CN114727301B - Enterprise-level AP networking allocation and arrangement method - Google Patents

Abstract

The application discloses an enterprise-level AP networking allocation and arrangement method, which comprises the steps of arranging a virtual environment, determining a main network networking point, determining a sub-network arrangement point, arranging a main AP, arranging sub-APs and carrying out network allocation, and acquiring arrangement positions of the main AP and the sub-APs in a simulation mode through a plurality of AP network radiation circles, so that comprehensive network coverage of the environment to be arranged is ensured, and the networking allocation and arrangement method is simple and reasonable and has high accuracy. The enterprise-level AP networking distribution and arrangement method can comprehensively cover the environment to be arranged, and ensure that the network can be stably used in the office environment of an enterprise. Meanwhile, after the AP is networked, the network distribution has higher reliability.

Description

Enterprise-level AP networking allocation and arrangement method

Technical Field

The application relates to the technical field of AP networking, in particular to an enterprise-level AP networking distribution and arrangement method.

Background

With the popularity of mobile terminals, the signal coverage requirements of users on Access Points (APs) are increasing, and whether the arrangement and allocation of AP networking reasonably has a significant impact on signal coverage. In the traditional AP networking mode, after roughly estimating a network coverage area, a plurality of APs are respectively arranged at about positions to realize the arrangement of the APs, and in the mode, because the coverage of the APs is limited, all-round coverage cannot be carried out on each position in the whole environment to be arranged in the network distribution process, so that the network use of the uncovered area is affected, and the problem that the office efficiency of an enterprise is reduced or even the office cannot be carried out by utilizing the network is caused particularly in the AP networking of the enterprise.

Disclosure of Invention

The application aims to provide an enterprise-level AP networking distribution and arrangement method, which aims to solve the problem that the traditional AP networking proposed in the background technology cannot fully cover an environment to be arranged.

In order to achieve the above purpose, the present application provides the following technical solutions: an enterprise-level AP networking allocation and placement method, the method comprising the steps of:

virtual deployment environment: drawing a virtual environment plan view based on a top view of the environment to be arranged;

determining a master mesh network point: selecting a gateway interface position from gateway interfaces positioned in a central area of the virtual environment plan as an arrangement point of a main AP, and drawing a network radiation circle corresponding to the main AP in the virtual environment plan by taking the arrangement point of the main AP as a circle center;

determining a subnet arrangement point: selecting proper points from the virtual environment plan to draw network radiation circles corresponding to the sub-APs until the network radiation circles corresponding to the main APs and all the network radiation circles corresponding to the sub-APs completely cover the virtual environment plan, and taking the circle centers of the network radiation circles corresponding to the sub-APs as sub-AP arrangement points;

arranging a main AP: connecting an AP to be networked with an uplink gateway through the main AP arrangement point in a wired connection mode, and generating a main label by the AP to be networked and defining the main label as a main AP;

arranging sub-APs: connecting a plurality of APs to be networked with the main AP in a wired or wireless connection mode at the sub-AP arrangement point, generating sub-tags by the plurality of APs to be networked and defining the sub-tags as sub-APs;

network allocation: network equipment in a networking network radiation area receives networking data sent by an AP in a position range for networking, wherein the networking data comprises a MAC address, an SSID network state and RSSI information.

Based on the enterprise-level AP networking distribution and arrangement method, the arrangement positions of the main AP and the sub-AP are obtained in a simulation mode through a plurality of AP network radiation circles, so that comprehensive network coverage of an environment to be arranged is ensured, the networking distribution and arrangement method is simple and reasonable, and the accuracy is high.

Preferably, the determining the sub-net arrangement point specifically includes the following steps:

presetting a first batch of sub-net cloth: drawing the network radiation circle corresponding to the sub-AP in the virtual environment plan by taking four points on the outer circumference of the network radiation circle corresponding to the main AP as circle centers;

presetting a second batch of sub-net cloth: and selecting four points on the outer circumference of the network radiation circle corresponding to the sub-AP, wherein one point is overlapped with one of the four points selected in the first group of network deployment presets, defining the point overlapped with one of the four points selected in the first group of network deployment presets as an overlapped point, respectively drawing the network radiation circle corresponding to the sub-AP in the virtual environment plan by taking three points after the overlapped point is removed from the four selected points as circle centers, and repeating the steps until all the network radiation circles are filled in the virtual environment plan, and taking the circle centers of the network radiation circles corresponding to the sub-APs as sub-AP deployment points.

Preferably, the included angles between two adjacent points in the four selected points in the first group of sub-network configuration preset and the connecting lines of the arrangement points of the main APs are respectively acute angles alpha, alpha=90 degrees.

Preferably, the included angles between two adjacent points in the four selected points in the second group of sub-network configuration preset and the connecting line of the network radiation circle centers of the corresponding sub-APs are respectively acute angles beta, beta=90 degrees.

The first batch of sub-network configuration is preset, the second batch of sub-network configuration is preset, and the mode of filling the virtual environment plan view is achieved until all network radiation circles are filled, the mode of selecting four points on the outer circumference of the network radiation circles is combined, the number requirement of sub-APs can be greatly reduced, the networking cost is reduced, meanwhile, the mode of selecting the four points can meet the double requirements of reducing the number of APs and improving the coverage efficiency to a greater extent, and therefore the economy and the practicability of the AP networking and arrangement method are improved.

Preferably, after the network radiation circles corresponding to the main APs and the network radiation circles corresponding to all the sub-APs completely cover the virtual environment plan, selecting a circle center of one network radiation circle from the network radiation circles corresponding to the sub-APs as a standby main network mesh point, generating a main label and a sub-label in the AP correspondingly arranged with the standby main mesh point and defining the main label and the sub-label as a standby main AP, wherein the standby main AP is connected with an uplink gateway in a wired connection mode and is connected with the main AP in a wired connection or wireless connection mode.

Preferably, the step of using the center of the network radiation circle corresponding to the sub-AP as the sub-AP arrangement point specifically includes: and deleting the completely covered network radiation circles in the network radiation circles corresponding to all the sub-APs, wherein when the network radiation circles corresponding to the standby main APs are covered, the network radiation circles corresponding to the standby main APs are reserved, and the circle centers of the network radiation circles corresponding to the rest sub-APs are used as sub-AP arrangement points.

By deleting the completely covered network radiation circles in the network radiation circles corresponding to the sub-APs, the arrangement quantity of the sub-APs is reduced on the basis of ensuring network coverage, and the practicability of the networking distribution and arrangement of the APs is improved.

Further, the arrangement of the sub-APs further includes connecting the sub-APs with the standby main AP by a wired or wireless connection.

Through the setting of the master network networking point, the perfect operation of the AP networking work is ensured, the situation that the network is unavailable after the error of the unique master AP is avoided, and the reliability of network distribution is improved.

Preferably, the enterprise-level AP networking allocation and arrangement method further includes: after the network radiation circles corresponding to the main APs and the network radiation circles corresponding to all the sub-APs completely cover the virtual environment plan, selecting the circle center of one network radiation circle from the network radiation circles corresponding to the sub-APs as a standby main network mesh point, generating a main label and a sub-label in the APs corresponding to the standby main mesh point and defining the main label and the sub-label as a standby main AP, wherein the standby main AP is connected with an uplink gateway in a wired connection mode and is connected with the main AP in a wired connection or wireless connection mode.

Preferably, the arrangement of the sub-APs further includes connecting the sub-APs to the standby main AP by a wired or wireless connection.

Preferably, when a main AP arranged at the main network access point is disconnected, main AP election is performed, tags in all online APs are traversed, the standby main AP is identified based on the main tags stored in the standby main AP, and the standby main AP is directly connected with an uplink gateway to perform network data transmission.

By setting the standby main AP, the perfect operation of the networking work of the AP is ensured, the situation that the network is unavailable after the error of the unique main AP is avoided, and the reliability of network allocation is improved. Meanwhile, by means of the main label and the sub label stored in the standby main AP, only one main AP in the networking is ensured to work, and therefore the reliability of network allocation is ensured.

The beneficial effects are that: the enterprise-level AP networking distribution and arrangement method can comprehensively cover the environment to be arranged, and ensure that the network can be stably used in the office environment of an enterprise. Meanwhile, after the AP is networked, the network distribution has higher reliability.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flow chart of a method for allocating and arranging enterprise-level AP networking in embodiment 1 of the present application;

fig. 2 is a schematic distribution diagram of arrangement points of a main AP and arrangement points of sub APs in embodiment 2 of the present application;

fig. 3 is a schematic distribution diagram of the arrangement points of the main AP, the arrangement points of the sub APs, and the arrangement points of the standby main AP in embodiment 3 of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Example 1

An enterprise-level AP networking allocation and placement method as shown in fig. 1 includes placing virtual environments, determining master network placement points, determining subnet placement points, placing master APs, placing child APs, and network allocation.

The specific contents of the virtual arrangement environment are: drawing a virtual environment plan view based on a top view of an environment to be arranged, pre-distributing gateway interfaces of the environment to be arranged before networking, wherein a pre-distributing strategy is determined by positions corresponding to main network configuration points and sub-network configuration points, namely when wired connection is adopted, all main network configuration points and sub-network configuration points can be correspondingly provided with the gateway interfaces, so that wired connection between a main AP and a sub-AP and wired connection between the main AP and an uplink gateway are realized, and under the condition that wired connection is inconvenient, a part of net configuration points can be connected with the main AP in a wireless connection mode without installing corresponding gateway interfaces, preferably, the wired connection mode is adopted, so that the stability of network transmission is improved, and the roaming time slot requirement between APs is met. It should be noted that, the drawing of the virtual environment plan is a plan drawn according to the size, building distribution and other elements of the environment to be arranged, and the purpose of the drawing is to embody the integrity of the environment to be arranged so as to define the subsequent network radiation range.

The specific content of determining the master network configuration point is as follows: and selecting a gateway interface position from gateway interfaces positioned in the central area of the virtual environment plan as an arrangement point of the main AP, and drawing a network radiation circle corresponding to the main AP in the virtual environment plan by taking the arrangement point of the main AP as a circle center. It should be noted that, in this embodiment, the purpose of adopting the gateway interface in the central area of the virtual environment plan as the main AP placement point is to reduce the number of use of APs as much as possible, on the other hand, in some feasible implementations of this embodiment, the placement point of the main AP may be any location convenient for installation, or when the environment to be placed is smaller, the placement point of the main AP may also be a location where each network radiation circle is optimized to satisfy a selected installation location in the case of fully covering the virtual environment plan, when the drawing steps of the network radiation circles are executed through the main network placement point and the subnet placement point.

The specific content of the subnet arrangement point is determined as follows: and selecting proper points from the virtual environment plan to draw network radiation circles corresponding to the sub-APs until the network radiation circles corresponding to the main APs and the network radiation circles corresponding to all the sub-APs completely cover the virtual environment plan, and taking the circle centers of the network radiation circles corresponding to the sub-APs as sub-AP arrangement points.

The specific content of the main AP is as follows: and connecting an AP to be networked with the uplink gateway through a main AP arrangement point in a wired connection mode, generating a main label by the AP to be networked and defining the main label as a main AP, and performing network distribution by taking the AP with the main label as a subordinate sub-AP after the AP with the main label is identified and is in wired connection with the uplink gateway.

The specific content of the sub-AP is as follows: and connecting the plurality of APs to be networked with the main AP in a wired or wireless connection mode at the sub-AP arrangement point, generating sub-tags by the plurality of APs to be networked and defining the sub-tags as sub-APs, and transmitting network data with the main AP by using the AP as the sub-AP in networking when the AP with the sub-tags is identified and connected with the main AP.

The specific content of network distribution is as follows: network equipment in a networking network radiation area receives networking data sent by an AP in a position range for networking, wherein the networking data comprises a MAC address, an SSID network state and RSSI information.

Based on the enterprise-level AP networking distribution and arrangement method, the arrangement positions of the main AP and the sub-AP are obtained in a simulation mode through a plurality of AP network radiation circles, so that comprehensive network coverage of an environment to be arranged is ensured, the networking distribution and arrangement method is simple and reasonable, and the accuracy is high.

Example 2

Unlike embodiment 1, in the present embodiment, determining a subnet arranging point specifically includes the steps of:

presetting a first batch of sub-net cloth: taking four points on the outer circumference of a network radiation circle corresponding to a main AP as circle centers, as shown in fig. 2, the included angles between two adjacent points in the four points and the connecting line of the arrangement points of the main AP are respectively acute angles alpha, alpha=90 degrees, and the network radiation circle corresponding to a sub AP is drawn in a virtual environment plan;

presetting a second batch of sub-net cloth: selecting four points on the outer circumference of a network radiation circle corresponding to a sub-AP, wherein the included angles between two adjacent points in the four points and the connecting line of the circle centers of the network radiation circles of the corresponding sub-AP are respectively acute angles beta, beta=90 degrees, one point coincides with one of the four points selected in the presetting of the first batch of sub-network cloth, the point coinciding with one of the four points selected in the presetting of the first batch of sub-network cloth is defined as an overlapping point, three points after the overlapping point is removed from the four selected points are respectively used as circle centers to draw the network radiation circles corresponding to the sub-APs in a virtual environment plan, and the steps are repeated until all the network radiation circles fill the virtual environment plan, and the circle centers of the network radiation circles corresponding to the sub-APs are used as sub-AP arrangement points.

Example 3

Unlike embodiment 2, in this embodiment, after the network radiation circles corresponding to the main AP and the network radiation circles corresponding to all the sub APs completely cover the virtual environment plan, the center of one network radiation circle is selected from the network radiation circles corresponding to the sub APs as a standby main mesh configuration point, a main label and a sub label are generated in the AP corresponding to the standby main mesh configuration point and are defined as a standby main AP, and the standby main AP is connected to the uplink gateway in a wired connection manner, and is connected to the main AP in a wired connection manner or a wireless connection manner. As shown in fig. 3, taking the center of the network radiation circle corresponding to the sub-AP as the sub-AP arrangement point specifically includes: and deleting the completely covered network radiation circles in the network radiation circles corresponding to all the sub-APs, wherein when the network radiation circles corresponding to the standby main APs are covered, the network radiation circles corresponding to the standby main APs are reserved, and the circle centers of the network radiation circles corresponding to the rest sub-APs are used as sub-AP arrangement points. Arranging the sub-APs further comprises connecting the sub-APs with the standby main AP by wired or wireless connection.

Example 4

Unlike embodiment 1, in this embodiment, the enterprise-level AP networking allocation and placement method further includes: after network radiation circles corresponding to the main APs and network radiation circles corresponding to all the sub APs completely cover the virtual environment plan, selecting the circle center of one network radiation circle from the network radiation circles corresponding to the sub APs as a standby main network configuration point, generating a main label and a sub label in the APs corresponding to the standby main network configuration point and defining the main label and the sub label as standby main APs, wherein the standby main APs are connected with an uplink gateway in a wired connection mode and are connected with the main APs in a wired connection or wireless connection mode. Arranging the sub-APs further comprises connecting the sub-APs with the standby main AP by wired or wireless connection. When the main AP arranged at the main network access point is disconnected, main AP election is carried out, tags in all online APs are traversed, the standby main AP is identified based on the main tags stored in the standby main AP, and the standby main AP is directly connected with an uplink gateway for network data transmission.

Example 5

In this embodiment, an enterprise-level AP networking allocation and arrangement method includes the following steps:

virtual deployment environment: drawing a virtual environment plan view based on a top view of the environment to be arranged;

determining a master mesh network point: selecting a gateway interface from gateway interfaces positioned in a central area of a virtual environment plan as an arrangement point of a main AP, and drawing a network radiation circle corresponding to the main AP in the virtual environment plan by taking the arrangement point of the main AP as a circle center;

presetting a first batch of sub-net cloth: drawing network radiation circles corresponding to the sub-APs in a virtual environment plan by taking four points on the outer circumference of the network radiation circle corresponding to the main AP as circle centers, wherein included angles between two adjacent points and connecting lines of the center arrangement points are respectively acute angles alpha, alpha=90 degrees;

presetting a second batch of sub-net cloth: selecting four points on the outer circumference of a network radiation circle corresponding to a sub-AP, wherein the included angles between two adjacent points and the connecting line of the circle centers of the network radiation circles of the corresponding sub-AP are respectively acute angles alpha, alpha=90 degrees, one of the points coincides with one of the four points selected in the first group of network deployment presets, the point coinciding with one of the four points selected in the first group of network deployment presets is defined as an coincident point, three points after the coincident point is removed from the four selected points are respectively used as circle centers to draw the network radiation circle corresponding to the sub-AP in a virtual environment plan, and the steps are repeated until all the network radiation circles fill the virtual environment plan;

determining sub-AP arrangement points: deleting completely covered network radiation circles in all network radiation circles corresponding to the sub-APs, and taking the circle centers of the network radiation circles corresponding to the rest sub-APs as sub-AP arrangement points;

arranging a main AP: connecting an AP to be networked with an uplink gateway through a main AP arrangement point in a wired connection mode, and generating a main label by the AP to be networked and defining the main label as a main AP;

arranging sub-APs: connecting a plurality of APs to be networked with a main AP in a wired or wireless connection mode at a sub-AP arrangement point, generating sub-tags by the plurality of APs to be networked and defining the sub-tags as sub-APs;

network allocation: after networking is completed, network equipment in one network radiation circle only receives networking data sent by an AP corresponding to the network radiation circle, the network equipment is networked through the AP, network equipment in two or more network radiation circles receives networking data sent by APs corresponding to the two or more network radiation circles, the network equipment is selected to be networked through one of the APs, and the networking data comprises an MAC address, an SSID network state and RSSI information.

It should be noted that, in this document, the term "comprising" is intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present application, and although the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present application.

Claims (4)

1. An enterprise-level AP networking allocation and placement method, comprising the steps of:

virtual deployment environment: drawing a virtual environment plan view based on a top view of the environment to be arranged;

determining a master mesh network point: selecting a gateway interface position from gateway interfaces positioned in a central area of the virtual environment plan as an arrangement point of a main AP, and drawing a network radiation circle corresponding to the main AP in the virtual environment plan by taking the arrangement point of the main AP as a circle center;

determining a subnet arrangement point: selecting proper points from the virtual environment plan to draw network radiation circles corresponding to the sub-APs until the network radiation circles corresponding to the main APs and all the network radiation circles corresponding to the sub-APs completely cover the virtual environment plan, and taking the circle centers of the network radiation circles corresponding to the sub-APs as sub-AP arrangement points;

arranging a main AP: connecting an AP to be networked with an uplink gateway through the main AP arrangement point in a wired connection mode, and generating a main label by the AP to be networked and defining the main label as a main AP;

arranging sub-APs: connecting a plurality of APs to be networked with the main AP in a wired or wireless connection mode at the sub-AP arrangement point, generating sub-tags by the plurality of APs to be networked and defining the sub-tags as sub-APs;

network allocation: network equipment in a networking network radiation area receives networking data sent by an AP in a position range for networking, wherein the networking data comprises a MAC address, an SSID network state and RSSI information;

the method for determining the sub-network arrangement points specifically comprises the following steps:

presetting a first batch of sub-net cloth: drawing the network radiation circle corresponding to the sub-AP in the virtual environment plan by taking four points on the outer circumference of the network radiation circle corresponding to the main AP as circle centers;

presetting a second batch of sub-net cloth: selecting four points on the outer circumference of the network radiation circle corresponding to the sub-AP, wherein one point is overlapped with one of the four points selected in the first group of network deployment presets, defining the point overlapped with one of the four points selected in the first group of network deployment presets as an overlapped point, respectively drawing the network radiation circle corresponding to the sub-AP in the virtual environment plan by taking three points after the overlapped point is removed from the four selected points as circle centers, and repeating the steps until all the network radiation circles fill the virtual environment plan, and taking the circle centers of the network radiation circles corresponding to the sub-APs as sub-AP deployment points;

the first batch of sub-network configuration is characterized in that the included angles between two adjacent points in four points selected in the preset process and the connecting lines of the arrangement points of the main AP are respectively acute angles alpha, alpha=90 degrees;

the second batch of sub-network configuration is preset, and the included angles between two adjacent points in the four points selected in the preset process and the connecting line of the network radiation circle centers of the corresponding sub-APs are respectively acute angles beta, beta=90 degrees;

after the network radiation circles corresponding to the main APs and the network radiation circles corresponding to all the sub APs completely cover the virtual environment plan, selecting the circle center of one network radiation circle from the network radiation circles corresponding to the sub APs as a standby main network mesh point, generating a main label and a sub label in the APs corresponding to the standby main mesh point and defining the main label and the sub label as a standby main AP, wherein the standby main AP is connected with an uplink gateway in a wired connection mode and is connected with the main AP in a wired connection or wireless connection mode;

the step of taking the center of the network radiation circle corresponding to the sub-AP as the sub-AP arrangement point specifically comprises the following steps: and deleting the completely covered network radiation circles in the network radiation circles corresponding to all the sub-APs, wherein when the network radiation circles corresponding to the standby main APs are covered, the network radiation circles corresponding to the standby main APs are reserved, and the circle centers of the network radiation circles corresponding to the rest sub-APs are used as sub-AP arrangement points.

2. The enterprise-level AP networking allocation and placement method of claim 1, further comprising: after the network radiation circles corresponding to the main APs and the network radiation circles corresponding to all the sub-APs completely cover the virtual environment plan, selecting the circle center of one network radiation circle from the network radiation circles corresponding to the sub-APs as a standby main network mesh point, generating a main label and a sub-label in the APs corresponding to the standby main mesh point and defining the main label and the sub-label as a standby main AP, wherein the standby main AP is connected with an uplink gateway in a wired connection mode and is connected with the main AP in a wired connection or wireless connection mode.

3. The method for allocating and arranging enterprise-level APs according to claim 2, wherein said arranging sub-APs further comprises connecting sub-APs to said standby main AP by wired or wireless connection.

4. The enterprise-level AP networking distribution and placement method of claim 3, wherein the master AP election is performed when a master AP placed at the master network deployment point is disconnected, tags in all online APs are traversed, the backup master AP is identified based on the master tag stored in the backup master AP, and the backup master AP is directly connected with an upstream gateway for network data transmission.