CN106686606A - Method and device for deploying WLAN hotspots - Google Patents

Abstract

The invention discloses a method and device for deploying WLAN hotspots. The method includes the steps that according to a preset strategy, a to-be-processed region is divided into multiple areas; service data generated by the WLAN hotspots which are built in the areas is obtained; the WLAN hotspots with the service data meeting a first preset condition serve as idle hotspots, and the WLAN hotspots with the service data meeting a second preset condition serve as overload hotspots; as for each area which is divided out, whether the area is a WLAN hotspot idle area or a WLAN hotspot overload area is determined according to the quantitative relation between the idle hotspots and the overload hotspots in the area; the idle hotspots in the WLAN hotspot idle areas are transferred to the positions, with the distance from the overload hotspots in a preset range, in the WLAN hotspot overload areas. Idle hotspot resources are effectively used, loads of the overload hotspots are reduced, reasonable and effective WLAN hotspot deployment can be achieved, and maximum WLAN hotspot resource utilization is achieved.

Description

A kind of method and apparatus of deployment WLAN hot spot

Technical field

The present invention relates to networking technology area, more particularly to a kind of method and apparatus of deployment WLAN hot spot.

Background technology

With the continuous development and the popularization of WLAN business of four net collaborations, WLAN has become one of networking emphasis of operator.Used as effective supplement of 3G, 4G network, the fast wlan network of mobility height, low cost, construction speed effectively can play shunting, Reduction of Students' Study Load effect to mobile data.But after the completion of WLAN hot spot is built, branch company of city and network optimization department often lack effective monitoring optimizing means, to the demand service condition of WLAN hot spot can only rule of thumb, complain to safeguard or increase newly WLAN hot spot, not only waste of manpower, time cost, can not reach simultaneously rationally effectively lay resource, reach resource utilization maximization.

The content of the invention

In view of the above problems, the invention provides a kind of method and apparatus for choosing network user to be migrated, to solve the above problems or solve the above problems at least in part.

According to one aspect of the present invention, there is provided a kind of method of deployment WLAN hot spot, the method includes：

It is multiple regions by pending regional classification according to preset strategy；

Obtain the business datum produced by each WLAN hot spot built in each region；

Business datum is met the first pre-conditioned WLAN hot spot as idle focus, business datum is met the second pre-conditioned WLAN hot spot as over loading focus；

For each region for being divided, if to meet the 3rd with the quantitative relation of over loading focus pre-conditioned for the idle focus in the region, it is determined that the region is the idle region of WLAN hot spot；If it is pre-conditioned that the idle focus in the region meets the 4th with the quantitative relation of over loading focus, it is determined that the region is WLAN hot spot over loading region；

Idle focus in the idle region of WLAN hot spot is transferred in WLAN hot spot over loading region the position for meeting preset range with the distance of over loading focus.

Alternatively, the method includes：

It is multiple grids by pending regional corresponding map partitioning according to preset strategy；

Obtain the business datum produced by each WLAN hot spot built in the corresponding region of each grid；Using the pre-conditioned WLAN hot spot of the first mark tagged traffic data fit first；Using the pre-conditioned WLAN hot spot of the second mark tagged traffic data fit second；

For each grid for being divided, if the first mark in the grid meets the 3rd pre-conditioned with the quantitative relation of the second mark, using the 3rd the labelling grid is identified；If the first mark in the grid meets the 4th pre-conditioned with the quantitative relation of the second mark, using the 4th the labelling grid is identified；

The WLAN hot spot with the first mark in the corresponding region of grid with the 3rd mark is transferred to：In the corresponding region of grid with the 4th mark, with the position that the distance of the WLAN hot spot with the second mark meets preset range.

Alternatively, the business datum includes：One or more in online user's quantity, downloading rate, data traffic；

Then the business datum meets the first pre-conditioned WLAN hot spot including following one or more：

WLAN hot spot of the maximum online user's quantity in predetermined period higher than the first preset value；WLAN hot spot of the maximum download rate in predetermined period higher than the second preset value；WLAN hot spot of the total data flow in predetermined period higher than the 3rd preset value；

Then the business datum meets the second pre-conditioned WLAN hot spot including following one or more：

WLAN hot spot of the maximum online user's quantity in predetermined period less than the 4th preset value；WLAN hot spot of the maximum download rate in predetermined period less than the 5th preset value；WLAN hot spot of the total data flow in predetermined period less than the 6th preset value.

Alternatively, to meet the 3rd pre-conditioned including following one or more for the quantitative relation of the idle focus in the described region and over loading focus：Idle focus in the region is higher than the 7th preset value with the quantitative proportion of over loading focus；The ratio of the total quantity of idle focus and over loading focus in the quantity of the idle focus in the region and the region is higher than the 8th preset value；

It is pre-conditioned including following one or more that idle focus in the described region meets the 4th with the quantitative relation of over loading focus：Over loading focus in the region is higher than the 9th preset value with the quantitative proportion of idle focus；The ratio of the total quantity of idle focus and over loading focus in the quantity of the over loading focus in the region and the region is higher than the tenth preset value；

It is pre-conditioned including following one or more that the first mark in the described grid meets the 3rd with the quantitative relation of the second mark：The first mark in the grid and the quantitative proportion of the second mark are higher than the 7th preset value；The quantity of the first mark in the grid is higher than the 8th preset value with the first ratio for identifying the total quantity with the second mark in the grid；

It is pre-conditioned including following one or more that the first mark in the described grid meets the 4th with the quantitative relation of the second mark：The second mark in the grid and the quantitative proportion of the first mark are higher than the 9th preset value；The quantity of the second mark in the grid is higher than the tenth preset value with the first ratio for identifying the total quantity with the second mark in the grid.

Alternatively, the idle focus in the idle region by WLAN hot spot is transferred in WLAN hot spot over loading region and meets before the position of preset range with the distance of over loading focus, and the method is further included：

Based on the grating map in each region, the position of the WLAN hot spot for needing to increase in the WLAN hot spot over loading region is shown, show idle focus to be removed in the idle region of the WLAN hot spot；

Idle focus in the idle region by WLAN hot spot is transferred to the position for meeting preset range with the distance of over loading focus in WLAN hot spot over loading region and is specially：

By the idle focus to be removed in the idle region of the WLAN hot spot shown in map, the position of the WLAN hot spot that the needs shown in map increase is transferred in WLAN hot spot over loading region.According to another aspect of the present invention, there is provided a kind of device of deployment WLAN hot spot, the device includes：

Pretreatment unit, is suitable to according to preset strategy, is multiple regions by pending regional classification；Obtain the business datum produced by each WLAN hot spot built in each region；Business datum is met the first pre-conditioned WLAN hot spot as idle focus, business datum is met the second pre-conditioned WLAN hot spot as over loading focus；For each region for being divided, if to meet the 3rd with the quantitative relation of over loading focus pre-conditioned for the idle focus in the region, it is determined that the region is the idle region of WLAN hot spot；If it is pre-conditioned that the idle focus in the region meets the 4th with the quantitative relation of over loading focus, it is determined that the region is WLAN hot spot over loading region；

Deployment unit, is suitable to that the idle focus in the idle region of WLAN hot spot is transferred in WLAN hot spot over loading region the position for meeting preset range with the distance of over loading focus.

Alternatively, the pretreatment unit, is suitable to according to preset strategy, is multiple grids by pending regional corresponding map partitioning；Obtain the business datum produced by each WLAN hot spot built in the corresponding region of each grid；Using the pre-conditioned WLAN hot spot of the first mark tagged traffic data fit first；Using the pre-conditioned WLAN hot spot of the second mark tagged traffic data fit second；For each grid for being divided, if the first mark in the grid meets the 3rd pre-conditioned with the quantitative relation of the second mark, using the 3rd the labelling grid is identified；If the first mark in the grid meets the 4th pre-conditioned with the quantitative relation of the second mark, using the 4th the labelling grid is identified；

The deployment unit, is suitable to be transferred to the WLAN hot spot with the first mark in the corresponding region of grid with the 3rd mark：In the corresponding region of grid with the 4th mark, with the position that the distance of the WLAN hot spot with the second mark meets preset range.

Alternatively, the business datum includes：One or more in online user's quantity, downloading rate, data traffic；

Then the business datum meets the first pre-conditioned WLAN hot spot including following one or more：

WLAN hot spot of the maximum online user's quantity in predetermined period higher than the first preset value；WLAN hot spot of the maximum download rate in predetermined period higher than the second preset value；WLAN hot spot of the total data flow in predetermined period higher than the 3rd preset value；

Then the business datum meets the second pre-conditioned WLAN hot spot including following one or more：

WLAN hot spot of the maximum online user's quantity in predetermined period less than the 4th preset value；WLAN hot spot of the maximum download rate in predetermined period less than the 5th preset value；WLAN hot spot of the total data flow in predetermined period less than the 6th preset value.

Alternatively, to meet the 3rd pre-conditioned including following one or more for the quantitative relation of the idle focus in the described region and over loading focus：Idle focus in the region is higher than the 7th preset value with the quantitative proportion of over loading focus；The ratio of the total quantity of idle focus and over loading focus in the quantity of the idle focus in the region and the region is higher than the 8th preset value；

It is pre-conditioned including following one or more that idle focus in the described region meets the 4th with the quantitative relation of over loading focus：Over loading focus in the region is higher than the 9th preset value with the quantitative proportion of idle focus；The ratio of the total quantity of idle focus and over loading focus in the quantity of the over loading focus in the region and the region is higher than the tenth preset value；

It is pre-conditioned including following one or more that the first mark in the described grid meets the 3rd with the quantitative relation of the second mark：The first mark in the grid and the quantitative proportion of the second mark are higher than the 7th preset value；The quantity of the first mark in the grid is higher than the 8th preset value with the first ratio for identifying the total quantity with the second mark in the grid；

It is pre-conditioned including following one or more that the first mark in the described grid meets the 4th with the quantitative relation of the second mark：The second mark in the grid and the quantitative proportion of the first mark are higher than the 9th preset value；The quantity of the second mark in the grid is higher than the tenth preset value with the first ratio for identifying the total quantity with the second mark in the grid.

Alternatively, the deployment unit, is further adapted for

Based on the grating map in each region, the position of the WLAN hot spot for needing to increase in the WLAN hot spot over loading region is shown, show idle focus to be removed in the idle region of the WLAN hot spot；Idle focus in the idle region by WLAN hot spot is transferred to the position for meeting preset range with the distance of over loading focus in WLAN hot spot over loading region and is specially：

By the idle focus to be removed in the idle region of the WLAN hot spot shown in map, the position of the WLAN hot spot that the needs shown in map increase is transferred in WLAN hot spot over loading region

From the above, pending area is first divided into multiple regions by the technical scheme that the present invention is provided, business datum according to produced by each WLAN hot spot determines the workload of WLAN hot spot, the workload of each WLAN hot spot in further according to each region determines the WLAN hot spot load condition that the region reflects on the whole, further according to the WLAN hot spot load condition that each region reflects, implement the deployment scheme of " tearing not busy benefit open to do " to WLAN hot spot, idle focus just in the idle region of WLAN hot spot is transferred to the vicinity of the over loading focus in WLAN hot spot over loading region, both idle hot point resource had been efficiently utilized, the load of over loading focus is alleviated again, the rationally effectively deployment of WLAN focuses can be reached, realize WLAN hot spot maximum resource utilization.

Description of the drawings

Fig. 1 shows a kind of flow chart of the method for deployment WLAN hot spot according to an embodiment of the invention；

Fig. 2 shows a kind of flow chart of the method for deployment WLAN hot spot in accordance with another embodiment of the present invention；

Fig. 3 A show each last schematic diagram in pending regional corresponding map according to an embodiment of the invention；

Fig. 3 B show the schematic diagram of WLAN hot spot distribution in a grid according to an embodiment of the invention；

Fig. 3 C show the schematic diagram of the load condition of each grid in pending regional corresponding map according to an embodiment of the invention；

Fig. 4 shows a kind of schematic diagram of the device of deployment WLAN hot spot according to an embodiment of the invention.

Specific embodiment

To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with accompanying drawing, embodiment of the present invention is described further in detail.

Fig. 1 shows a kind of flow chart of the method for deployment WLAN hot spot according to an embodiment of the invention.As shown in figure 1, the method includes：

Step S110, is multiple regions by pending regional classification according to preset strategy.

Step S120, obtains the business datum produced by each WLAN hot spot built in each region, and business datum is met the first pre-conditioned WLAN hot spot as idle focus, and business datum is met the second pre-conditioned WLAN hot spot as over loading focus.

Step S130, for each region for being divided, if to meet the 3rd with the quantitative relation of over loading focus pre-conditioned for the idle focus in the region, it is determined that the region is the idle region of WLAN hot spot；If it is pre-conditioned that the idle focus in the region meets the 4th with the quantitative relation of over loading focus, it is determined that the region is WLAN hot spot over loading region.

Step S140, the idle focus in the idle region of WLAN hot spot is transferred in WLAN hot spot over loading region the position for meeting preset range with the distance of over loading focus.

It can be seen that, pending area is first divided into multiple regions by the method shown in Fig. 1, business datum according to produced by each WLAN hot spot determines the workload of WLAN hot spot, the workload of each WLAN hot spot in further according to each region determines the WLAN hot spot load condition that the region reflects on the whole, further according to the WLAN hot spot load condition that each region reflects, implement the deployment scheme of " tearing not busy benefit open to do " to WLAN hot spot, idle focus just in the idle region of WLAN hot spot is transferred to the vicinity of the over loading focus in WLAN hot spot over loading region, both idle hot point resource had been efficiently utilized, the load of over loading focus is alleviated again, the rationally effectively deployment of WLAN hot spot can be reached, realize WLAN hot spot maximum resource utilization.

In one embodiment of the invention, the business datum that WLAN described in method shown in Fig. 1 is produced includes following one or more：Online user's quantity, downloading rate, data traffic.Then business datum described in step S120 meets the first pre-conditioned WLAN hot spot including following one or more：WLAN hot spot of the maximum online user's quantity in predetermined period higher than the first preset value；WLAN hot spot of the maximum download rate in predetermined period higher than the second preset value；WLAN hot spot of the total data flow in predetermined period higher than the 3rd preset value；And, the business datum meets the second pre-conditioned WLAN hot spot including following one or more：WLAN hot spot of the maximum online user's quantity in predetermined period less than the 4th preset value；WLAN hot spot of the maximum download rate in predetermined period less than the 5th preset value；WLAN hot spot of the total data flow in predetermined period less than the 6th preset value.

In one embodiment of the invention, to meet the 3rd pre-conditioned including following one or more for the quantitative relation of the idle focus shown in Fig. 1 the step of method in the region described in S130 and over loading focus：Idle focus in the region is higher than the 7th preset value with the quantitative proportion of over loading focus；The ratio of the total quantity of idle focus and over loading focus in the quantity of the idle focus in the region and the region is higher than the 8th preset value；And, it is pre-conditioned including following one or more that the idle focus in the described region meets the 4th with the quantitative relation of over loading focus：Over loading focus in the region is higher than the 9th preset value with the quantitative proportion of idle focus；The ratio of the total quantity of idle focus and over loading focus in the quantity of the over loading focus in the region and the region is higher than the tenth preset value.

In one embodiment of the invention, S140 the idle focus in the idle region of WLAN hot spot is transferred to the position for meeting preset range with the distance of over loading focus in WLAN hot spot over loading region included the step of method shown in Fig. 1：For each the over loading focus in all WLAN hot spot over loading regions, one or more the idle focuses in the idle region of WLAN hot spot are transferred near the over loading focus, are shared with the workload to the over loading focus.During being somebody's turn to do, the idle region of WLAN hot spot can be selected according to nearby principle, then restriction focus to be transferred is chosen from the idle region of WLAN hot spot for selecting, to reduce WLAN hot spot cost of transfer；If the idle focus in the idle region of all WLAN hot spots is insufficient for demand of the over loading focus in all WLAN hot spot over loading regions to WLAN hot spot quantity, this programme can be that the WLAN hot spot over loading region for meeting demand increases newly and builds WLAN hot spot.

In addition, for the idle region of WLAN hot spot, for the idle hot point resource of further effectively utilizes, although if there is the big potential WLAN hot spot user of unstable but demand in the region, for example, it is big for client's amount of flow in the region, carrying out the client in shop has the StoreFront of networking requirement, method shown in Fig. 1 further can also provide the WiFi access interfaces based on one or more WLAN hot spots in the idle region of WLAN hot spot to the StoreFront, so that the StoreFront is using the fund less than installing broadband, the client for coming shop can network when required by the WiFi access interfaces.

Technical scheme can not only be applied to deployment of the operator to WLAN hot spot, the deployment of the Wi-Fi hotspot being applied equally in business circles room.

On the basis of the above, the present invention also discloses in another embodiment the visualization scheme disposed to WLAN hot spot based on map, as shown in Fig. 2 Fig. 2 shows a kind of flow chart of the method for deployment WLAN hot spot in accordance with another embodiment of the present invention, the method includes：

Step S210, is multiple grids by pending regional corresponding map partitioning according to preset strategy.

Step S220, obtain the business datum produced by each WLAN hot spot built in the corresponding region of each grid, using the pre-conditioned WLAN hot spot of the first mark tagged traffic data fit first, using the pre-conditioned WLAN hot spot of the second mark tagged traffic data fit second.

Step S230, for each grid for being divided, if the first mark in the grid meets the 3rd pre-conditioned with the quantitative relation of the second mark, using the 3rd the labelling grid is identified；If the first mark in the grid meets the 4th pre-conditioned with the quantitative relation of the second mark, using the 4th the labelling grid is identified.

Step S240, the WLAN hot spot with the first mark in the corresponding region of grid with the 3rd mark is transferred to：In the corresponding region of grid with the 4th mark, with the position that the distance of the WLAN hot spot with the second mark meets preset range.

Idle focus in the idle region by WLAN hot spot is transferred in WLAN hot spot over loading region and meets before the position of preset range with the distance of over loading focus, and the method is further included：

Based on the grating map in each region, the position of the WLAN hot spot for needing to increase in the WLAN hot spot over loading region is shown, show idle focus to be removed in the idle region of the WLAN hot spot；

Idle focus in the idle region by WLAN hot spot is transferred to the position for meeting preset range with the distance of over loading focus in WLAN hot spot over loading region and is specially：

By the idle focus to be removed in the idle region of the WLAN hot spot shown in map, the position of the WLAN hot spot that the needs shown in map increase is transferred in WLAN hot spot over loading region.

It can be seen that, method shown in Fig. 2 carries out visualization presentation by map view to the WLAN hot spot in pending area, visualization including the workload to each WLAN hot spot is presented and the visualization to the overall work state in each region in units of grid is presented, WLAN hot spot demand can directly be found, with reference to actual map, evade improper deployment scenario, WLAN hot spot is carried out timely and effectively " to tear not busy benefit open to hurry ", realize rationally effectively resource deployment and utilization.

The implementation process of method shown in Fig. 2 is hereafter illustrated with a specific embodiment：

First, it is multiple grids as shown in Figure 3A by pending regional corresponding map partitioning according to preset strategy, Fig. 3 A show the schematic diagram of each grid in pending regional corresponding map according to an embodiment of the invention.

Then, monthly count the business datum produced by each WLAN hot spot built in the corresponding region of each grid, for each WLAN hot spot, if the maximum download rate that maximum online user quantity of the WLAN hot spot within this month is higher than 12 or the WLAN hot spot was within this month is higher than 12Mbps, then determine that the WLAN hot spot is over loading focus, utilize " " to be marked；If total data flow of the WLAN hot spot within this month is less than 300Mb, it is determined that the WLAN hot spot is idle focus, " △ " is utilized to be marked.Remaining other WLAN hot spots are in normal condition.Fig. 3 B show the schematic diagram of WLAN hot spot distribution in a grid according to an embodiment of the invention, can see, in the present embodiment, in exaggerated corresponding grid, idle focus and over loading focus are indicated with different marks, during implementing, can be as needed, the busy degree of WLAN is set to into multiple grades according to WLAN hot spot traffic conditions, different brackets shows different colours in map, intuitively displays for a user the busy degree of each WLAN.

Then, the distribution of the WLAN hot spot of the different conditions in the corresponding region of each grid for being obtained according to above-mentioned statistics, knows the load condition of the WLAN hot spot that the corresponding region entirety of each grid is reflected.In the present embodiment, emphasis is that foundation is estimated to the corresponding region of each grid with the distribution situation of the WLAN hot spot in idle state；Specifically, for each grid, if there is WLAN hot spot in the corresponding region of the grid, but there is no the WLAN hot spot identified with " △ ", then 1 grade of mark of labelling on the grid；If WLAN hot spot total quantity is more than 1 in the corresponding region of the grid, wherein 1 is the WLAN hot spot identified with " △ ", then 2 grades of labelling is identified on the grid；If in the corresponding region of the grid WLAN hot spot total quantity be equal to 1 and be exactly with " △ " mark WLAN hot spot, or, if there is the 2-4 WLAN hot spot identified with " △ " in the corresponding region of the grid, less than 50% of WLAN total quantitys in the region is accounted for, then 3 grades of marks of labelling on the grid；If there is the WLAN hot spot of 2-4 " △ " mark in the corresponding region of the grid, account for more than 50% of WLAN total quantitys in the region, or, if there is more than 4 WLAN hot spots identified with " △ " in the corresponding region of the grid, then 4 grades of labelling is identified on the grid, as shown in Figure 3 C, Fig. 3 C show the schematic diagram of the load condition of each grid in pending regional corresponding map according to an embodiment of the invention, represent the idle degree of WLAN hot spot in the corresponding region of each grid in figure by different identification.

Wherein, grid with 1 grade of mark represents that the idle degree of the WLAN hot spot in corresponding region is minimum, grids with 4 grades of marks represent the idle degree highest of correspondence WLAN hot spot, in a practical situation can the idle region of the WLAN hot spot defined in 4 ranks and WLAN hot spot over loading region as the case may be the criteria for classifying.For example, using the corresponding region of grid with 3 grades of marks and 4 grades of marks as the idle region of WLAN hot spot, using the corresponding region of grid with 1 grade of mark and 2 grades of marks as WLAN hot spot over loading region.Wherein certain grid is clicked on, the concrete distribution situation and working condition of each WLAN hot spot in the corresponding region of grid as shown in Figure 3 B can be shown；Click on wherein certain WLAN hot spot, the parameters such as the grid numbering residing for the focus, the focus numbering, hotspot name, focus scene, focus AP number of ports, hotspot type, the number of users that the focus is used by mobile terminal, the number of users that the focus is used by PC ends, the network traffics of generation can be shown, consider these parameters, with the idle focus to be transferred of the reasonable selection during deployment or treat the over loading focus of share loads.

User can determine the priority level in region to be optimized according to the grade of each region correspondence grid.Finally, in grating map, user can be pointed out to select general to select condition, for example region that is to be increased or removing focus is filtered out according to grade, user can also according to the map in the Show Color of each grid judge that the higher region of priority level to be optimized carries out tearing open and not busy mend busy process, near the over loading focus (WLAN hot spot identified with " " on map) that one or more idle focuses (WLAN hot spot identified with " △ " on map) in the corresponding region of grid with 3 grades of marks and 4 grades of marks are transferred in the corresponding region of grid with 1 grade of mark and 2 grades of marks, to alleviate the workload with the over loading focus in 1 grade of mark and the corresponding region of 2 grades of grids for representing using the idle hot point resource in the corresponding regions of grid with 3 grades of marks and 4 grades of marks.

Fig. 4 shows a kind of schematic diagram of the device of deployment WLAN hot spot according to an embodiment of the invention.As shown in figure 4, the device 400 of the deployment WLAN hot spot includes：

Pretreatment unit 410, is suitable to according to preset strategy, is multiple regions by pending regional classification；Obtain the business datum produced by each WLAN hot spot built in each region；Business datum is met the first pre-conditioned WLAN hot spot as idle focus, business datum is met the second pre-conditioned WLAN hot spot as over loading focus；For each region for being divided, if to meet the 3rd with the quantitative relation of over loading focus pre-conditioned for the idle focus in the region, it is determined that the region is the idle region of WLAN hot spot；If it is pre-conditioned that the idle focus in the region meets the 4th with the quantitative relation of over loading focus, it is determined that the region is WLAN hot spot over loading region；

Deployment unit 420, is suitable to that the idle focus in the idle region of WLAN hot spot is transferred in WLAN hot spot over loading region the position for meeting preset range with the distance of over loading focus.

It can be seen that，Device shown in Fig. 4 is cooperated by each unit，First pending area is divided into into multiple regions，Business datum according to produced by each WLAN hot spot determines the workload of WLAN hot spot，The workload of each WLAN hot spot in further according to each region determines the WLAN hot spot load condition that the region reflects on the whole，Further according to the WLAN hot spot load condition that each region reflects，Implement the deployment scheme of " tearing not busy benefit open to do " to WLAN hot spot，Idle focus just in the idle region of WLAN hot spot is transferred to the vicinity of the over loading focus in WLAN hot spot over loading region，Both idle hot point resource had been efficiently utilized，The load of over loading focus is alleviated again，The rationally effectively deployment of WLAN hot spot can be reached，Realize WLAN hot spot maximum resource utilization.

In one embodiment of the invention, pretreatment unit 410, are suitable to according to preset strategy, are multiple grids by pending regional corresponding map partitioning；Obtain the business datum produced by each WLAN hot spot built in the corresponding region of each grid；Using the pre-conditioned WLAN hot spot of the first mark tagged traffic data fit first；Using the pre-conditioned WLAN hot spot of the second mark tagged traffic data fit second；For each grid for being divided, if the first mark in the grid meets the 3rd pre-conditioned with the quantitative relation of the second mark, using the 3rd the labelling grid is identified；If the first mark in the grid meets the 4th pre-conditioned with the quantitative relation of the second mark, using the 4th the labelling grid is identified；Deployment unit 420, is suitable to be transferred to the WLAN hot spot with the first mark in the corresponding region of grid with the 3rd mark：In the corresponding region of grid with the 4th mark, with the position that the distance of the WLAN hot spot with the second mark meets preset range.

Wherein, the business datum includes：One or more in online user's quantity, downloading rate, data traffic；Then the business datum meets the first pre-conditioned WLAN hot spot including following one or more：WLAN hot spot of the maximum online user's quantity in predetermined period higher than the first preset value；WLAN hot spot of the maximum download rate in predetermined period higher than the second preset value；WLAN hot spot of the total data flow in predetermined period higher than the 3rd preset value；Then the business datum meets the second pre-conditioned WLAN hot spot including following one or more：WLAN hot spot of the maximum online user's quantity in predetermined period less than the 4th preset value；WLAN hot spot of the maximum download rate in predetermined period less than the 5th preset value；WLAN hot spot of the total data flow in predetermined period less than the 6th preset value.

And, it is pre-conditioned including following one or more that the idle focus in the described region meets the 3rd with the quantitative relation of over loading focus：Idle focus in the region is higher than the 7th preset value with the quantitative proportion of over loading focus；The ratio of the total quantity of idle focus and over loading focus in the quantity of the idle focus in the region and the region is higher than the 8th preset value；It is pre-conditioned including following one or more that idle focus in the described region meets the 4th with the quantitative relation of over loading focus：Over loading focus in the region is higher than the 9th preset value with the quantitative proportion of idle focus；The ratio of the total quantity of idle focus and over loading focus in the quantity of the over loading focus in the region and the region is higher than the tenth preset value；It is pre-conditioned including following one or more that the first mark in the described grid meets the 3rd with the quantitative relation of the second mark：The first mark in the grid and the quantitative proportion of the second mark are higher than the 7th preset value；The quantity of the first mark in the grid is higher than the 8th preset value with the first ratio for identifying the total quantity with the second mark in the grid；It is pre-conditioned including following one or more that the first mark in the described grid meets the 4th with the quantitative relation of the second mark：The second mark in the grid and the quantitative proportion of the first mark are higher than the 9th preset value；The quantity of the second mark in the grid is higher than the tenth preset value with the first ratio for identifying the total quantity with the second mark in the grid.

In one embodiment of the invention, deployment unit 420, it is further adapted for based on the grating map in each region, shows the position of the WLAN hot spot for needing to increase in the WLAN hot spot over loading region, shows idle focus to be removed in the idle region of the WLAN hot spot；Idle focus in the idle region by WLAN hot spot is transferred to the position for meeting preset range with the distance of over loading focus in WLAN hot spot over loading region and is specially：

By the idle focus to be removed in the idle region of the WLAN hot spot shown in map, the position of the WLAN hot spot that the needs shown in map increase is transferred in WLAN hot spot over loading region

It should be noted that the embodiment of Fig. 4 shown devices is corresponding identical with each embodiment shown in Fig. 1-Fig. 3, above describe in detail, will not be described here.

In sum，The technical scheme that the present invention is provided is innovatively according to the settling mode of big data analysis，First pending area is divided into into multiple regions，WLAN hot spot business datum in each region determines the WLAN hot spot load condition that the region reflects on the whole，Further according to the WLAN hot spot load condition that each region reflects，And can be with reference to actual map，Visualization is presented the WLAN hot spot load condition in each region，The deployment scheme of " tearing not busy benefit open busy " is implemented in output directly perceived to WLAN hot spot，Would sit idle for WLAN hot spot and be transferred to WLAN hot spot over loading region，Both idle WLAN hot spot resource had been efficiently utilized，The load of busy WLAN hot spot is alleviated again，The rationally effectively deployment of WLAN hot spot can be reached，Realize WLAN hot spot maximum resource utilization，Support there is provided active block improving user satisfaction.

Presently preferred embodiments of the present invention is the foregoing is only, protection scope of the present invention is not intended to limit.All any modification, equivalent substitution and improvements made within the spirit and principles in the present invention etc., are all contained in protection scope of the present invention.

Claims (10)

1. it is a kind of deployment WLAN hot spot method, it is characterised in that the method includes：

It is multiple regions by pending regional classification according to preset strategy；

Obtain the business datum produced by each WLAN hot spot built in each region；

Business datum is met the first pre-conditioned WLAN hot spot as idle focus, business datum is met the second pre-conditioned WLAN hot spot as over loading focus；

For each region for being divided, if to meet the 3rd with the quantitative relation of over loading focus pre-conditioned for the idle focus in the region, it is determined that the region is the idle region of WLAN hot spot；If it is pre-conditioned that the idle focus in the region meets the 4th with the quantitative relation of over loading focus, it is determined that the region is WLAN hot spot over loading region；

Idle focus in the idle region of WLAN hot spot is transferred in WLAN hot spot over loading region the position for meeting preset range with the distance of over loading focus.

2. the method for claim 1, it is characterised in that the method includes：

It is multiple grids by pending regional corresponding map partitioning according to preset strategy；

Obtain the business datum produced by each WLAN hot spot built in the corresponding region of each grid；Using the pre-conditioned WLAN hot spot of the first mark tagged traffic data fit first；Using the pre-conditioned WLAN hot spot of the second mark tagged traffic data fit second；

For each grid for being divided, if the first mark in the grid meets the 3rd pre-conditioned with the quantitative relation of the second mark, using the 3rd the labelling grid is identified；If the first mark in the grid meets the 4th pre-conditioned with the quantitative relation of the second mark, using the 4th the labelling grid is identified；

The WLAN hot spot with the first mark in the corresponding region of grid with the 3rd mark is transferred to：In the corresponding region of grid with the 4th mark, with the position that the distance of the WLAN hot spot with the second mark meets preset range.

3. method as claimed in claim 1 or 2, it is characterised in that the business datum includes：One or more in online user's quantity, downloading rate, data traffic；

When then the business datum meets following one or more, determine that the WLAN is to meet the first pre-conditioned WLAN hot spot：

WLAN hot spot of the maximum online user's quantity in predetermined period higher than the first preset value；

WLAN hot spot of the maximum download rate in predetermined period higher than the second preset value；

WLAN hot spot of the total data flow in predetermined period higher than the 3rd preset value；

When then the business datum meets following one or more, determine that the WLAN hot spot is to meet the second pre-conditioned WLAN hot spot：

WLAN hot spot of the maximum online user's quantity in predetermined period less than the 4th preset value；

WLAN hot spot of the maximum download rate in predetermined period less than the 5th preset value；

WLAN hot spot of the total data flow in predetermined period less than the 6th preset value.

4. method as claimed in claim 3, it is characterised in that

It is pre-conditioned including meeting following one or more that idle focus in the described region and the quantitative relation of over loading focus meet the 3rd：Idle focus in the region is higher than the 7th preset value with the quantitative proportion of over loading focus；The ratio of the total quantity of idle focus and over loading focus in the quantity of the idle focus in the region and the region is higher than the 8th preset value；

It is pre-conditioned including following one or more that idle focus in the described region meets the 4th with the quantitative relation of over loading focus：Over loading focus in the region is higher than the 9th preset value with the quantitative proportion of idle focus；The ratio of the total quantity of idle focus and over loading focus in the quantity of the over loading focus in the region and the region is higher than the tenth preset value；

It is pre-conditioned including following one or more that the first mark in the described grid meets the 3rd with the quantitative relation of the second mark：The first mark in the grid and the quantitative proportion of the second mark are higher than the 7th preset value；The quantity of the first mark in the grid is higher than the 8th preset value with the first ratio for identifying the total quantity with the second mark in the grid；

It is pre-conditioned including following one or more that the first mark in the described grid meets the 4th with the quantitative relation of the second mark：The second mark in the grid and the quantitative proportion of the first mark are higher than the 9th preset value；The quantity of the second mark in the grid is higher than the tenth preset value with the first ratio for identifying the total quantity with the second mark in the grid.

5. method as claimed in claim 2, it is characterised in that the idle focus in the idle region by WLAN hot spot is transferred in WLAN hot spot over loading region and meets before the position of preset range with the distance of over loading focus, and the method is further included：

Based on the grating map in each region, the position of the WLAN hot spot for needing to increase in the WLAN hot spot over loading region is shown, show idle focus to be removed in the idle region of the WLAN hot spot；

Idle focus in the idle region by WLAN hot spot is transferred to the position for meeting preset range with the distance of over loading focus in WLAN hot spot over loading region and is specially：

By the idle focus to be removed in the idle region of the WLAN hot spot shown in map, the position of the WLAN hot spot that the needs shown in map increase is transferred in WLAN hot spot over loading region.

6. it is a kind of deployment WLAN hot spot device, it is characterised in that the device includes：

Pretreatment unit, is suitable to according to preset strategy, is multiple regions by pending regional classification；Obtain the business datum produced by each WLAN hot spot built in each region；Business datum is met the first pre-conditioned WLAN hot spot as idle focus, business datum is met the second pre-conditioned WLAN hot spot as over loading focus；For each region for being divided, if to meet the 3rd with the quantitative relation of over loading focus pre-conditioned for the idle focus in the region, it is determined that the region is the idle region of WLAN hot spot；If it is pre-conditioned that the idle focus in the region meets the 4th with the quantitative relation of over loading focus, it is determined that the region is WLAN hot spot over loading region；

Deployment unit, is suitable to that the idle focus in the idle region of WLAN hot spot is transferred in WLAN hot spot over loading region the position for meeting preset range with the distance of over loading focus.

7. device as claimed in claim 1, it is characterised in that

The pretreatment unit, is suitable to according to preset strategy, is multiple grids by pending regional corresponding map partitioning；Obtain the business datum produced by each WLAN hot spot built in the corresponding region of each grid；Using the pre-conditioned WLAN hot spot of the first mark tagged traffic data fit first；Using the pre-conditioned WLAN hot spot of the second mark tagged traffic data fit second；For each grid for being divided, if the first mark in the grid meets the 3rd pre-conditioned with the quantitative relation of the second mark, using the 3rd the labelling grid is identified；If the first mark in the grid meets the 4th pre-conditioned with the quantitative relation of the second mark, using the 4th the labelling grid is identified；

The deployment unit, is suitable to be transferred to the WLAN hot spot with the first mark in the corresponding region of grid with the 3rd mark：In the corresponding region of grid with the 4th mark, with the position that the distance of the WLAN hot spot with the second mark meets preset range.

8. device as claimed in claims 6 or 7, it is characterised in that the business datum includes：One or more in online user's quantity, downloading rate, data traffic；

Then the business datum meets the first pre-conditioned WLAN hot spot including following one or more：

WLAN hot spot of the maximum online user's quantity in predetermined period higher than the first preset value；WLAN hot spot of the maximum download rate in predetermined period higher than the second preset value；WLAN hot spot of the total data flow in predetermined period higher than the 3rd preset value；

Then the business datum meets the second pre-conditioned WLAN hot spot including following one or more：

WLAN hot spot of the maximum online user's quantity in predetermined period less than the 4th preset value；WLAN hot spot of the maximum download rate in predetermined period less than the 5th preset value；WLAN hot spot of the total data flow in predetermined period less than the 6th preset value.

9. device as claimed in claim 8, it is characterised in that

It is pre-conditioned including following one or more that idle focus in the described region meets the 3rd with the quantitative relation of over loading focus：Idle focus in the region is higher than the 7th preset value with the quantitative proportion of over loading focus；The ratio of the total quantity of idle focus and over loading focus in the quantity of the idle focus in the region and the region is higher than the 8th preset value；

It is pre-conditioned including following one or more that idle focus in the described region meets the 4th with the quantitative relation of over loading focus：Over loading focus in the region is higher than the 9th preset value with the quantitative proportion of idle focus；The ratio of the total quantity of idle focus and over loading focus in the quantity of the over loading focus in the region and the region is higher than the tenth preset value；

It is pre-conditioned including following one or more that the first mark in the described grid meets the 3rd with the quantitative relation of the second mark：The first mark in the grid and the quantitative proportion of the second mark are higher than the 7th preset value；The quantity of the first mark in the grid is higher than the 8th preset value with the first ratio for identifying the total quantity with the second mark in the grid；

It is pre-conditioned including following one or more that the first mark in the described grid meets the 4th with the quantitative relation of the second mark：The second mark in the grid and the quantitative proportion of the first mark are higher than the 9th preset value；The quantity of the second mark in the grid is higher than the tenth preset value with the first ratio for identifying the total quantity with the second mark in the grid.

10. device as claimed in claim 6, it is characterised in that

The deployment unit, is further adapted for based on the grating map in each region, shows the position of the WLAN hot spot for needing to increase in the WLAN hot spot over loading region, shows idle focus to be removed in the idle region of the WLAN hot spot；Idle focus in the idle region by WLAN hot spot is transferred to the position for meeting preset range with the distance of over loading focus in WLAN hot spot over loading region and is specially：

By the idle focus to be removed in the idle region of the WLAN hot spot shown in map, the position of the WLAN hot spot that the needs shown in map increase is transferred in WLAN hot spot over loading region.