CN112004055A - Image management method, system and computer readable storage medium - Google Patents

Abstract

The application provides an image management method, an image management system and a computer readable storage medium, relates to the technical field of image processing, and can solve the problem of how to conveniently monitor the states of acquisition end equipment and receiving end equipment. The specific technical scheme is as follows: acquiring user operation information, wherein the user operation information comprises subscription information, and the subscription information comprises identification information of target node equipment to be monitored; acquiring state information of the target node equipment to be monitored according to the identification information of the target node equipment to be monitored, wherein the state information comprises at least one of the networking state and the connection state of the target node equipment to be monitored; converting the state information into corresponding image information, wherein the image information comprises an icon color and/or a connection color, the icon color is used for indicating the networking state of the target node equipment to be monitored, and the connection color is used for indicating the connection state of the target node equipment to be monitored; and displaying the image information. The application is used for image management.

Description

Image management method, system and computer readable storage medium

Technical Field

The present application relates to the field of image processing technologies, and in particular, to an image management method, system, and computer-readable storage medium.

Background

The image transmission system generally includes an acquisition end device and a receiving end device, the acquisition end device can encode an image acquired from an image source device and then transmit the encoded image to the receiving end device, and the receiving end device decodes the encoded image and then displays the decoded image through a display to realize image transmission.

In order to realize normal transmission of images, it is generally necessary to monitor and manage the acquisition end device and the receiving end device, and therefore, it is necessary to provide a scheme to conveniently monitor the states of the acquisition end device and the receiving end device.

Disclosure of Invention

Embodiments of the present application provide an image management method, an image management system, and a computer-readable storage medium, which can solve the problem of how to conveniently monitor the states of an acquisition end device and a receiving end device. The technical scheme is as follows:

according to a first aspect of embodiments of the present application, there is provided an image management method, including:

acquiring user operation information, wherein the user operation information comprises subscription information, and the subscription information comprises identification information of target node equipment to be monitored;

acquiring state information of the target node equipment to be monitored according to the identification information of the target node equipment to be monitored, wherein the state information comprises at least one of the networking state and the connection state of the target node equipment to be monitored;

converting the state information into corresponding image information, wherein the image information comprises an icon color and/or a connection line color, the icon color is used for indicating the networking state of the target node equipment to be monitored, and the connection line color is used for indicating the connection state of the target node equipment to be monitored;

and displaying the image information.

According to the image management method, the user operation information can be acquired, the identification information of the target node device to be monitored can be acquired, the state information of the target node device to be monitored can be acquired according to the identification information, then the state information is converted into the corresponding image information and displayed to the user, the image information can indicate the networking state of the target node device to be monitored through the icon color, the connection state of the target node device to be monitored is indicated through the connection color, and the user can monitor the state of the target node device to be monitored at any time by observing the icon and/or the connection color on the display interface, so that convenience and intuition are achieved.

In one embodiment, the user operation information further includes a user ID, and the method further includes:

and storing the identification information of the target node equipment to be monitored and the user ID into a subscription table.

In one embodiment, after said converting said state information into corresponding image information, said method further comprises:

detecting whether the state information of the target node equipment to be monitored is changed;

if the change occurs, the changed state information is converted into corresponding image information.

In an embodiment, the detecting whether the status information of the target node device to be monitored is changed includes:

periodically sending a message for inquiring state information to the target node equipment to be monitored;

and determining whether the state information of the target node equipment to be monitored is changed or not according to the response message returned by the target node equipment to be monitored.

In one embodiment, the target node device to be monitored includes an acquisition end node device or a receiving end node device, and the determining, according to the response message returned by the target node device to be monitored, whether the state information of the target node device to be monitored changes includes:

when a response message returned by the target node equipment to be monitored is received within a preset time period, determining that the current state of the target node equipment to be monitored is normal, comparing the current state of the target node equipment to be monitored with the previous state, and determining whether the state information of the target node equipment to be monitored is changed according to the comparison result;

and when the response message returned by the target node equipment to be monitored is not received within a preset time period, determining that the current state of the target node equipment to be monitored is abnormal, comparing the current state of the target node equipment to be monitored with the previous state, and determining whether the state information of the target node equipment to be monitored is changed or not according to the comparison result.

In one embodiment, the target node device to be monitored includes an acquisition end node device and a receiving end node device, and the determining, according to the response message returned by the target node device to be monitored, whether the state information of the target node device to be monitored changes includes:

determining the current state information of the target node equipment to be monitored according to the connection state returned by the acquisition end node equipment and/or the connection state returned by the receiving end node equipment;

and comparing the current state information of the target node equipment to be monitored with the previous state information, and determining whether the state information of the target node equipment to be monitored is changed or not according to the comparison result.

In one embodiment, the displaying the image information comprises:

searching the identification information of the target node equipment to be monitored in the subscription table;

when the identification information of the target node equipment to be monitored is found, determining a user ID corresponding to the identification information of the target node equipment to be monitored;

and sending the image information to a display unit corresponding to the user ID for display.

According to the image management method, the identification information and the user ID of the target node device to be monitored can be stored in the subscription table, and therefore when the state information of the target node device to be monitored is obtained, the state information can be sent to the display unit corresponding to the user ID to be displayed at any time according to the identification information and the user ID recorded in the subscription table. When the state information of the target node equipment to be monitored is changed, the state information of the target node equipment to be monitored can be updated on the corresponding display unit in real time, so that the real-time monitoring of the target node equipment to be monitored is realized.

According to a second aspect of embodiments of the present application, there is provided an image management system including a processing module, and at least one set of a display unit and an operation unit connected to the processing module; the processing module is used for connecting the Internet through a first server, communicating with the acquisition end node equipment which is connected with the Internet through a second server through the Internet, and communicating with the receiving end node equipment which is connected with the Internet through a third server through the Internet;

the operation unit is configured to acquire user operation information and send the user operation information to a processing module, where the user operation information includes subscription information, the subscription information includes identification information of a target node device to be monitored, and the target node device to be monitored includes the acquisition end node device and/or the receiving end node device;

the processing module is configured to obtain state information of the target node device to be monitored according to the identification information of the target node device to be monitored, and send the state information to a display unit corresponding to the operation unit, where the state information includes at least one of a networking state and a connection state of the target node device to be monitored;

the display unit is used for converting the state information into corresponding image information and displaying the image information, the image information comprises icon colors and/or connecting line colors, the icon colors are used for indicating the networking state of the target node equipment to be monitored, and the connecting line colors are used for indicating the connecting state of the target node equipment to be monitored.

The image management system comprises a processing module, and at least one group of display units and operation units which are connected with the processing module, wherein the processing module is accessed to the internet through a first server and can communicate with the acquisition end node equipment and the receiving end node equipment through the internet. A user can subscribe a target node device to be monitored (an acquisition end node device and/or a receiving end node device) through the operation unit, the processing module can acquire the current state information of the target node device to be monitored according to the identification information of the target node device to be monitored, the display unit can further convert the state information into corresponding image information to be displayed to the user in an image form, the image information can indicate the networking state of the target node device to be monitored through the icon color, the connection state of the target node device to be monitored can be indicated through the connection line color, and the user can monitor the state of the target node device to be monitored at any time only by observing the icon and/or the connection line color on the display interface, so that convenience and intuition are achieved; moreover, the state of the collecting end node equipment and/or the receiving end node equipment scattered in various places can be monitored.

In an embodiment, the user operation information further includes a user ID, and the processing module is further configured to store the identification information of the target node device to be monitored and the user ID in a subscription table.

In an embodiment, after the status information of the target node device to be monitored is changed, the processing module is further configured to search the identification information of the target node device to be monitored in the subscription table, determine, when the identification information of the target node device to be monitored is found, a user ID corresponding to the identification information of the target node device to be monitored, and send image information corresponding to the changed status information to a display unit corresponding to the user ID for display.

The image management system of the embodiment of the application can store the identification information and the user ID of the target node device to be monitored into the subscription table, so that when the processing module acquires the state information of the target node device to be monitored, the state information can be sent to the display unit corresponding to the user ID for display at any time according to the identification information and the user ID recorded in the subscription table. When the state information of the target node equipment to be monitored is changed, the state information of the target node equipment to be monitored can be updated on the corresponding display unit in real time, so that the real-time monitoring of the target node equipment to be monitored is realized.

According to a third aspect of embodiments of the present application, there is provided a computer-readable storage medium having at least one computer instruction stored therein, the computer instruction being loaded and executed by a processor to implement the steps performed in the image management method as described above.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Fig. 1 is a flowchart of an image management method provided in an embodiment of the present application;

FIG. 2 is a schematic structural diagram of an image management system according to an embodiment of the present application;

FIG. 3 is a schematic diagram of an application of an image management system according to an embodiment of the present application;

FIG. 4 is a flowchart of a specific image management method provided in an embodiment of the present application;

fig. 5 is a schematic diagram of a display interface of an image management system according to an embodiment of the present application.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

An embodiment of the present application provides an image management method, as shown in fig. 1, the image management method may include the following steps:

step 101: and acquiring user operation information.

Firstly, user operation information is obtained, wherein the user operation information comprises subscription information, and the subscription information comprises identification information of target node equipment to be monitored. The identification information may be, for example, an RID (Router ID) and/or a SIP (Session Initiation Protocol) address. The target node device to be monitored can be a collecting end node device, a receiving end node device, a collecting end node device and a receiving end node device, and a user can subscribe the target node device to be monitored according to monitoring requirements.

In one embodiment, the user operation information may further include a user ID, and the image management method further includes: and storing the identification information and the user ID of the target node equipment to be monitored into a subscription table.

Step 102: and acquiring the state information of the target node equipment to be monitored.

After the operation information of the user is acquired, the identification information of the target node device to be monitored can be acquired, and at this time, the state information of the target node device to be monitored is acquired according to the identification information of the target node device to be monitored, wherein the state information includes at least one of the networking state and the connection state of the target node device to be monitored. For example, a relevant instruction for querying status information may be sent to the corresponding target node device according to the identification information of the target node device to be monitored, and the networking status and/or the connection status of the target node device to be monitored may be determined according to the returned response message.

Step 103: the state information is converted into corresponding image information.

After state information of target node equipment to be monitored is acquired, the state information is converted into corresponding image information, wherein the image information comprises icon colors and/or connecting line colors, the icon colors are used for indicating the networking state of the target node equipment to be monitored, and the connecting line colors are used for indicating the connecting state of the target node equipment to be monitored.

In one embodiment, after converting the state information into corresponding image information, the image management method further comprises:

detecting whether the state information of target node equipment to be monitored is changed;

if the change occurs, the changed state information is converted into corresponding image information.

Specifically, a message for inquiring the state information may be periodically sent to the target node device to be monitored; and then determining whether the state information of the target node equipment to be monitored is changed or not according to a response message returned by the target node equipment to be monitored.

Specifically, when the target node device to be monitored includes the acquisition end node device or the receiving end node device, whether the state information of the target node device to be monitored changes may be determined according to the response message returned by the target node device to be monitored by the following method:

when a response message returned by the target node equipment to be monitored is received within a preset time period, determining that the current state of the target node equipment to be monitored is normal, comparing the current state of the target node equipment to be monitored with the previous state, and determining whether the state information of the target node equipment to be monitored is changed or not according to the comparison result; and when the response message returned by the target node equipment to be monitored is not received within the preset time period, determining that the current state of the target node equipment to be monitored is abnormal, comparing the current state of the target node equipment to be monitored with the previous state, and determining whether the state information of the target node equipment to be monitored is changed or not according to the comparison result.

When the target node device to be monitored comprises the acquisition end node device and the receiving end node device, whether the state information of the target node device to be monitored is changed or not can be determined according to a response message returned by the target node device to be monitored by the following method:

determining the current state information of the target node equipment to be monitored according to the connection state returned by the acquisition end node equipment and/or the connection state returned by the receiving end node equipment; and comparing the current state information of the target node equipment to be monitored with the previous state information, and determining whether the state information of the target node equipment to be monitored is changed or not according to the comparison result.

Step 104: and displaying the image information.

After converting the state information into corresponding image information, the image information is displayed. For example, the image information can be sent to a display screen for displaying, so that a user can monitor the state of the target node device to be monitored at any time by observing the color of the icon and/or the connection line on the display screen, and the monitoring method is convenient and intuitive.

In one embodiment, when the state information of the target node device to be monitored changes, the identification information of the target node device to be monitored can be searched in the subscription table; when the identification information of the target node equipment to be monitored is found, determining a user ID corresponding to the identification information of the target node equipment to be monitored; and then sending the image information corresponding to the updated state information to a display unit corresponding to the user ID for display.

According to the image management method, the user operation information can be acquired, the identification information of the target node device to be monitored can be acquired, the state information of the target node device to be monitored can be acquired according to the identification information, then the state information is converted into the corresponding image information and displayed to the user, the image information can indicate the networking state of the target node device to be monitored through the icon color, the connection state of the target node device to be monitored is indicated through the connection color, and the user can monitor the state of the target node device to be monitored at any time by observing the icon and/or the connection color on the display interface, so that convenience and intuition are achieved.

Based on the same inventive concept, the embodiment of the present application provides an image management system, the structural schematic diagram of which is shown in fig. 2, and the image management system may include a processing module 01 and at least one set of a display unit 02 and an operation unit 03 connected to the processing module 01, for example, three sets of the display unit 02 and the operation unit 03 are exemplarily shown in fig. 2. With reference to fig. 2, fig. 3 is a schematic application diagram of an image management system, where a processing module 01 may be connected to the internet through a first server, and target node devices to be monitored (which may include a collecting end node device and/or a receiving end node device) may be set at different geographic locations, and the collecting end node device and the receiving end node device may be connected to each other through the internet through a second server and a third server, respectively, so that the image management system provided by the present application may communicate with the collecting end node device through the second server and communicate with the receiving end node device through the third server by using the processing module 01. Based on this, an administrator (user) can monitor the acquisition end node device and/or the reception end node device at an arbitrary position through the image management system at an arbitrary place.

The operation unit 03 is configured to acquire user operation information and send the user operation information to the processing module 01. For example, the operation unit 03 may detect an operation by a user and generate user operation information according to the operation by the user. The user operation information includes subscription information, the subscription information includes identification information of target node equipment to be monitored, and the target node equipment to be monitored includes acquisition end node equipment and/or receiving end node equipment. The operating unit 03 may be, for example, a keyboard, a mouse, a touch screen, and/or a voice recognition device.

The processing module 01 is configured to obtain status information of the target node device to be monitored according to the identification information of the target node device to be monitored, and send the status information to the display unit 02 corresponding to the operation unit 03, that is, the display units 02 in the same group. The state information may include at least one of a networking state and a connection state of the target node device to be monitored, and may include, for example, acquiring a networking state of the end node device, a networking state of the receiving end node device, and/or acquiring a connection state between the end node device and the receiving end node device. The collecting of the connection state between the end node device and the receiving end node device may include successful connection, ongoing connection, retry of the caller, unknown connection relationship, and the like.

After receiving the state information sent by the processing module 01, the display unit 02 converts the state information into corresponding image information, and displays the image information to a user. The display unit 02 may include a display or a display screen or the like. The converted image information comprises an icon color and/or a connection color, wherein the icon color is used for indicating the networking state of the target node equipment to be monitored, and the connection color is used for indicating the connection state of the target node equipment to be monitored. That is to say, the color of the icon may be used to indicate the current networking state of the acquisition end node device or the receiving end node device corresponding to the icon, for example, for the acquisition end node device, the icon of the acquisition end node device may be displayed on the display interface, the border color of the icon reflects the current networking state of the acquisition end node device, one color is displayed when the networking is normal, and another color is displayed when the networking is abnormal; the connection relation between the acquisition end node equipment and the receiving end node equipment can be indicated by adopting a connection line between icons of the acquisition end node equipment and the receiving end node equipment, and if the connection line exists between the acquisition end node equipment and the receiving end node equipment, the connection between the acquisition end node equipment and the receiving end node equipment is indicated; the color of the connection between the collecting end node device and the receiving end node device may be used to indicate the connection status.

In practical applications, the same group of the operation units 02 and the display unit 03 can be operated by one user, the processing module 01 can be connected with a plurality of groups of the operation units 02 and the display unit 03 operated by a plurality of users, and the same group of the display unit 02 and the operation unit 03 corresponds to one user ID. The user performs operation control through the operation unit 03, the operation unit 03 sends user operation information to the processing module 01, the user operation information further includes a user ID (Identity document), the processing module 01 executes a processing task according to the user operation information, and a processing result is displayed to the user through the display unit 02 corresponding to the same user ID.

In an embodiment, the user operation information further includes a user ID, and the processing module 01 is further configured to store the identification information of the target node device to be monitored and the user ID in a subscription table, for example, the subscription table may be set in the first server. In one embodiment, after the state information of the target node device to be monitored is changed, the processing module 01 is further configured to search the identification information of the target node device to be monitored in the subscription table, determine, when the identification information of the target node device to be monitored is found, a user ID corresponding to the identification information of the target node device to be monitored, and send image information corresponding to the changed state information to a display unit corresponding to the user ID for display. When the state information of the target node equipment to be monitored is changed, the state information of the target node equipment to be monitored can be updated on the corresponding display unit in real time, and the real-time monitoring of the target node equipment to be monitored is realized.

Specifically, the processing module 01 may detect whether the state information of the target node device to be monitored changes by the following method:

periodically sending a message for inquiring state information to target node equipment to be monitored;

and determining whether the state information of the target node equipment to be monitored is changed or not according to a response message returned by the target node equipment to be monitored.

For example, the target node device to be monitored is an acquisition end node device or a receiving end node device, the processing module 01 periodically sends a heartbeat message to the target node device to be monitored, where the heartbeat message is used to query the state information of the target node device to be monitored, if a response message returned by the target node device to be monitored is received within a preset time period, it is determined that the current state of the target node device to be monitored is normal, and if a response message returned by the target node device to be monitored is not received within the preset time period, it is determined that the current state of the target node device to be monitored is abnormal; at this time, the current state of the target node equipment to be monitored is compared with the previous state, and whether the state information of the target node equipment to be monitored is changed or not is determined according to the comparison result. For example, if the current state of the target node device to be monitored is abnormal and the previous state is normal, it is determined that the state information of the target node device to be monitored has changed, and if the previous state is also abnormal, it is determined that the state information of the target node device to be monitored has not changed.

When the state information of the target node device to be monitored is changed, the processing module 01 may search the identification information of the target node device to be monitored in the subscription table, determine the user ID corresponding to the identification information of the target node device to be monitored when the identification information of the target node device to be monitored is found, and then send the updated state information of the target node device to be monitored to the display unit corresponding to the user ID for display. Therefore, the state information of the collected end node equipment and the state information of the receiving end node equipment can be updated and monitored in real time.

For another example, the target node device to be monitored may be a collecting end node device and a receiving end node device, and in this case, besides the state information of the collecting end node device and the state information of the receiving end node device, the connection relationship and the connection state between the collecting end node device and the receiving end node device may also be monitored. Specifically, the processing module 01 may periodically send a state query message to the acquiring end node device and the receiving end node device, and determine the current state information of the target node device to be monitored according to the connection state returned by the acquiring end node device and/or the connection state returned by the receiving end node device. For example, any node device in the receiving end node device and the collecting end node device can be set as an active initiating end, the active initiating end initiates a connection request, the other end passively receives the connection request, and connection is established; when the connection is successfully established, the connection states of the two ends are both successful; when the connection is not established and the active initiating terminal is initiating a connection request to the other end, the connection state of the active initiating terminal is the calling retry; when the connection is not established yet and the other end of the active originating end is processing the connection request, the connection state of the other end is the connection. The processing module 01 may determine current state information, that is, a connection state, of the target node device to be monitored according to the connection state fed back from the two ends. Then, the processing module 01 compares the current state information of the target node device to be monitored with the previous state information, and determines whether the state information of the target node device to be monitored is changed according to the comparison result.

When detecting that the connection state between the acquiring end node device and the receiving end node device is changed, the processing module 01 may search the identification information of the acquiring end node device and the receiving end node device in the subscription table, further determine a user ID corresponding to the identification information when the identification information of the acquiring end node device and the receiving end node device are both found and matched, and then send the currently detected connection state to the display unit corresponding to the user ID for display. Therefore, the real-time updating and monitoring of the connection state of the acquisition end node equipment and the receiving end node equipment are realized.

The image management system of the embodiment of the application can access the internet through the first server, and monitors the acquisition end node equipment and/or the receiving end node equipment which are arranged at different geographic positions through the internet. The user can subscribe the collecting end node device and/or the receiving end node device which needs to be monitored through the operation unit, the processing module can acquire the current state information of the collecting end node device and/or the receiving end node device according to the subscription information of the user, the display unit can further convert the state information into corresponding image information to be displayed to the user in the form of an image, the image information can indicate the networking state of the target node device to be monitored through the color of the icon, the connection state of the target node equipment to be monitored is indicated through the color of the connecting line, and a user can monitor the states of the acquisition end node equipment and/or the receiving end node equipment which are arranged at different geographic positions at any time by observing the icon on the display interface and/or the color of the connecting line, so that the method is convenient and intuitive, and can monitor the states of the acquisition end node equipment and/or the receiving end node equipment which are scattered in various places.

In the above embodiment, the user is required to input subscription information, in practical applications, the subscription information may also be configured in advance in the first server, for example, each user ID has corresponding subscription information, the user may input the user ID through the operation unit 03, at this time, the processing module 01 may search the corresponding subscription information in the first server according to the user ID, then obtain the state information of the corresponding acquiring end node device and receiving end node device according to the subscription information, send the state information to the display unit 02 corresponding to the user ID, and display the state information to the user after the display unit 02 converts the state information into image information. Here, an automatic mode is provided, and the user can automatically monitor the acquisition end node device and the receiving end node device by inputting the user ID through the operation unit 03. Based on this, the image management system of the present application may design two modes for the user to select, namely, a manual mode in which the user inputs the subscription information and the user ID through the operation unit 03 and an automatic mode in which the user only needs to input the user ID.

Based on the image management system and the image management method of the above embodiments, the following describes in detail the processing flow of the image management system and the image management method of the present application, taking an example that the target node device to be monitored includes a receiving end node device and a collecting end node device, with reference to fig. 3.

As shown in fig. 4, which is a flowchart of a specific image management method provided in an embodiment of the present application, the method may include the following steps:

step 401: and acquiring user operation information.

The user can operate the image management system through the operation unit 03, and the operation unit 03 detects the user's operation, generates user operation information according to the user's operation, and then transmits the user operation information to the processing module 01. The user operation information may include subscription information and a user ID; the subscription information includes identification information of the receiving end node device and identification information of the collecting end node device, and may also include a subscription action, which may indicate that monitoring of the target node device is required.

In this step, the user may input identification information of the acquiring end node device and the receiving end node device that are expected to be observed through the operation unit 03, the identification information of the acquiring end node device may generally include an RID (Router ID) and/or an SIP (Session Initiation Protocol) address, and the identification information of the receiving end node device may generally include an SID and/or an SIP address. The operation unit 03 generates user operation information according to the operation of the user, and then sends the user operation information to the processing module 01, so that the processing module 01 can subscribe and collect the state information (networking state) of the end node device, the state information (networking state) of the receiving end node device, and the connection state between the two node devices by analyzing the user operation information.

In an embodiment, subscription information may also be configured in advance in the first server, for example, each user ID has corresponding subscription information, and the user may input the user ID through the operation unit 03, at this time, the processing module 01 may find the corresponding subscription information in the first server according to the user ID.

Step 402: and analyzing the user operation information and storing an analysis result into a subscription table.

The processing module 01 may obtain the subscription information and the user ID by analyzing the received user operation information, and at this time, may store the identification information of the acquiring end node device, the identification information of the receiving end node device, and the user ID in the subscription information into a subscription table, for example, may establish a subscription table in the first server, and add the identification information of the acquiring end node device, the identification information of the receiving end node device, and the user ID into the subscription table.

In this step, the processing module 01 stores the identification information of the collecting end node device and the receiving end node device, which is analyzed from the user operation information, into the subscription table, so that when the processing module 01 acquires the status information of the two node devices, the status information of the two node devices can be sent to the display unit corresponding to the user ID according to the identification information of the node devices and the user ID recorded in the subscription table, and the corresponding display unit converts the status information into image information and displays the image information to the user.

Step 403: and inquiring the state information of the target node equipment.

The processing module 01 periodically sends a heartbeat message to each target node device, where the heartbeat message is used to obtain the state of the target node device; judging whether response information corresponding to the heartbeat message is received within a preset time period; if response information corresponding to the heartbeat message is received within a preset time period, determining that the state of the target node equipment is normal, and updating the current state information of the target node equipment to be normal; if the response information corresponding to the heartbeat message is not received in the preset time period, the state of the target node equipment is determined to be abnormal, and the state information of the target node equipment is updated to be abnormal.

It should be noted that the heartbeat message sent by the processing module 01 to each target node device is connected to the internet through the first server, and can be sent to each node device only through transmission by a server near the node device. Specifically, when the processing module 01 sends the heartbeat message to the acquisition end node device, the processing module connects to the internet through the first server, sends the heartbeat message to the second server through the internet, and transmits the heartbeat message to the acquisition end node device through the second server; when the processing module 01 sends the heartbeat message to the receiving end node device, the processing module connects to the internet through the first server, sends the heartbeat message to the third server through the internet, and transmits the heartbeat message to the acquisition end node device through the third server.

Step 404: and judging whether the state information of the target node equipment is changed.

After querying the state information of the target node device, the processing module 01 determines whether the state information of the target node device is changed, and if so, executes step 405; otherwise, the state information of the target node equipment is continuously inquired according to the workflow.

Step 405: and updating and displaying the state information of the target node equipment.

When determining that the state information of the target node device is changed, the processing module 01 searches the identification information of the target node device in the subscription table, if the identification information of the target node device is found, determines a user ID corresponding to the identification information of the target node device, and sends the updated state information of the target node device to the display unit 02 corresponding to the user ID.

In this step, only when the state information of the target node device is changed, the processing module 01 searches the identification information of the target node device, and then sends the subscribed state information of the target node device to the display unit of the corresponding user ID. It is understood that the change of the state information of the target node device means that the state information of the target node device is updated from "normal" to "abnormal" or from "abnormal" to "normal".

Referring to fig. 5, a schematic diagram of a display interface of the image management system of the present application is shown. As shown in fig. 5, a node icon 51 is an icon of the acquisition end node device, and a node icon 52 is an icon of the receiving end node device, which are connected by a connection line to form a network topology diagram of the acquisition end node device and the receiving end node device. The current state of the target node device may be represented by a color of an icon frame, for example, in fig. 5, when the frame of the node icon is blue, the state of the target node device is normal, that is, the networking state is normal, normal network communication may be performed, and when the frame of the node icon is gray, the state of the target node device is abnormal, and the abnormal state may include non-networking, failure, offline, and the like.

The processing module 01 periodically queries and collects the state information of the end node device and the state information of the receiving end node device, when the state information is queried to be changed, the identification information of the corresponding target node device is searched in the subscription table, if the identification information of the target node device is found, the user ID corresponding to the identification information of the target node device is further determined, the updated state information of the target node device is sent to the display unit 02 corresponding to the user ID, the display unit 02 changes the border color of the corresponding node icon according to the updated state information, and a user can visually know the current state of the target node device through the border color, so that the method is very convenient.

The processing module 01 periodically queries and updates the connection state information between the collected end node device and the receiving end node device, in addition to periodically querying the state information of each target node device, and specifically executes the following steps:

step 406: and periodically sending a state query message to the acquisition end node equipment and the receiving end node equipment.

The processing module 01 periodically sends a status query message to the acquisition end node device and the receiving end node device through the first server. In this step, the period for the processing module 01 to send the status query message is usually longer than the period for sending the heartbeat message in step 403, for example, the period for sending the status query message may be 5 minutes.

Step 407: and receiving and collecting the connection state returned by the end node equipment and/or the receiving end node equipment.

After receiving the state query message, the acquisition end node device returns the connection state of the acquisition end node device to the processing module 01; the receiver node device returns its own connection state to the processing module 01 after receiving the state inquiry information. In this step, the processing module 01 receives and collects the connection state returned by the end node device and/or the receiving end node device through the first server.

Specifically, any one of the receiving end node device and the collecting end node device may be set as an active initiating end, where the active initiating end initiates the connection request, and the other end passively receives the connection request, and establishes the connection. When the connection has been successfully established, the connection states at both ends are successful. When the connection is not established yet and the active originating terminal is initiating a connection request to the other terminal, the connection status of the active originating terminal is a caller retry. When the connection is not established yet and the other end of the active originating end is processing the connection request, the connection state of the other end is the connection.

Step 408: and determining the current connection state information of the acquisition end node equipment and the receiving end node equipment.

After receiving the connection state from the acquiring end node device and/or the connection state of the receiving end node device, the processing module 01 determines the current connection state information of the acquiring end node device and the receiving end node device according to the connection state of the acquiring end node device and/or the connection state of the receiving end node device. The connection state information refers to state information of connection between the collecting end node device and the receiving end node device, and the connection state information includes connection success, connection in progress, calling retry, unknown connection relation and the like.

In this step, the processing module 01 may determine connection state information according to the connection state fed back from both ends. When the connection states fed back by the two ends are both successful, the connection state information is successful; when the connection state fed back by the two ends is not received, the connection state information is that the connection state is unknown; when the connection state of the active initiating end is calling retry, the connection state information can be set as calling retry; when the connection state of the other end except the active originating end is in connection, the connection state information may be set to be in connection.

It can be understood that the connection status information "connecting and caller retry" are both temporary statuses, and if the connection is overtime, the connection fails, the connection status information may be updated to that the connection relationship is unknown, and if the connection is successful, the connection status information may be updated to that the connection is successful.

Step 409: and judging whether the connection state information is changed.

The processing module 01 determines whether the connection status information is changed, and if so, executes step 410; otherwise, the connection state information between the end node equipment and the receiving end node equipment can be continuously inquired and collected according to the workflow.

Step 410: and searching the identification information of the acquisition end node equipment and the receiving end node equipment in the subscription table.

When determining that the connection state information is changed, the processing module 01 searches the identification information of two target node devices corresponding to the connection in the subscription table.

In this step, only when the connection status information is changed, the processing module 01 searches the subscription table for the identification information of the two target node devices corresponding to the connection.

Step 411: and determining the user ID corresponding to the identification information.

It can be understood that, since the connection corresponds to the two target node devices, only when the two target node devices corresponding to the connection exist in the subscription table and the identification information of the two target node devices match, it can be determined that the connection is subscribed by the user ID corresponding to the identification information. For example, in an embodiment, when subscribing to a collection end node device to be monitored, a user may input the SIP of the collection end node device and the SIP of an opposite end target node device (usually, a receiving end node device), and at this time, the two SIPs may be regarded as identification information of a collection end node device side; for the subscribed receiving end node device, the SIP of the receiving end node device and the SIP of the opposite end node device can be input as well, and at this time, the two SIPs can be regarded as the identification information of the receiving end node device side; at this time, as long as the two pieces of identification information are the same, it is considered that the identification information of the two node apparatuses match.

In this step, when the identification information of the two target node devices connected to the corresponding network is found and the identification information of the two target node devices is matched, the user ID corresponding to the identification information is further determined, and the currently queried connection state information is sent to the display unit 02 corresponding to the user ID.

Step 412: and updating and displaying the connection state information.

After receiving the connection state information of the acquisition end node device and the receiving end node device, the display unit 02 generates and displays image information according to the connection state information.

For example, in the display interface of fig. 5, if there is a connecting line between the node icon 51 and the node icon 52, it indicates that the two target node devices are connected, and the color of the connecting line may represent the state of the connection relationship. For example, when the connection is green, it indicates that two target node devices have been successfully connected; when the connecting line is blue, the two target node devices are connected; when the connecting line is yellow, the calling retry is indicated; when the connecting line is red, the connection relation is unknown, and a fault may occur. The calling party and the called party can be set when the connection between the two target node devices is established. In practical application, the corresponding relation between the connection line color and the connection state can be displayed in a preset area of the display interface, and a user is prompted.

In this step, the display unit 02 may update the color of the connection line between the node icons on the display interface shown in fig. 5 according to the received connection state information, and the user may conveniently know the connection state between the acquisition end node device and the receiving end node device by observing the color of the connection line.

The image management system and the image management method provided by the embodiment of the application can show the state of the collected end node device, the state of the collected receiving end node device and the connection state between the collected end node device and the collected receiving end node device through the color of the icon and/or the connection line on the display interface. The user can subscribe the concerned acquisition end node equipment, receiving end node equipment and connection state in advance, when the acquisition end node equipment, the receiving end node equipment and the connection state subscribed by the user change, the corresponding icon and/or the color of the connecting line on the display interface can be updated according to the current state information, so that the user can monitor the acquisition end node equipment, the receiving end node equipment and the connection state between the acquisition end node equipment and the receiving end node equipment at any time by observing the icon and/or the color of the connecting line on the display interface, and the method is very convenient.

Based on the image management method described in the foregoing embodiments, an embodiment of the present application further provides a computer-readable storage medium, for example, the non-transitory computer-readable storage medium may be a Read Only Memory (ROM), a Random Access Memory (RAM), a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like. The storage medium stores computer instructions for executing the method described in the embodiment corresponding to fig. 1, which is not described herein again.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the application being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (11)

1. An image management method, comprising:

acquiring user operation information, wherein the user operation information comprises subscription information, and the subscription information comprises identification information of target node equipment to be monitored;

acquiring state information of the target node equipment to be monitored according to the identification information of the target node equipment, wherein the state information comprises at least one of the networking state and the connection state of the target node equipment to be monitored;

converting the state information into corresponding image information, wherein the image information comprises an icon color and/or a connection line color, the icon color is used for indicating the networking state of the target node equipment to be monitored, and the connection line color is used for indicating the connection state of the target node equipment to be monitored;

and displaying the image information.

2. The method according to claim 1, wherein the user operation information further includes a user ID, and the method further comprises:

and storing the identification information of the target node equipment to be monitored and the user ID into a subscription table.

3. The method of claim 2, wherein after said converting the state information into corresponding image information, the method further comprises:

detecting whether the state information of the target node equipment to be monitored is changed;

if the change occurs, the changed state information is converted into corresponding image information.

4. The method according to claim 3, wherein the detecting whether the status information of the target node device to be monitored is changed comprises:

periodically sending a message for inquiring state information to the target node equipment to be monitored;

and determining whether the state information of the target node equipment to be monitored is changed or not according to the response message returned by the target node equipment to be monitored.

5. The method according to claim 4, wherein the target node device to be monitored comprises an acquisition end node device or a receiving end node device, and the determining whether the state information of the target node device to be monitored is changed according to the response message returned by the target node device to be monitored comprises:

when a response message returned by the target node equipment to be monitored is received within a preset time period, determining that the current state of the target node equipment to be monitored is normal, comparing the current state of the target node equipment to be monitored with the previous state, and determining whether the state information of the target node equipment to be monitored is changed according to the comparison result;

and when the response message returned by the target node equipment to be monitored is not received within a preset time period, determining that the current state of the target node equipment to be monitored is abnormal, comparing the current state of the target node equipment to be monitored with the previous state, and determining whether the state information of the target node equipment to be monitored is changed or not according to the comparison result.

6. The method according to claim 4, wherein the target node device to be monitored comprises an acquisition end node device and a receiving end node device, and the determining whether the status information of the target node device to be monitored is changed according to the response message returned by the target node device to be monitored comprises:

determining the current state information of the target node equipment to be monitored according to the connection state returned by the acquisition end node equipment and/or the connection state returned by the receiving end node equipment;

and comparing the current state information of the target node equipment to be monitored with the previous state information, and determining whether the state information of the target node equipment to be monitored is changed or not according to the comparison result.

7. The method of claim 3, wherein the displaying the image information comprises:

searching the identification information of the target node equipment to be monitored in the subscription table;

when the identification information of the target node equipment to be monitored is found, determining a user ID corresponding to the identification information of the target node equipment to be monitored;

and sending the image information to a display unit corresponding to the user ID for display.

8. An image management system is characterized by comprising a processing module, and at least one group of display unit and operation unit which are connected with the processing module; the processing module is used for connecting the Internet through a first server, communicating with the acquisition end node equipment which is connected with the Internet through a second server through the Internet, and communicating with the receiving end node equipment which is connected with the Internet through a third server through the Internet;

the operation unit is configured to acquire user operation information and send the user operation information to a processing module, where the user operation information includes subscription information, the subscription information includes identification information of a target node device to be monitored, and the target node device to be monitored includes the acquisition end node device and/or the receiving end node device;

the processing module is configured to obtain state information of the target node device to be monitored according to the identification information of the target node device to be monitored, and send the state information to a display unit corresponding to the operation unit, where the state information includes at least one of a networking state and a connection state of the target node device to be monitored;

the display unit is used for converting the state information into corresponding image information and displaying the image information, the image information comprises icon colors and/or connecting line colors, the icon colors are used for indicating the networking state of the target node equipment to be monitored, and the connecting line colors are used for indicating the connecting state of the target node equipment to be monitored.

9. The image management system of claim 8, wherein the user operation information further includes a user ID, and the processing module is further configured to store the identification information of the target node device to be monitored and the user ID in a subscription table.

10. The image management system according to claim 9, wherein after the status information of the target node device to be monitored is changed, the processing module is further configured to search the identification information of the target node device to be monitored in the subscription table, determine, when the identification information of the target node device to be monitored is found, a user ID corresponding to the identification information of the target node device to be monitored, and send the image information corresponding to the changed status information to the display unit corresponding to the user ID for display.

11. A computer-readable storage medium having stored therein at least one computer instruction which is loaded and executed by a processor to implement the steps performed in the image management method of any one of claims 1 to 7.

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