipment registration request information, and stores the authentication file in the corresponding self-service acceptance equipment to complete registration; the data acquisition interface is connected with the self-service acceptance equipment in a butt joint mode;

the equipment access state monitoring unit monitors the access state of the self-service acceptance equipment according to the authentication file on the self-service acceptance equipment;

the equipment running state monitoring unit monitors the running state of the self-service acceptance equipment according to the heartbeat signal reported by the self-service acceptance equipment through the data acquisition interface;

and the data acquisition monitoring unit compares the service data of the self-service acceptance equipment with a preset blacklist so as to monitor the service data.

Preferably, the determining, by the device access unit, an authentication file according to the received device registration request information, storing the authentication file in the corresponding self-service acceptance device, and interfacing with the self-service acceptance device through a data collection interface includes:

when the received equipment registration request passes the examination and approval, acquiring the MAC address and the type parameter of the self-service acceptance equipment, generating a unique equipment identification code through an encryption algorithm, storing the unique equipment identification code in an authentication file, and storing the authentication file in the corresponding self-service acceptance equipment to complete registration; and the WebService data acquisition interface constructed by using the Axi s2 framework technology is in butt joint with the self-service acceptance equipment.

Preferably, the monitoring unit of the access state of the device monitors the access state of the self-service acceptance device according to an authentication file on the self-service acceptance device, and includes:

acquiring an authentication file on self-service acceptance equipment, decoding and analyzing information in the authentication file, and judging whether the self-service acceptance equipment is in a registration state; if the self-service acceptance device does not have the authentication file or the information of the authentication file is false, the self-service acceptance device is immediately terminated to access, and access error alarm information is sent to the main control unit after I P information of the self-service acceptance device is obtained.

Preferably, the monitoring unit of the running state of the device monitors the running state of the self-service acceptance device according to the heartbeat signal reported by the self-service acceptance device through the data acquisition interface, and includes:

if the time that the equipment running state monitoring unit does not receive the heartbeat signal sent by the self-service acceptance equipment through the data acquisition interface exceeds a preset heartbeat offline time threshold value, determining that the self-service acceptance equipment is in an offline state, and sending heartbeat error alarm information to the main control unit.

Preferably, the data acquisition and monitoring unit compares the service data of the self-service acceptance device with a preset blacklist to monitor the service data, and the method includes:

when the comparison result of the service data of the self-service acceptance equipment and the preset blacklist indicates that the verification fails, sending verification alarm information to the main control unit;

and when the comparison result of the service data of the self-service acceptance equipment and the preset blacklist indicates that the verification is passed, pushing the service data to an exit-entry certificate handling method server for warehousing.

Preferably, wherein the method further comprises:

the intelligent analysis unit analyzes the monitoring condition of the self-service acceptance equipment and the monitoring condition of the service data, generates an analysis report and an equipment maintenance trend graph according to a preset analysis period, and displays the analysis report and the equipment maintenance trend graph visually.

The invention provides a system and a method for intelligently monitoring entry and exit self-service acceptance equipment, which are based on an authentication mechanism of an authentication file, provide a unique and encrypted authentication file for each access equipment, avoid file tampering and abnormal equipment access, and greatly enhance the access security and reliability of the entry and exit self-service acceptance equipment; by monitoring the running condition of the entry-exit self-service acceptance equipment in real time, the speed of knowing and processing abnormal conditions by managers can be increased, the service extrusion condition caused by abnormal equipment and slow processing is reduced, and the satisfaction of the masses is improved; through the large data visualization screen, the analysis report and the future trend chart of the operation condition and the data acquisition condition of the self-service acceptance equipment, scientific and visual monitoring means can be provided for entry and exit departments, and meanwhile, data support is provided for maintenance and configuration of the self-service acceptance equipment, so that the working efficiency of users is greatly improved.

Drawings

A more complete understanding of exemplary embodiments of the present invention may be had by reference to the following drawings in which:

fig. 1 is a schematic structural diagram of a system 100 for intelligently monitoring entry and exit self-service acceptance devices according to an embodiment of the present invention;

FIG. 2 is an architecture diagram of the operation of an intelligent monitoring system according to an embodiment of the present invention;

FIG. 3 is a flow chart of the operation of the intelligent monitoring system according to an embodiment of the present invention; and

fig. 4 is a flowchart of a method 400 for intelligently monitoring an inbound and outbound self-service acceptance device according to an embodiment of the invention.

Detailed Description

The exemplary embodiments of the present invention will now be described with reference to the accompanying drawings, however, the present invention may be embodied in many different forms and is not limited to the embodiments described herein, which are provided for complete and complete disclosure of the present invention and to fully convey the scope of the present invention to those skilled in the art. The terminology used in the exemplary embodiments illustrated in the accompanying drawings is not intended to be limiting of the invention. In the drawings, the same units/elements are denoted by the same reference numerals.

Unless otherwise defined, terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Further, it will be understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense.

Fig. 1 is a schematic structural diagram of a system 100 for intelligently monitoring entry and exit self-service acceptance devices according to an embodiment of the present invention. As shown in fig. 1, the system for intelligently monitoring the entry and exit self-service acceptance device according to the embodiment of the present invention provides a unique and encrypted authentication file for each access device based on an authentication mechanism of the authentication file, thereby avoiding file tampering and abnormal device access, and greatly enhancing the security and reliability of the entry and exit self-service acceptance device access; by monitoring the running condition of the entry-exit self-service acceptance equipment in real time, the speed of knowing and processing abnormal conditions by managers can be increased, the service extrusion condition caused by abnormal equipment and slow processing is reduced, and the satisfaction of the masses is improved; through the large data visualization screen, the analysis report and the future trend chart of the operation condition and the data acquisition condition of the self-service acceptance equipment, scientific and visual monitoring means can be provided for entry and exit departments, and meanwhile, data support is provided for maintenance and configuration of the self-service acceptance equipment, so that the working efficiency of users is greatly improved. The system 100 for intelligently monitoring the entry and exit self-service acceptance equipment provided by the embodiment of the invention comprises: the system comprises a device access unit 101, a device access state monitoring unit 102, a device running state monitoring unit 103 and a data acquisition monitoring unit 104.

Preferably, the device access unit 101 is configured to determine an authentication file according to the received device registration request information, and store the authentication file in the corresponding self-service acceptance device to complete registration; and the data acquisition interface is in butt joint with the self-service acceptance equipment.

Preferably, the device access unit 101 determines an authentication file according to the received device registration request information, stores the authentication file in the corresponding self-service acceptance device, and interfaces with the self-service acceptance device through a data acquisition interface, including:

when the received equipment registration request passes the examination and approval, acquiring the MAC address and the type parameter of the self-service acceptance equipment, generating a unique equipment identification code through an encryption algorithm, storing the unique equipment identification code in an authentication file, and storing the authentication file in the corresponding self-service acceptance equipment to complete registration; and the WebService data acquisition interface constructed by using the Axi s2 framework technology is in butt joint with the self-service acceptance equipment.

Fig. 2 is an architecture diagram of the operation of the intelligent monitoring system according to the embodiment of the invention. As shown in fig. 2, in the embodiment of the present invention, an authentication mechanism based on an authentication file is used to enable a self-service acceptance device to access to an intelligent monitoring system. Specifically, an entry-exit self-service acceptance equipment manufacturer submits an application form and equipment information to an intelligent monitoring system for equipment registration; after the approval is passed, the system acquires information such as the MAC address and type parameters (a form filling machine, a signing machine, a progress inquiry machine and the like) of the equipment, generates a unique equipment number through an encryption algorithm and stores the equipment number in an authentication file, and then places the authentication file in a directory of a self-service machine program to complete registration. Therefore, one authentication file of one device is ensured, file tampering and access of abnormal devices are avoided, and the safety of the access device is guaranteed.

In addition, a WebService data acquisition interface is constructed by using an Axis2 framework technology, and then a uniform data acquisition interface is created by skillfully designing and intelligently splitting the interface parameters and simultaneously integrating the verification specifications of various outbound and inbound services. The self-service acceptance equipment can realize the warehousing check operation of all the entry and exit service data only by calling one interface and transmitting the parameters according to the requirements.

The embodiment of the invention adopts an authentication mechanism based on the authentication file, determines the authentication file containing the unique identification code and places the authentication file in the self-service acceptance equipment, ensures one authentication file for one equipment, avoids file tampering and access of abnormal equipment, and solves the problem that the safety authentication cannot be carried out on the access of various self-service acceptance equipment at present.

Preferably, the device access state monitoring unit 102 is configured to monitor an access state of the self-service acceptance device according to an authentication file on the self-service acceptance device.

Preferably, the monitoring unit 102 for monitoring the access state of the self-service acceptance device according to the authentication file on the self-service acceptance device includes:

acquiring an authentication file on self-service acceptance equipment, decoding and analyzing information in the authentication file, and judging whether the self-service acceptance equipment is in a registration state; if the self-service acceptance device does not have the authentication file or the information of the authentication file is false, the self-service acceptance device is immediately stopped from being accessed, and the access error alarm information is sent to the main control unit after the IP information of the self-service acceptance device is obtained.

In the embodiment of the invention, the access of all self-service acceptance equipment is managed and monitored by the equipment access state monitoring unit of the control system. Specifically, an equipment access state monitoring unit of the intelligent monitoring system acquires an authentication file on the self-service acceptance equipment, decodes and analyzes information in the authentication file, judges whether the equipment is registered in the system, immediately terminates access of the equipment if the equipment does not have the authentication file or information counterfeiting, acquires IP information, displays a mark in the equipment access monitoring unit, and simultaneously sends access error alarm information to a main control unit through short message notification or other modes so that relevant managers can make decisions and process.

Preferably, the device operation state monitoring unit 103 is configured to monitor an operation state of the self-service acceptance device according to a heartbeat signal reported by the self-service acceptance device through a data acquisition interface.

Preferably, the monitoring unit 103 for the running state of the device monitors the running state of the self-service acceptance device according to the heartbeat signal reported by the self-service acceptance device through the data acquisition interface, and includes:

if the time that the equipment running state monitoring unit does not receive the heartbeat signal sent by the self-service acceptance equipment through the data acquisition interface exceeds a preset heartbeat offline time threshold value, determining that the self-service acceptance equipment is in an offline state, and sending heartbeat error alarm information to the main control unit.

In the embodiment of the invention, the equipment running state monitoring unit monitors the running condition of the self-service acceptance equipment by adopting a heartbeat mechanism. The self-service acceptance equipment reports heartbeat signals to the intelligent monitoring system regularly by using a WebService protocol interface based on HTTP, and the intelligent monitoring system judges the equipment state according to the heartbeat signal indexes of the equipment and displays and warns.

The specific address and detail design of the heartbeat signal index comprises the following two aspects:

(1) whether online or not. So as to reach the set overtime threshold value and not receive the heartbeat signal to judge whether to go off-line. For example, if the frequency is 5 minutes, the heartbeat timeout time may be set to 10 minutes.

(2) The response time. I.e. the time it takes for the heartbeat signal to be responded to by the system. The response time is known only when the interface calling of the self-service acceptance equipment is finished. The response time is reported with the next heartbeat signal, i.e. the response time in each heartbeat signal is actually the last response time. When a heartbeat signal is first reported, a 0 may be passed.

In the embodiment of the present invention, in order to avoid too large data volume, the heartbeat frequency is not too high. But should not be too low for a fast response. Considering the limited bandwidth, the frequency is set to be 5 minutes, and the calculation is as follows: at 5 minutes, each day is (60/5) × 24 ═ 288 requests. If ten thousand terminals are accessed, 10000/(5 × 60) ≈ 33.33 requests per second, and 288 ten thousand requests per day. If a record is 100 bytes, then the amount of stored data is about 288MB per day. In addition, in order to reduce storage occupation, historical records can be cleaned regularly, and the intelligent monitoring system only stores abnormal data.

In addition, in order to reduce the data volume of the heartbeat signal, the idle heartbeat frequency setting is used, the busy hour working frequency and the idle working frequency are distinguished, and the time interval, the heartbeat frequency and the timeout threshold value can be flexibly configured. For example, the configuration information may be set as:

(1) busy hour: the time points are 7 to 19. The heartbeat frequency was 5 minutes and the timeout was 10 minutes.

(2) In idle time: time 19 to 7 days. The heartbeat frequency was 30 minutes and the timeout was 60 minutes.

The embodiment of the invention adopts the heartbeat mechanism to monitor the running condition of the equipment, and carries out display and early warning, thereby overcoming the problem that the running condition of various self-service handling equipment cannot be monitored in real time in a unified way at present.

Preferably, the data collecting and monitoring unit 104 is configured to compare the service data of the self-service acceptance device with a preset blacklist, so as to monitor the service data.

Preferably, the data collecting and monitoring unit 104 compares the service data of the self-service acceptance device with a preset blacklist to monitor the service data, and includes:

when the comparison result of the service data of the self-service acceptance equipment and the preset blacklist indicates that the verification fails, sending verification alarm information to the main control unit;

and when the comparison result of the service data of the self-service acceptance equipment and the preset blacklist indicates that the verification is passed, pushing the service data to an exit-entry certificate handling system server for warehousing.

In the embodiment of the invention, the data acquisition monitoring unit can display the checking condition of the service data of the respective acceptance assisting equipment in real time. The system can compare various blacklist personnel with the service data, if the data meets the set comparison condition, namely the blacklist personnel are compared, the data acquisition monitoring unit

The self-service acceptance equipment can give an early warning immediately, the self-service acceptance equipment is displayed in a juxtaposed mode, the data is marked by bright colors, meanwhile, short messages are sent to inform management personnel to process the data, the management personnel can conduct rechecking, forced warehousing and warehousing refusing warehousing operations on the data, operation logs are recorded in any operation, and later-stage checking is facilitated.

Preferably, wherein the system further comprises:

and the intelligent analysis unit is used for analyzing the monitoring condition of the self-service acceptance equipment and the monitoring condition of the service data, generating an analysis report and an equipment maintenance trend chart according to a preset analysis period, and visually displaying the analysis report and the equipment maintenance trend chart.

In the embodiment of the invention, the system carries out big data intelligent analysis on the equipment operation condition and the data acquisition condition through the intelligent analysis unit. The specific address comprises:

1) a large data visualization screen is generated, so that the operation condition and the data acquisition condition of respective auxiliary handling equipment are visually and easily presented, real-time observation by entry and exit departments is facilitated, and overall management is realized;

2) periodically generating an analysis report, and downloading and printing;

3) and establishing a data model, generating an equipment maintenance trend graph through the equipment operation condition, generating an equipment deployment trend graph through the data acquisition condition of various equipment, and providing scientific and effective data support for the self-service accepted equipment maintenance and resource allocation of each entry and exit unit.

The embodiment of the invention generates the visual large screen, the analysis report and the future trend chart of the operation condition and the data acquisition condition of the respective acceptance equipment by visual analysis, a data mining algorithm and predictive analysis, and can provide visual, comprehensive and scientific data support for the maintenance and the configuration of the self-service acceptance equipment of the entry and exit department.

Fig. 3 is a flow chart of the operation of the intelligent monitoring system according to an embodiment of the invention. As shown in fig. 3, includes:

s1, authenticating the accessed self-service acceptance equipment; wherein if the authentication is passed, go to S2; otherwise, go to S10;

s2, acquiring service data and reported heartbeat signals;

s3, checking the service data and monitoring the heartbeat signal;

s4, judging whether the heartbeat signal reaches a threshold value; if yes, go to S11; otherwise, go to S5;

s5, judging whether the service data passes the audit; if yes, go to S12; otherwise, go to S6;

s6, sending alarm information to the administrator in a short message notification mode;

s7, judging whether to recheck; if yes, returning to S3; otherwise, go to S8;

s8, judging whether to enter the warehouse forcibly; if yes, go to S12; otherwise, go to S9;

s9, judging whether to reject to put in storage; if yes, go to S10; otherwise, the process is directly finished;

and S10, feeding back the processing condition to the self-service acceptance device and ending.

S11, sending a message that the heartbeat signal reaches the threshold value to the administrator in a short message notification mode, and returning to S10;

and S12, pushing the business data to the entry and exit transaction system for warehousing, and returning to S10.

Fig. 4 is a flowchart of a method 400 for intelligently monitoring an inbound and outbound self-service acceptance device according to an embodiment of the invention. As shown in fig. 4, in a method 400 for intelligently monitoring entry and exit self-service acceptance devices according to an embodiment of the present invention, starting from step 401, in step 401, a device access unit determines an authentication file according to received device registration request information, and stores the authentication file in a corresponding self-service acceptance device to complete registration; and the data acquisition interface is in butt joint with the self-service acceptance equipment.

Preferably, the determining, by the device access unit, an authentication file according to the received device registration request information, storing the authentication file in the corresponding self-service acceptance device, and interfacing with the self-service acceptance device through a data collection interface includes:

when the received equipment registration request passes the examination and approval, acquiring the MAC address and the type parameter of the self-service acceptance equipment, generating a unique equipment identification code through an encryption algorithm, storing the unique equipment identification code in an authentication file, and storing the authentication file in the corresponding self-service acceptance equipment to complete registration; and the WebService data acquisition interface constructed by using the Axis2 framework technology is in butt joint with the self-service acceptance equipment.

In step 402, the device access state monitoring unit monitors the access state of the self-service acceptance device according to the authentication file on the self-service acceptance device.

Preferably, the monitoring unit of the access state of the device monitors the access state of the self-service acceptance device according to an authentication file on the self-service acceptance device, and includes:

acquiring an authentication file on self-service acceptance equipment, decoding and analyzing information in the authentication file, and judging whether the self-service acceptance equipment is in a registration state; if the self-service acceptance device does not have the authentication file or the information of the authentication file is false, the self-service acceptance device is immediately stopped from being accessed, and the access error alarm information is sent to the main control unit after the IP information of the self-service acceptance device is obtained.

In step 403, the device operation state monitoring unit monitors the operation state of the self-service acceptance device according to the heartbeat signal reported by the self-service acceptance device through the data acquisition interface.

Preferably, the monitoring unit of the running state of the device monitors the running state of the self-service acceptance device according to the heartbeat signal reported by the self-service acceptance device through the data acquisition interface, and includes:

if the time that the equipment running state monitoring unit does not receive the heartbeat signal sent by the self-service acceptance equipment through the data acquisition interface exceeds a preset heartbeat offline time threshold value, determining that the self-service acceptance equipment is in an offline state, and sending heartbeat error alarm information to the main control unit.

In step 404, the data collection monitoring unit compares the service data of the self-service acceptance device with a preset blacklist to monitor the service data.

Preferably, the data acquisition and monitoring unit compares the service data of the self-service acceptance device with a preset blacklist to monitor the service data, and the method includes:

when the comparison result of the service data of the self-service acceptance equipment and the preset blacklist indicates that the verification fails, sending verification alarm information to the main control unit;

and when the comparison result of the service data of the self-service acceptance equipment and the preset blacklist indicates that the verification is passed, pushing the service data to an exit-entry certificate handling method server for warehousing.

Preferably, wherein the method further comprises:

the intelligent analysis unit analyzes the monitoring condition of the self-service acceptance equipment and the monitoring condition of the service data, generates an analysis report and an equipment maintenance trend graph according to a preset analysis period, and displays the analysis report and the equipment maintenance trend graph visually.

The method 400 for intelligently monitoring the entry and exit self-service acceptance device according to the embodiment of the present invention corresponds to the system 100 for intelligently monitoring the entry and exit self-service acceptance device according to another embodiment of the present invention, and is not described herein again.

The invention has been described with reference to a few embodiments. However, other embodiments of the invention than the one disclosed above are equally possible within the scope of the invention, as would be apparent to a person skilled in the art from the appended patent claims.

Generally, all terms used in the claims are to be interpreted according to their ordinary meaning in the technical field, unless explicitly defined otherwise herein. All references to "a/an/the [ device, component, etc ]" are to be interpreted openly as referring to at least one instance of said device, component, etc., unless explicitly stated otherwise. The steps of any method disclosed herein do not have to be performed in the exact order disclosed, unless explicitly stated.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: modifications and equivalents may be made to the embodiments of the invention without departing from the spirit and scope of the invention, which is to be covered by the claims.

Claims (12)

1. A system for intelligently monitoring entry and exit self-service acceptance equipment, which is characterized by comprising:

the equipment access unit is used for determining an authentication file according to the received equipment registration request information, and storing the authentication file in the corresponding self-service acceptance equipment to complete registration; the data acquisition interface is connected with the self-service acceptance equipment in a butt joint mode;

the equipment access state monitoring unit is used for monitoring the access state of the self-service acceptance equipment according to the authentication file on the self-service acceptance equipment;

the equipment running state monitoring unit is used for monitoring the running state of the self-service acceptance equipment according to the heartbeat signal reported by the self-service acceptance equipment through the data acquisition interface;

and the data acquisition monitoring unit is used for comparing the service data of the self-service acceptance equipment with a preset blacklist so as to monitor the service data.

2. The system of claim 1, wherein the device access unit determines an authentication file according to the received device registration request information, stores the authentication file in the corresponding self-service acceptance device, and interfaces with the self-service acceptance device through a data collection interface, and includes:

when the received equipment registration request passes the examination and approval, acquiring the MAC address and the type parameter of the self-service acceptance equipment, generating a unique equipment identification code through an encryption algorithm, storing the unique equipment identification code in an authentication file, and storing the authentication file in the corresponding self-service acceptance equipment to complete registration; and the WebService data acquisition interface constructed by using the Axis2 framework technology is in butt joint with the self-service acceptance equipment.

3. The system according to claim 1, wherein the device access state monitoring unit monitors the access state of the self-service acceptance device according to an authentication file on the self-service acceptance device, and includes:

acquiring an authentication file on self-service acceptance equipment, decoding and analyzing information in the authentication file, and judging whether the self-service acceptance equipment is in a registration state; if the self-service acceptance device does not have the authentication file or the information of the authentication file is false, the self-service acceptance device is immediately stopped from being accessed, and the access error alarm information is sent to the main control unit after the IP information of the self-service acceptance device is obtained.

4. The system of claim 1, wherein the device operation state monitoring unit monitors the operation state of the self-service acceptance device according to a heartbeat signal reported by the self-service acceptance device through a data acquisition interface, and comprises:

if the time that the equipment running state monitoring unit does not receive the heartbeat signal sent by the self-service acceptance equipment through the data acquisition interface exceeds a preset heartbeat offline time threshold value, determining that the self-service acceptance equipment is in an offline state, and sending heartbeat error alarm information to the main control unit.

5. The system of claim 1, wherein the data collection monitoring unit compares the service data of the self-service acceptance device with a preset blacklist to monitor the service data, and the monitoring unit includes:

when the comparison result of the service data of the self-service acceptance equipment and the preset blacklist indicates that the verification fails, sending verification alarm information to the main control unit;

and when the comparison result of the service data of the self-service acceptance equipment and the preset blacklist indicates that the verification is passed, pushing the service data to an exit-entry certificate handling system server for warehousing.

6. The system of claim 1, further comprising:

and the intelligent analysis unit is used for analyzing the monitoring condition of the self-service acceptance equipment and the monitoring condition of the service data, generating an analysis report and an equipment maintenance trend chart according to a preset analysis period, and visually displaying the analysis report and the equipment maintenance trend chart.

7. A method for intelligently monitoring entry and exit self-service acceptance equipment is characterized by comprising the following steps:

the equipment access unit determines an authentication file according to the received equipment registration request information, and stores the authentication file in the corresponding self-service acceptance equipment to complete registration; the data acquisition interface is connected with the self-service acceptance equipment in a butt joint mode;

the equipment access state monitoring unit monitors the access state of the self-service acceptance equipment according to the authentication file on the self-service acceptance equipment;

the equipment running state monitoring unit monitors the running state of the self-service acceptance equipment according to the heartbeat signal reported by the self-service acceptance equipment through the data acquisition interface;

and the data acquisition monitoring unit compares the service data of the self-service acceptance equipment with a preset blacklist so as to monitor the service data.

8. The method according to claim 7, wherein the device access unit determines an authentication file according to the received device registration request information, stores the authentication file in the corresponding self-service acceptance device, and interfaces with the self-service acceptance device through a data acquisition interface, and includes:

when the received equipment registration request passes the examination and approval, acquiring the MAC address and the type parameter of the self-service acceptance equipment, generating a unique equipment identification code through an encryption algorithm, storing the unique equipment identification code in an authentication file, and storing the authentication file in the corresponding self-service acceptance equipment to complete registration; and the WebService data acquisition interface constructed by using the Axis2 framework technology is in butt joint with the self-service acceptance equipment.

9. The method according to claim 7, wherein the monitoring unit for the access state of the device monitors the access state of the self-service acceptance device according to an authentication file on the self-service acceptance device, and comprises:

acquiring an authentication file on self-service acceptance equipment, decoding and analyzing information in the authentication file, and judging whether the self-service acceptance equipment is in a registration state; if the self-service acceptance device does not have the authentication file or the information of the authentication file is false, the self-service acceptance device is immediately stopped from being accessed, and the access error alarm information is sent to the main control unit after the IP information of the self-service acceptance device is obtained.

10. The method according to claim 7, wherein the monitoring unit monitors the operation state of the self-service acceptance device according to the heartbeat signal reported by the self-service acceptance device through the data acquisition interface, and comprises:

if the time that the equipment running state monitoring unit does not receive the heartbeat signal sent by the self-service acceptance equipment through the data acquisition interface exceeds a preset heartbeat offline time threshold value, determining that the self-service acceptance equipment is in an offline state, and sending heartbeat error alarm information to the main control unit.

11. The method of claim 7, wherein the data collection and monitoring unit compares the service data of the self-service acceptance device with a preset blacklist to monitor the service data, and the method comprises:

when the comparison result of the service data of the self-service acceptance equipment and the preset blacklist indicates that the verification fails, sending verification alarm information to the main control unit;

and when the comparison result of the service data of the self-service acceptance equipment and the preset blacklist indicates that the verification is passed, pushing the service data to an exit-entry certificate handling method server for warehousing.

12. The method of claim 7, further comprising:

the intelligent analysis unit analyzes the monitoring condition of the self-service acceptance equipment and the monitoring condition of the service data, generates an analysis report and an equipment maintenance trend graph according to a preset analysis period, and displays the analysis report and the equipment maintenance trend graph visually.

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