CN116684295B

CN116684295B - Visual management method and system for comprehensive wiring all-optical network

Info

Publication number: CN116684295B
Application number: CN202310627455.5A
Authority: CN
Inventors: 宋志明
Original assignee: Jiangsu Baisheng Yunshang Data Technology Co ltd
Current assignee: Jiangsu Baisheng Yunshang Data Technology Co ltd
Priority date: 2023-05-31
Filing date: 2023-05-31
Publication date: 2023-11-07
Anticipated expiration: 2043-05-31
Also published as: CN116684295A

Abstract

The invention provides a comprehensive wiring all-optical network visual management method and a system, which are used for combining an internal separation wall body image and a basic wall body image to generate a total twin space of a building; determining a public equipment position of public equipment in a building total twin space and a tenant equipment position of tenant equipment in the building total twin space; placing a preset public equipment image of the public equipment and a preset tenant equipment image of the tenant equipment at corresponding equipment slots to generate a configuration twin space; receiving triggering operation of an administrator on the configuration twin space, connecting preset public equipment images with each other, receiving triggering operation of a tenant on the configuration twin space, connecting preset tenant equipment images with each other, and generating a static total twin space; based on the connection state of each optical network information transmission device in the dynamic connection table, updating the display state of each connection relation in the static total twin space to generate the dynamic total twin space.

Description

Visual management method and system for comprehensive wiring all-optical network

Technical Field

The invention relates to a data processing technology, in particular to a comprehensive wiring all-optical network visual management method and system.

Background

The all-optical network refers to that signals are only subjected to electric/optical and optical/electric conversion when entering and exiting the network, and are always in an optical form in the transmission and exchange processes in the network, because no electric treatment exists in the whole transmission process, the utilization rate of network resources is improved, and the connection between the daily life and work of people and the network is more and more tight along with the progress of living standard, so that the effective management of the network is particularly important.

In the prior art, as network technology is continuously developed, the number of network transmission devices of enterprises is rapidly increased, the physical distribution of devices and lines is also very dispersed, and when abnormal devices are positioned, a one-to-one removal mode is required, related abnormal devices cannot be directly positioned, so that a manager needs to spend a great deal of time and effort when managing a great deal of branch devices in a network.

Therefore, how to make the display of the network transmission equipment and the lines in the all-optical network more visual, so as to facilitate the effective monitoring and management of the management staff becomes a problem to be solved urgently.

Disclosure of Invention

The embodiment of the invention provides a comprehensive wiring all-optical network visual management method and a system, which can ensure that the display of network transmission equipment and lines in the all-optical network is more visual, and are convenient for management personnel to effectively monitor and manage.

In a first aspect of the embodiment of the present invention, a comprehensive wiring all-optical network visualization management method is provided, including:

constructing a basic wall image corresponding to a target building and an internal separation wall image, and combining the internal separation wall image and the basic wall image to generate a total building twin space;

counting and classifying all optical network information transmission devices in the building total twin space to obtain public devices and tenant devices corresponding to each tenant, and determining the public device position of the public devices in the building total twin space and the tenant device position of the tenant devices in the building total twin space;

constructing corresponding equipment slots in the building total twin space according to the public equipment positions and the tenant equipment positions, and placing preset public equipment images of the public equipment and preset tenant equipment images of the tenant equipment at the corresponding equipment slots to generate a configuration twin space;

receiving triggering operation of an administrator on the configuration twin space, connecting the preset public equipment images with each other, receiving triggering operation of a tenant on the configuration twin space, connecting the preset tenant equipment images with each other, and generating a static total twin space;

And determining a dynamic connection table of each optical network information transmission device according to the static total twin space, and updating the display state of each connection relation in the static total twin space based on the connection state of each optical network information transmission device in the dynamic connection table to generate a dynamic total twin space.

Optionally, in one possible implementation manner of the first aspect, the constructing a corresponding device slot in the building total twin space according to the public device location and the tenant device location, placing a preset public device image of the public device and a preset tenant device image of the tenant device at the corresponding device slot, and generating a configuration twin space includes:

constructing a public equipment slot in the building total twin space according to the public equipment position, wherein the public equipment slot is provided with a public slot label corresponding to the corresponding public equipment;

based on the public slot position label, placing a preset public device image of the public device at the corresponding public device slot position to generate a configured public sub-twin space;

constructing tenant equipment slots in the building total twin space according to the tenant equipment positions, wherein the tenant equipment slots are provided with tenant slot labels corresponding to the corresponding tenant equipment;

Based on the tenant slot label, placing a preset tenant equipment image of the tenant equipment at the corresponding tenant equipment slot to generate a configuration tenant sub-twin space;

and generating a configuration twin space according to the configuration public twin space and the configuration tenant twin space.

Optionally, in one possible implementation manner of the first aspect, the receiving the triggering operation of the configuration twin space by the administrator connects the preset public device images with each other, receiving the triggering operation of the configuration twin space by the tenant connects the preset tenant device images with each other, and generating a static total twin space includes:

receiving triggering operation of an administrator on the preset public equipment images in the configuration twin space, and connecting the preset public equipment images with each other based on the triggering operation to generate a static public sub-twin space;

receiving triggering operation of the tenant on the preset tenant equipment images in the configuration twin space, and connecting the preset tenant equipment images with each other based on the triggering operation to generate a static tenant sub-twin space;

and generating a static total twin space according to the static public twin space and the static tenant twin space.

Optionally, in one possible implementation manner of the first aspect, the generating a static tenant sub-twin space by connecting the preset tenant device images with each other based on the triggering operation includes:

acquiring a central point of the preset tenant equipment image as a connection point, and connecting the connection points of the preset tenant equipment images with each other based on the triggering operation to generate an equipment connection line;

when the number of the overlapped pixel points between the equipment connecting lines is judged to be larger than the number of the preset pixel points, a preset translation reference line which penetrates through the center point and corresponds to the corresponding preset tenant equipment image is called;

acquiring the overlapping number of device connecting lines of corresponding preset tenant device images, and dividing the preset translation reference lines according to the overlapping number to obtain a plurality of connecting points;

and connecting the connection points of the corresponding preset tenant equipment images to each other to generate a static tenant sub-twin space.

Optionally, in one possible implementation manner of the first aspect, the acquiring a center point of the preset tenant device image as a connection point, based on the triggering operation, connects the connection points of the preset tenant device images to each other, and generates a device connection line, including:

Acquiring a central point of the preset tenant equipment image as a connection point, and determining two interconnected preset tenant equipment images based on the triggering operation;

establishing a space coordinate system according to any pixel point in the static tenant sub-twin space, and carrying out coordinate processing on the static tenant sub-twin space to obtain a first connection point coordinate and a second connection point coordinate of the two mutually connected preset tenant equipment images;

determining a first connecting line according to the abscissa of the first connecting point coordinate, and determining a second connecting line according to the ordinate of the second connecting point coordinate; or alternatively, the first and second heat exchangers may be,

determining a first connecting line according to the ordinate of the first connecting point coordinate, and determining a second connecting line according to the abscissa of the second connecting point coordinate;

determining a first intersection point coordinate according to the first connecting line and the second connecting line, determining a first connecting line according to the first intersection point coordinate and the first connecting point coordinate, determining a second connecting line according to the first intersection point coordinate and the second connecting point coordinate, and generating a device connecting line based on the first connecting line and the second connecting line.

Optionally, in one possible implementation manner of the first aspect, the method further includes:

Receiving update information of a tenant, analyzing the update information to obtain update equipment and a first equipment type corresponding to the update equipment, and acquiring a corresponding update tenant equipment image according to the first equipment type;

invoking a static tenant sub-twin space corresponding to the tenant, acquiring a first tenant equipment slot position corresponding to the first equipment type in the static tenant sub-twin space, and determining first position information of the first tenant equipment slot position;

and processing the first equipment type and the first position information according to an updating strategy to obtain a newly added slot, and adding the updated tenant equipment image into the newly added slot to obtain an updated static tenant sub-twin space.

Optionally, in one possible implementation manner of the first aspect, the processing the first device type and the first location information according to an update policy to obtain a new slot, adding the updated tenant device image to the new slot to obtain an updated static tenant sub-twin space, includes:

classifying first tenant equipment slots corresponding to the first equipment type in the static tenant sub-twin space based on slot phase relation to obtain a plurality of first slot phase sets;

Acquiring the number of the first slot sets, determining the first slot set with the largest number as a newly increased slot set, and taking a first tenant equipment slot in the newly increased slot set as a second tenant equipment slot;

determining a blank area adjacent to the second tenant equipment slot in the static tenant sub-twin space as a newly added area, constructing a newly added slot in the newly added area, and adding the updated tenant equipment image into the newly added slot;

responding to triggering operation of the tenant, and connecting the updated tenant equipment image with a corresponding preset tenant equipment image to obtain an updated static tenant sub-twin space.

responding to the updated information of the tenant, calling a static tenant sub-twin space and sending the static tenant sub-twin space to a corresponding tenant end;

receiving dividing operation of a tenant based on a tenant end on the static tenant twin space, and obtaining an newly added slot position corresponding to the static tenant twin space;

analyzing the update information to obtain update equipment and a first equipment type corresponding to the update equipment, acquiring a corresponding update tenant equipment image according to the first equipment type, and adding the update tenant equipment image into the newly added slot;

Optionally, in one possible implementation manner of the first aspect, the determining a dynamic connection table of each optical network information transmission device according to the static total twin space, updating a display state of each connection relationship in the static total twin space based on a connection state of each optical network information transmission device in the dynamic connection table, and generating a dynamic total twin space includes:

acquiring a connecting line label of each equipment connecting line in a static total twin space as a first label, and 2 equipment labels of the optical network information transmission equipment connected with the connecting line label as a second label and a third label;

extracting the first label to a first column of a dynamic connection table, filling the second label to a second column of the same row as the corresponding first label, and filling the third label to a third column of the same row as the corresponding first label;

acquiring a connection state and a communication time length of the first tag, filling the connection state into a fourth column of the same row as the corresponding first tag, filling the communication time length into a fifth column of the same row as the corresponding first tag, and generating a dynamic connection table of each optical network information transmission device;

Acquiring a connection state corresponding to each first tag in the dynamic connection table, wherein the connection state comprises a communication state and a disconnection state;

when the first label is judged to be in a disconnection state, marking a device connecting line corresponding to the first label in the static total twin space as a first color;

and when the first tag is judged to be in a communication state, marking a device connecting line corresponding to the first tag in the static total twin space as a second color, and generating a dynamic total twin space.

In a second aspect of the embodiment of the present invention, there is provided an integrated wiring all-optical network visualization management system, including:

the construction module is used for constructing a basic wall image corresponding to a target building and an internal separation wall image, and combining the internal separation wall image and the basic wall image to generate a total twin space of the building;

the determining module is used for counting and classifying all optical network information transmission devices in the building total twin space to obtain public devices and tenant devices corresponding to each tenant, and determining the public device position of the public devices in the building total twin space and the tenant device position of the tenant devices in the building total twin space;

The configuration module is used for constructing corresponding equipment slots in the building total twin space according to the public equipment positions and the tenant equipment positions, placing preset public equipment images of the public equipment and preset tenant equipment images of the tenant equipment at the corresponding equipment slots and generating a configuration twin space;

the connection module is used for respectively receiving triggering operations of an administrator and a tenant on the configuration twin space, and based on the triggering operations, mutually connecting the preset public equipment images and the preset tenant equipment images to generate a static total twin space;

the display module is used for determining a dynamic connection table of each optical network information transmission device according to the static total twin space, updating the display state of each connection relation in the static total twin space based on the connection state of each optical network information transmission device in the dynamic connection table, and generating a dynamic total twin space.

The beneficial effects of the invention are as follows:

1. the invention can generate the static total twin space corresponding to the target building, and the connection relation between the optical network information transmission devices is obtained in real time through the dynamic connection table, so that the optical network information transmission devices are displayed in the twin space in different display states, and a manager can more intuitively observe the connection state of the corresponding devices, thereby being convenient for a user to manage. Therefore, the invention constructs the total twin space of the building corresponding to the target building in advance, determines the category of the equipment according to the space where the equipment is located, uses the equipment in the public area of the building as the public equipment, uses the equipment corresponding to the tenant area as the tenant equipment, and facilitates the subsequent management and viewing of the equipment. And the device images are placed at the device slots of the corresponding positions, initial static twin total spaces corresponding to the building and all the optical network information transmission devices in the building are generated according to the operations of an administrator and a tenant, dynamic connection tables of all the optical network information transmission devices are determined according to the initial static twin total spaces, the connection states of all the devices are obtained in real time through the dynamic connection tables, and real-time display is performed in the dynamic total twin spaces, so that the display of network transmission devices and lines in the all-optical network is more visual, effective monitoring and management are convenient for the administrator and the tenant, and a large amount of management time is effectively saved.

2. The device is divided into the tenant device and the public device, the static public sub-twin space is generated through the configuration of the administrator, and the static tenant sub-twin space is generated through the configuration of the tenant, so that the user and the administrator can manage and monitor respectively. According to the sequence of the triggering operation of the manager, the center points of the preset total public equipment image and the preset sub public equipment image are connected with each other, so that the total server is correspondingly connected with the sub servers of each layer, and a static public sub twin space is generated, thereby facilitating the management of the subsequent manager. According to the triggering sequence of tenants, connecting points of preset tenant equipment images are connected with each other to obtain equipment connecting lines, when the equipment connecting lines overlap, preset translation reference lines are called, according to the overlapping quantity, the connecting points are distributed according to the overlapping quantity and the length of the preset translation reference lines, the connecting lines translate up and down, the connecting points are connected with each other, large overlapping does not occur between the tenant equipment images, and the subsequent user can observe conveniently. According to the method and the system, the first connecting line and the second connecting line are automatically determined in the coordinate system according to the triggering operation and the distributed connecting points of the tenants, so that the device connecting line is generated, the devices of the tenants are automatically connected, the static tenant twin space is automatically generated, and the monitoring and the management of subsequent users are facilitated.

3. When a tenant adds new equipment, the invention updates the static tenant sub-twin space of the tenant in 2 modes according to the update information of the user. The method comprises the steps of analyzing update information to obtain a first equipment type to be updated, automatically determining first position information of a static tenant sub-twin space and the first equipment type in the same type, determining a newly-increased slot set where the equipment with the largest number of the same type is located, constructing the newly-increased slot at a blank area adjacent to the newly-increased slot set, adding a newly-increased updated tenant equipment image into the newly-increased slot, and connecting the newly-increased equipment with corresponding other equipment through user triggering, so that the static tenant sub-twin space is automatically updated. And secondly, the dividing operation of the static tenant sub-twin space is actively carried out by the tenant, so that a corresponding newly-added slot position is obtained, and the newly-added device is connected with the corresponding other devices through user triggering, so that the user can actively update the static tenant sub-twin space.

4. According to the invention, a dynamic connection table is generated according to the connection relation, the connection state and the communication time length of each optical network information transmission device in the static total twin space, and each connecting line in the static total twin space is dynamically controlled through the dynamic connection table, so that tenants and management staff can directly determine the connection state of corresponding devices through the change of the devices in the dynamic total twin space, and the management is convenient. According to the invention, the dynamic connection table is generated through the connection line label of the device connection line, the 2 device labels, the connection states and the communication time length of the optical network information transmission device connected with the device connection line, the connection states and the time length of each device can be obtained in real time by the dynamic connection table, and different states of the static total twin space are controlled to be displayed in different colors, so that a user can more intuitively check the connection states and the quantity of the devices, and the working efficiency is better improved; the method and the device can actively acquire the connection quantity and the total connection time of all the devices in the twin space, perform offset processing on the preset maintenance time according to the connection quantity and the total connection time to obtain the actual maintenance time of all the network devices, send the actual maintenance time to an administrator and perform on-time maintenance.

Drawings

FIG. 1 is a flow chart of a comprehensive wiring all-optical network visual management method provided by the invention;

fig. 2 is a schematic structural diagram of an integrated wiring all-optical network visual management system provided by the invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein.

It should be understood that, in various embodiments of the present invention, the sequence number of each process does not mean that the execution sequence of each process should be determined by its functions and internal logic, and should not constitute any limitation on the implementation process of the embodiments of the present invention.

It should be understood that in the present invention, "comprising" and "having" and any variations thereof are intended to cover non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements that are expressly listed or inherent to such process, method, article, or apparatus.

It should be understood that in the present invention, "plurality" means two or more. "and/or" is merely an association relationship describing an association object, meaning that there may be three relationships, e.g., a and/or B, may represent: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship. "comprising A, B and C", "comprising A, B, C" means that all three of A, B, C comprise, "comprising A, B or C" means that one of the three comprises A, B, C, and "comprising A, B and/or C" means that any 1 or any 2 or 3 of the three comprises A, B, C.

It should be understood that in the present invention, "B corresponding to a", "a corresponding to B", or "B corresponding to a" means that B is associated with a, from which B can be determined. Determining B from a does not mean determining B from a alone, but may also determine B from a and/or other information. The matching of A and B is that the similarity of A and B is larger than or equal to a preset threshold value.

As used herein, "if" may be interpreted as "at … …" or "at … …" or "in response to a determination" or "in response to detection" depending on the context.

The technical scheme of the invention is described in detail below by specific examples. The following embodiments may be combined with each other, and some embodiments may not be repeated for the same or similar concepts or processes.

The invention provides a comprehensive wiring all-optical network visual management method, as shown in fig. 1, comprising the following steps of S1-S4:

s1, constructing a basic wall image corresponding to a target building and an internal separation wall image, and combining the internal separation wall image and the basic wall image to generate a total twin space of the building.

It should be noted that, the invention can pre-construct the same building total twin space as the target building, so that the corresponding optical network information transmission equipment can be conveniently placed at the corresponding position in the building total twin space.

The foundation wall body image is a foundation wall body image of the floors on the outer surface and inside of the target building, the inner partition wall body image is a partition wall body in the foundation wall body image, and the inner space is divided to form a space corresponding to a plurality of tenants and a space of a public part.

It can be understood that, the same principle as that of generating a twin space corresponding to a building in the prior art, all internal partition wall images are combined with a basic wall image according to corresponding wall positions to generate a total twin space of the building.

Through the embodiment, the building total twin space which is completely the same as the target building is constructed, so that the corresponding optical network information transmission equipment is conveniently placed in the building total twin space, and the subsequent observation and management of a user are facilitated.

S2, counting and classifying all optical network information transmission devices in the building total twin space to obtain public devices and tenant devices corresponding to each tenant, and determining the public device position of the public devices in the building total twin space and the tenant device position of the tenant devices in the building total twin space.

The optical network information transmission device is each information transmission device in the all-optical network, for example: switches, computers, etc.

In order to facilitate the management of the respective devices by the tenants and the administrator, the optical network information transmission devices are divided into public devices and tenant devices in the total twin space of the building, wherein the public devices are all optical network information transmission devices in the public space, for example, devices such as servers, broadband boxes and the like among devices at each layer in the building. The tenant device is an optical network information transmission device of each tenant, for example, a switch, a computer, and other devices of the tenant.

It can be understood that the different spaces of the optical network information transmission devices in the total twin space of the building are classified to obtain public devices and tenant devices corresponding to the tenants. The public equipment and the tenant equipment are both in the target building, so that the public equipment position and the tenant equipment position preset by the public equipment and the tenant equipment according to actual conditions are obtained.

Through the embodiment, the preset public equipment position and the preset tenant equipment position can be obtained, so that corresponding equipment images can be conveniently and subsequently placed at corresponding positions, a configuration twin space is generated, and subsequent observation and management by subsequent tenants and administrators are conveniently carried out.

S3, constructing corresponding equipment slots in the building total twin space according to the public equipment positions and the tenant equipment positions, and placing preset public equipment images of the public equipment and preset tenant equipment images of the tenant equipment at the corresponding equipment slots to generate a configuration twin space.

It can be appreciated that respective device slots are constructed at corresponding public device locations and tenant device locations in the building total twin space, and then a preset public device image of the public device and a preset tenant device image of the tenant device are placed at the corresponding device slots to generate the configuration twin space.

In some embodiments, in step S3 (constructing a corresponding device slot in the building total twin space according to the public device position and the tenant device position, placing a preset public device image of the public device and a preset tenant device image of the tenant device at the corresponding device slot, and generating a configuration twin space), including S31-S35:

s31, constructing a public equipment slot in the building total twin space according to the public equipment position, wherein the public equipment slot is provided with a public slot label corresponding to the corresponding public equipment.

It will be appreciated that each common device has a common device tag corresponding thereto, and that each common device slot has a common slot tag corresponding to the respective common device. For example, the common slot label of the server slot between the 1 st floor devices is 1-F, and the common device label of the server between the 1 st floor devices is 1-F.

Through the embodiment, the preset public equipment image and the corresponding public equipment slot position are conveniently combined by using the public slot position label.

S32, based on the public slot position labels, placing preset public equipment images of the public equipment at the corresponding public equipment slot positions, and generating a configured public sub-twin space.

It will be appreciated that if the public device tag of the public device is the same as the public slot tag of the public device slot, then the preset public device image of the public device is placed at the corresponding public device slot, thereby generating the configured public sub-twin space. The common sub-twin space is configured as a space formed by configuring all preset common equipment images to corresponding common equipment slots.

For example, the common slot label of the server slot between the 1 st floor of equipment is 1-F, the common equipment label of the server between the 1 st floor of equipment is 1-F, and the labels are consistent, and the preset common equipment image corresponding to the 1-F server is placed at the common equipment slot of 1-F.

S33, building tenant equipment slots in the building total twin space according to the tenant equipment positions, wherein the tenant equipment slots are provided with tenant slot labels corresponding to the corresponding tenant equipment.

It will be appreciated that consistent with the principles of step S31, each tenant device has a tenant slot label corresponding thereto, and each tenant device slot has a tenant slot label corresponding to the respective tenant device. For example, the tenant slot label of the switch slot number 1 of the building A department is 1-A-J1, and the tenant equipment label of the switch of the building A department is 1-A-J1.

Through the embodiment, the preset tenant equipment image and the corresponding tenant equipment slot position are combined conveniently by using the tenant slot position label.

S34, based on the tenant slot position labels, placing preset tenant equipment images of the tenant equipment at the corresponding tenant equipment slots to generate configuration tenant sub-twin spaces.

It can be appreciated that if the tenant slot label of the tenant device is the same as the tenant slot label of the tenant device slot, the preset tenant device image of the tenant device is placed at the corresponding tenant device slot, so as to generate the configuration tenant sub-twin space. The tenant sub-twin space is a space formed by configuring all preset tenant equipment images to corresponding tenant equipment slots.

S35, generating a configuration twin space according to the configuration public twin space and the configuration tenant twin space.

It can be understood that after the configuration public sub-twin space and the configuration tenant sub-twin space are obtained, the configuration twin space corresponding to the building total twin space after the configuration information is added can be obtained.

S4, receiving triggering operation of an administrator on the configuration twin space, connecting the preset public equipment images with each other, receiving triggering operation of a tenant on the configuration twin space, connecting the preset tenant equipment images with each other, and generating a static total twin space.

It should be noted that, when all public devices and tenant devices corresponding to each tenant are placed in the building total twin space, no connection is made between each device.

Therefore, the triggering operation of the administrator and the tenant on each device in the configuration twin space is received, the administrator connects the corresponding preset public device images with each other according to the triggering sequence of the triggering operation, and the tenant connects the corresponding preset tenant device images with each other, so that the static total twin space is generated.

In some embodiments, in step S4 (receiving the triggering operation of the administrator on the configuration twin space, connecting the preset public device images to each other, receiving the triggering operation of the tenant on the configuration twin space, connecting the preset tenant device images to each other, and generating a static total twin space), S41-S43 are included:

s41, receiving triggering operation of an administrator on the preset public equipment images in the configuration twin space, and connecting the preset public equipment images with each other based on the triggering operation to generate a static public sub-twin space.

It can be understood that the administrator manages the public devices correspondingly, so that trigger operation is performed on preset public device images in the configuration twin space, and all preset public device images are connected with each other according to the trigger sequence of the trigger operation, so as to generate a static public sub-twin space.

In some embodiments, in step S41 (connecting the preset public device images to each other based on the triggering operation, generating a static public sub-twin space) includes S411-S412:

s411, the preset public equipment image comprises a preset total public equipment image and a preset sub public equipment image, and a total center point of the preset total public equipment image and a sub center point of the preset sub public equipment image are obtained.

In general, a building generally has devices on each floor, and each floor has devices such as a corresponding broadband box and a server, and a total server connected to each floor server for management.

Therefore, the preset public equipment image comprises a preset total public equipment image and a preset sub public equipment image, wherein the preset total public equipment image is connected with the preset sub public equipment image of each layer, so that the total center point of the preset total public equipment image and the sub center point of the preset sub public equipment image are acquired, and the subsequent direct connection is facilitated.

And S412, based on the triggering operation, connecting the total center point and the sub-center point to each other, and generating a static public sub-twin space.

It can be understood that, based on the triggering operation of the administrator, the total center point of the preset total public device image and the sub-center point of the preset sub-public device image are connected to each other, so as to generate the static public sub-twin space.

S42, receiving triggering operation of the tenant on the preset tenant equipment images in the configuration twin space, and connecting the preset tenant equipment images with each other based on the triggering operation to generate a static tenant sub-twin space.

It can be appreciated that each tenant operates on a tenant device, and connects each preset tenant device image with each other, thereby generating a static tenant sub-twin space.

In some embodiments, in step S42 (based on the triggering operation, the preset tenant device images are connected to each other to generate a static tenant sub-twin space), including S421-S424:

s421, a center point of the preset tenant equipment image is obtained to serve as a connection point, and the connection points of the preset tenant equipment images are connected with each other based on the triggering operation to generate equipment connection lines.

It can be understood that, based on the triggering operation of the user on the preset tenant device image, the connection points of the preset tenant device images are connected to each other, so as to generate the device connection line.

In some embodiments, in step S421 (acquiring the center point of the preset tenant device image as a connection point, connecting the connection points of the preset tenant device images with each other based on the trigger operation, and generating a device connection line), the method includes:

and acquiring a central point of the preset tenant equipment image as a connection point, and determining two interconnected preset tenant equipment images based on the triggering operation.

It can be understood that the scheme can determine the images of the two interconnected preset tenant devices according to the triggering sequence of the triggering operation of the user. And connecting the images of the preset tenant equipment according to the triggering sequence.

And establishing a space coordinate system according to any pixel point in the static tenant sub-twin space, and carrying out coordinate processing on the static tenant sub-twin space to obtain a first connection point coordinate and a second connection point coordinate of the two mutually connected preset tenant equipment images.

it should be noted that, compared with the public device, the tenant devices are more and more complex to connect, and may be connected to each other in a one-to-one correspondence manner, or may be connected to a plurality of servers in a one-to-many manner, for example, the switch connects a plurality of servers, and the devices corresponding to each tenant are located at the same height in space.

Therefore, the scheme can determine the first connecting line perpendicular to the horizontal axis according to the horizontal coordinate of the first connecting point coordinate, and determine the second connecting line perpendicular to the vertical axis according to the vertical coordinate of the second connecting point coordinate. And generating a device connecting wire according to the intersection point of the first connecting wire and the second connecting wire after convenience.

And determining a first connecting line according to the ordinate of the first connecting point coordinate, and determining a second connecting line according to the abscissa of the second connecting point coordinate.

It will be appreciated that the present solution will determine the first connection line perpendicular to the longitudinal axis according to the ordinate of the first connection point coordinate, and determine the second connection line perpendicular to the transverse axis according to the abscissa of the second connection point coordinate. And generating a device connecting wire according to the intersection point of the first connecting wire and the second connecting wire after convenience.

The generation mode of the first connecting line and the second connecting line is determined by a preset translation reference line.

It can be appreciated that the tenant equipment is numerous and distributed more complex, so that a horizontal and vertical line connection mode is adopted.

Thus, a first intersection point coordinate between the first connection line and the second connection line is determined from the first intersection point coordinate and the first connection point coordinate, a first connection line is determined from the first intersection point coordinate and the second connection point coordinate, and a second connection line is determined from the first intersection point coordinate and the second connection point coordinate, it being understood that 2 point coordinates are known to thereby obtain corresponding transverse and longitudinal connection lines, and a device connection line is generated from the first connection line and the second connection line.

S422, when the number of the overlapped pixels between the device connection lines is larger than the number of the preset pixels, a preset translation reference line which penetrates through the center point and corresponds to the corresponding preset tenant device image is called.

It should be noted that, because the connection between tenant devices is complex, it may be one to many, or one to one, so there is a situation that the connection lines overlap, if a small portion of the device connection lines overlap, the user observation is not affected, and if the whole device connection lines overlap, the user observation and management are affected.

Therefore, the preset pixel point number is set, if the number exceeds the preset pixel point number, the overlapping part is excessive, and the preset translation reference line which penetrates through the center point and corresponds to the corresponding preset tenant equipment image is called. And the subsequent translation treatment of the equipment connecting wire is facilitated.

S423, obtaining the overlapping number of the device connecting lines of the corresponding preset tenant device image, and dividing the preset translation reference lines according to the overlapping number to obtain a plurality of connecting points.

It can be appreciated that the length of the preset translation reference line is periodically divided according to the number of overlapping device connection lines, so as to obtain a plurality of connection points, for example, each third of the preset translation reference line is used as one connection point when the number of overlapping device connection lines is 3.

S424, connecting the connection points of the corresponding preset tenant equipment images to each other, and generating a static tenant sub-twin space.

S43, generating a static total twin space according to the static common twin space and the static tenant twin space.

On the basis of the embodiment, the method further comprises A1-A3:

a1, receiving update information of a tenant, analyzing the update information to obtain update equipment and a first equipment type corresponding to the update equipment, and acquiring a corresponding image of the update tenant equipment according to the first equipment type.

It should be noted that when a shortage of the connection device occurs, for example, a new computer device is added. Then the static tenant sub-twin space needs to be updated.

Therefore, the update information of the tenant is received, the update information comprises the update equipment and the first equipment type corresponding to the update equipment, and corresponding update tenant equipment images are obtained according to different first equipment types.

For example, the first device type is a computer, so as to obtain a preset computer image.

And A2, calling a static tenant sub-twin space corresponding to the tenant, acquiring a first tenant equipment slot position corresponding to the first equipment type in the static tenant sub-twin space, and determining first position information of the first tenant equipment slot position.

It should be noted that, the general devices are all placed near the same type of device, for example, a tenant's computer.

Therefore, the scheme can determine the first tenant equipment slot position corresponding to the first equipment type in the static tenant sub-twin space, and determine the first position information of the equipment slot position. And the subsequent generation of new slots is convenient.

A3, processing the first equipment type and the first position information according to an updating strategy to obtain a newly-added slot, and adding the updated tenant equipment image into the newly-added slot to obtain an updated static tenant sub-twin space.

It can be understood that according to the scheme, according to the first device type and the first position information, device slots of the same type in the static tenant sub-twin space are determined, and positions of the device slots of the same type and the largest number are selected to construct newly added slots. And adding the updated tenant equipment image into the newly added slot to obtain an updated static tenant sub-twin space.

In some embodiments, the step A3 (processing the first device type and the first location information according to an update policy to obtain a new slot, adding the updated tenant device image to the new slot to obtain an updated static tenant sub-twin space) includes a31-a,4:

A31, classifying the first tenant equipment slots corresponding to the first equipment type in the static tenant sub-twin space based on the slot phase relation to obtain a plurality of first slot phase sets.

It should be noted that, the preset tenant device images of the same device type and all at the same position in the static tenant sub-twin space are adjacently arranged in advance.

Therefore, the first tenant equipment slots corresponding to the adjacent first equipment types in the twin space of the static tenant are classified, so that a plurality of first slot sets are obtained. And the first slot position set with the largest number is convenient to select subsequently.

A32, obtaining the number of the first slot position sets, determining the first slot position set with the largest number as a newly increased slot position set, and taking the first tenant equipment slot position in the newly increased slot position set as a second tenant equipment slot position.

In general, the device to which the tenant mainly adds is a computer, and the computer is placed near the same type of device.

It can be understood that the first slot position set with the largest number is determined to be the newly added slot position set, so that the newly added slot positions can be conveniently built in the blank areas adjacent to the newly added slot position set.

A33, determining a blank area adjacent to the second tenant equipment slot in the static tenant sub-twin space as a newly added area, constructing a newly added slot in the newly added area, and adding the updated tenant equipment image into the newly added slot.

It can be understood that a blank area adjacent to the second tenant equipment slot in the static tenant sub-twin space is taken as a newly added area, wherein the adjacent blank area can be a blank area above, below, left and the like adjacent to the second tenant equipment slot, in which the equipment slot does not exist.

And A34, responding to triggering operation of the tenant, and connecting the updated tenant equipment image with a corresponding preset tenant equipment image to obtain an updated static tenant sub-twin space.

It can be appreciated that after the new slot is built, and the updated tenant device image is added to the new slot, the updated tenant device image needs to be connected with the corresponding other devices, so that the updated tenant device image is accessed to the network.

Therefore, based on triggering operation of the tenant, the updated tenant equipment image is connected with the corresponding preset tenant equipment image, so that an updated static tenant sub-twin space is obtained.

In other embodiments, B1-B3 are also included:

and B1, responding to the update information of the tenant, calling the static tenant sub-twin space and sending the static tenant sub-twin space to the corresponding tenant end.

It should be noted that when the number of people increases, the devices become insufficient, for example, new computer devices are added. And if the static tenant sub-twin space needs to be updated, the update information of the tenant is responded, the static tenant sub-twin space is called and sent to the corresponding tenant end.

And B2, receiving dividing operation of the tenant on the basis of the tenant end on the static tenant twin space, and obtaining an newly added slot position corresponding to the static tenant twin space.

It can be understood that the tenant can actively divide the static tenant twin space, so as to generate a newly added slot corresponding to the static tenant twin space, and a user can automatically plan the newly added slot according to actual conditions to add subsequent devices.

And B3, analyzing the update information to obtain update equipment and a first equipment type corresponding to the update equipment, acquiring a corresponding update tenant equipment image according to the first equipment type, and adding the update tenant equipment image into the newly added slot.

It can be understood that the update information is parsed to obtain a corresponding image of the updated tenant equipment, and the image of the updated tenant equipment is directly added to the newly added slots divided by the user.

And B4, responding to triggering operation of the tenant, and connecting the updated tenant equipment image with a corresponding preset tenant equipment image to obtain an updated static tenant sub-twin space.

It will be appreciated that the principle is consistent with step a34 and will not be described in detail herein.

S5, determining a dynamic connection table of each optical network information transmission device according to the static total twin space, and updating the display state of each connection relation in the static total twin space based on the connection state of each optical network information transmission device in the dynamic connection table to generate a dynamic total twin space.

It should be noted that, the static total twin space only shows the connection relationship between all the optical network information transmission devices and the optical network information transmission devices to the user and the administrator, but does not show the connection state between the devices.

Therefore, the invention can generate the dynamic connection table according to the connection relation of each optical network information transmission device in the static total twin space, then acquire the actual connection state of each optical network information transmission device through the dynamic connection table, update the connection state of each optical network information transmission device in the static total twin space, and generate the dynamic total twin space.

In some embodiments, the step S5 (determining a dynamic connection table of each optical network information transmission device according to the static total twin space, updating a display state of each connection relationship in the static total twin space based on a connection state of each optical network information transmission device in the dynamic connection table, and generating a dynamic total twin space) includes S51-S56:

s51, obtaining a connecting line label of each equipment connecting line in the static total twin space as a first label, and 2 equipment labels of the optical network information transmission equipment connected with the connecting line label as a second label and a third label.

S52, extracting the first label to a first column of a dynamic connection table, filling the second label to a second column of the same row as the corresponding first label, and filling the third label to a third column of the same row as the corresponding first label.

It will be appreciated that the connection line tags of the device connection lines between the optical network information transmission devices are placed in a first column, and 2 device tags interconnected with each connection line tag are placed in the second column and the third column of the same row in sequence.

S53, obtaining the connection state and the communication duration of the first tag, filling the connection state into a fourth column of the same row as the corresponding first tag, filling the communication duration into a fifth column of the same row as the corresponding first tag, and generating a dynamic connection table of each optical network information transmission device.

It may be appreciated that the connection state of the first tag and the communication duration are obtained, for example, the connection state may be a disconnection state or a communication state. And counting the duration in the communication state to obtain the communication duration, filling the communication duration of each connecting line label into the fifth column of the same row, and generating a dynamic connection table of each optical network information transmission device.

It will be appreciated that the dynamic connection table may embody the connection status and the duration of communication between the various devices.

S54, obtaining a connection state corresponding to each first tag in the dynamic connection table, wherein the connection state comprises a communication state and a disconnection state.

And S55, when the first label is judged to be in a disconnected state, marking the equipment connecting line corresponding to the first label in the static total twin space as a first color.

It will be appreciated that when the device connection lines are in the disconnected state, then the corresponding device connection lines are marked in the static total twin space as a first colour, which may be red, for example.

And S56, when the first label is judged to be in a communication state, marking a device connecting line corresponding to the first label in the static total twin space as a second color, and generating a dynamic total twin space.

It will be appreciated that when the device connection lines are in a communication state, then the corresponding device connection lines are marked in the static total twin space as a second colour, which may be blue, for example.

On the basis of the above embodiment, the method further comprises:

and acquiring the total number of the devices of the optical network information transmission device in the dynamic connection table, and counting all communication time lengths in the dynamic connection table to obtain the total communication time length.

It can be understood that the total number of the devices of the optical network information transmission device in the dynamic connection table and the total communication duration can be actively obtained within a preset frequency. Wherein the preset frequency may be once a month or once a year.

Obtaining a quantity coefficient according to the total quantity of the devices and the preset total quantity, and obtaining a duration coefficient according to the total communication duration and the preset duration.

It can be appreciated that the more the total number of devices, the more likely the devices will fail, e.g., the more devices, the higher the corresponding network delay, and the more likely the devices will lose packets or fail. The longer the total communication duration is, the longer the corresponding equipment service time is, and equipment faults are easy to occur.

Therefore, a quantity coefficient is obtained according to the total quantity of the devices and the preset total quantity, and a time length coefficient is obtained according to the total communication time length and the preset time length, so that the follow-up offset processing of the preset maintenance time length is facilitated.

And performing offset processing on the preset maintenance time according to the quantity coefficient and the time length coefficient to obtain the actual maintenance time length corresponding to the initial static sub-twin space.

It can be understood that the more the total number of devices, the more likely the device is to fail, the longer the total communication duration is, which means that the corresponding device has longer service time, and the more likely the device is to fail, and the shorter the corresponding actual maintenance duration is.

The actual maintenance duration is obtained by the following formula,

wherein,for the actual maintenance duration>For a preset maintenance period->For the upper limit value of the number of communication durations in the dynamic connection table,/-for>For the dynamic connection table +.>Communication duration of individual device connection lines,/-)>For the total duration of the communication>For a preset time length, < >>For duration weight, ++>For the total number of devices>Is the preset total number of->Is a quantitative weight. It will be appreciated that the total number of devices +.>Is>Inversely proportional, total duration of communicationIs>In inverse proportion, the device is more prone to malfunction due to longer communication duration, and thus duration weight +.>Greater than the quantitative weight->。

In order to better implement the comprehensive wiring all-optical network visual management method provided by the invention, the invention also provides a comprehensive wiring all-optical network visual management system, as shown in fig. 2, comprising:

The present invention also provides a readable storage medium having stored therein a computer program for implementing the methods provided by the various embodiments described above when executed by a processor.

The readable storage medium may be a computer storage medium or a communication medium. Communication media includes any medium that facilitates transfer of a computer program from one place to another. Computer storage media can be any available media that can be accessed by a general purpose or special purpose computer. For example, a readable storage medium is coupled to the processor such that the processor can read information from, and write information to, the readable storage medium. In the alternative, the readable storage medium may be integral to the processor. The processor and the readable storage medium may reside in an application specific integrated circuit (Application Specific Integrated Circuits, ASIC for short). In addition, the ASIC may reside in a user device. The processor and the readable storage medium may reside as discrete components in a communication device. The readable storage medium may be read-only memory (ROM), random-access memory (RAM), CD-ROMs, magnetic tape, floppy disk, optical data storage device, etc.

The present invention also provides a program product comprising execution instructions stored in a readable storage medium. The at least one processor of the device may read the execution instructions from the readable storage medium, the execution instructions being executed by the at least one processor to cause the device to implement the methods provided by the various embodiments described above.

In the above embodiment of the apparatus, it should be understood that the processor may be a central processing unit (english: central Processing Unit, abbreviated as CPU), or may be other general purpose processors, digital signal processors (english: digital Signal Processor, abbreviated as DSP), application specific integrated circuits (english: application Specific Integrated Circuit, abbreviated as ASIC), or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of a method disclosed in connection with the present invention may be embodied directly in a hardware processor for execution, or in a combination of hardware and software modules in a processor for execution.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims

1. The comprehensive wiring all-optical network visual management method is characterized by comprising the following steps of:

2. The method of claim 1, wherein the step of determining the position of the substrate comprises,

constructing a corresponding equipment slot in the building total twin space according to the public equipment position and the tenant equipment position, placing a preset public equipment image of the public equipment and a preset tenant equipment image of the tenant equipment at the corresponding equipment slot, and generating a configuration twin space, wherein the configuration twin space comprises:

3. The method of claim 2, wherein the step of determining the position of the substrate comprises,

the receiving the triggering operation of the administrator on the configuration twin space, connecting the preset public equipment images with each other, receiving the triggering operation of the tenant on the configuration twin space, connecting the preset tenant equipment images with each other, and generating a static total twin space, including:

4. The method of claim 3, wherein the step of,

the step of generating a static tenant sub-twin space by interconnecting the preset tenant device images based on the triggering operation includes:

5. The method of claim 4, wherein the step of determining the position of the first electrode is performed,

the acquiring the center point of the preset tenant equipment image as a connection point, and based on the triggering operation, connecting the connection points of the preset tenant equipment images to each other to generate an equipment connection line, including:

6. The method as recited in claim 5, further comprising:

7. The method of claim 6, wherein the step of providing the first layer comprises,

processing the first device type and the first position information according to an update policy to obtain a newly added slot, and adding the updated tenant device image to the newly added slot to obtain an updated static tenant sub-twin space, including:

8. The method as recited in claim 5, further comprising:

9. The method of claim 1, wherein the step of determining the position of the substrate comprises,

the determining a dynamic connection table of each optical network information transmission device according to the static total twin space, updating a display state of each connection relation in the static total twin space based on a connection state of each optical network information transmission device in the dynamic connection table, and generating a dynamic total twin space, including:

obtaining a connecting line label of each equipment connecting line in a static total twin space as a first label, and 2 equipment labels of the optical network information transmission equipment connected with the connecting line label as a second label and a third label;

10. An integrated wiring all-optical network visual management system, comprising: