CN104038948A - Equipment laying method and device - Google Patents

Abstract

The embodiment of the invention discloses an equipment laying method and device and relates to the technical field of wireless communication. The equipment laying method and device can automatically generate recommended positions according to laying requirements for a user to refer to. The method comprises obtaining the positions of wireless equipment identities in a layout diagram, wherein the layout diagram is a three-dimensional diagram; according to the positions of the wireless equipment identities in the layout diagram, determining a plane where the wireless equipment identities are located; according to first signal cover requirements, determining at least on recommended position on the plane and marking the wireless equipment identities on the recommended position of the layout diagram for the users to refer to. The equipment laying method and device is applicable to automatically obtaining the recommended laying positions of the wireless equipment identities on the layout diagram.

Description

A kind of method that equipment is laid and device

Technical field

The present invention relates to wireless communication technology field, relate in particular to a kind of method that equipment is laid and device.

Background technology

In the planning and designing process of current wireless network, need first automatically to generate by computer the figure that lays of an initial identity of wireless device, in this initial laying on figure, such as AP (Access Point, access point), the position that lays of the mark of the wireless device such as router determines according to the simple parameter such as identity of wireless device quantity, room-sized, the position that lays that therefore lays the identity of wireless device on figure at this also needs further adjustment.

In the middle of practical operation, need technical staff should lay on the basis of figure, constantly manually adjust in conjunction with the design parameter that lays figure and wireless network.The artificial process of adjusting is roughly: 1, technical staff changes the position that lays identity of wireless device on figure; 2, the figure that lays after changing is carried out to signal simulation; 3, technical staff detects the coverage requirement that lays figure and whether can meet wireless signal after changing according to signal simulation result.Due in actual applications, one lays figure and often has multiple identity of wireless device, the process of need to adjust for each identity of wireless device-emulation-detection of technical staff, make the process need of 1-3 repeatedly, each identity of wireless device that finally makes to lay in figure can meet the signal strength signal intensity requirement on each aspect in building.

For the abundant technical staff of minority working experience, the number of times that will repeat adjustment-emulation-detection before an identity of wireless device is adjusted to suitable position is less, often once being that an identity of wireless device finds suitable position to twice, therefore make one adjust complete lay time, the energy that figure will take can be not too many.And the technical staff who less enriches for most of working experience, the process of need to repeatedly adjust-emulation-detection, can complete the adjustment that lays figure.

This just makes, and in work at present, the process need that adjustment lays figure takies a lot of time and efforts of most of technical staff, has greatly increased cost of labor.

Summary of the invention

Embodiments of the invention provide a kind of method that equipment is laid and device, can be according to automatic generating recommendations position, equipment position, so that operating personnel adjust laying of identity of wireless device according to the recommended location of automatic generation, reduce by artificial and determined that equipment lays in the process of position due to the personal work time and efforts consumption causing of lacking experience, and has reduced cost of labor.

For achieving the above object, embodiments of the invention adopt following technical scheme:

First aspect, embodiments of the invention provide a kind of method that equipment is laid, and comprising:

Obtain the position that lays identity of wireless device in figure, described in to lay figure be graphics;

In the position laying in figure, determine the plane at described identity of wireless device place according to described identity of wireless device;

According to first signal coverage requirement, in the plane at described identity of wireless device place, determine at least one recommended location; Described identity of wireless device is marked in the described recommended location that lays figure, with for reference.

In conjunction with first aspect, in the possible implementation of the first of first aspect, described according to first signal coverage requirement,

In the plane at described identity of wireless device place, determine at least one recommended location, comprising:

In described plane, determine signal cover corresponding to described identity of wireless device, and determine that according to described first signal coverage requirement and signal cover corresponding to described identity of wireless device described identity of wireless device lays scope laying first in figure;

According to preset rules, in described first lays scope, determine that second lays scope;

Obtain described identity of wireless device and lay signal intensity profile in the signal cover of scope and coverage described second;

Lay signal intensity profile in the signal cover of scope and described signal cover according to described identity of wireless device described second, determine that at least one position that meets described first signal coverage requirement is as described recommended location.

In conjunction with the possible implementation of the first of first aspect or first aspect, in the possible implementation of the second of first aspect, described described identity of wireless device is marked in the described recommended location that lays figure after, also comprise:

Described in generation, lay the three-dimensional graph that figure is corresponding, described three-dimensional graph has comprised the described identity of wireless device being marked in described recommended location;

In described three-dimensional graph, show defective region, described defective region refers to that the identity of wireless device institute's respective signal overlay area signal strength signal intensity that is arranged in recommended location does not meet the region of preset signals intensity.In conjunction with the possible implementation of the second of first aspect, in the third possible implementation of first aspect, lay the three-dimensional graph that figure is corresponding described in described generation and comprise:

Lay definite appointed area on figure according to described recommended location described, and determine spatial dimension corresponding to described appointed area;

In described spatial dimension, obtain at least two layerings, and each obtained layering is carried out to signal simulation;

Utilize all layerings through signal simulations to lay the three-dimensional graph that figure is corresponding described in generating.

In conjunction with the third possible implementation of first aspect, in the 4th kind of possible implementation of first aspect,

Describedly in described three-dimensional graph, show defective region, comprising:

In each layering of described three-dimensional graph, filter out region that signal strength signal intensity is less than preset signals intensity as defective region;

Show the result of the signal simulation of the described defective region in each layering.

Second aspect, embodiments of the invention provide a kind of device that equipment is laid, and comprising:

Station acquisition module, for obtaining the position that lays figure identity of wireless device, described in to lay figure be graphics;

The first analysis module, in the position that lays figure, determines the plane at described identity of wireless device place for the described identity of wireless device obtained according to described station acquisition module;

The second analysis module for according to first signal coverage requirement, is determined at least one recommended location in the plane at described identity of wireless device place;

Adjusting module, for described identity of wireless device being marked to the described recommended location that lays figure, with for reference.

In conjunction with second aspect, in the possible implementation of the first of second aspect, described the second analysis module comprises:

The first scope division unit, for determine signal cover corresponding to described identity of wireless device in described plane, and determine that according to described first signal coverage requirement and signal cover corresponding to described identity of wireless device described identity of wireless device lays scope laying first in figure;

The second scope division unit for according to preset rules, determines that second lays scope in first of described the first scope division unit division lays scope;

Signal simulation unit, lay signal intensity profile position determination unit in the signal cover of scope and coverage for obtaining described identity of wireless device described second, for laying signal intensity profile in the signal cover of scope and described signal cover according to described identity of wireless device described second, determine that at least one position that meets described first signal coverage requirement is as described recommended location.

In conjunction with the possible implementation of the first of second aspect or second aspect, in the possible implementation of the second of second aspect, also comprise:

Graphics generation module, has comprised the described identity of wireless device being marked in described recommended location for described three-dimensional graph;

Display module, for showing defective region at described three-dimensional graph, described defective region refers to that the identity of wireless device institute's respective signal overlay area signal strength signal intensity that is arranged in recommended location does not meet the region of preset signals intensity.

In conjunction with the possible implementation of the second of second aspect, in the third possible implementation of second aspect, described graphics generation module comprises:

Region division unit, for laying definite appointed area on figure according to described recommended location described, and determines spatial dimension corresponding to described appointed area, and spatial dimension corresponding described appointed area is sent to layering unit;

Layering unit, spatial dimension corresponding to described appointed area sending for receiving described region division unit, and in described spatial dimension, obtain at least two layerings, and each obtained layering is carried out to signal simulation, and the result of the signal simulation of described each layering is sent to generation unit;

Generation unit, for receiving the result of signal simulation of described each layering that described layering unit sends, and utilizes all layerings through signal simulations to lay the three-dimensional graph that figure is corresponding described in generating.

In conjunction with the third possible implementation of second aspect, in the 4th kind of possible implementation of second aspect,

Described display module comprises:

Screening unit, for each layering at described three-dimensional graph, filters out region that signal strength signal intensity is less than preset signals intensity as defective region;

Described display unit, for showing the result of signal simulation of the described defective region in each layering.

The method that equipment is laid and device that the embodiment of the present invention provides, can, according to automatic generating recommendations position, equipment position, carry out reference for user.With respect to constantly repeating adjustment-emulation-detection according to working experience in prior art, find the scheme that meets wireless signal and cover the equipment of demand and lay position, in the embodiment of the present invention, can automatically generate the recommended location that meets wireless signal covering demand, carrying out reference for user, thereby promote operating efficiency, and reduced cost of labor.

Brief description of the drawings

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, to the accompanying drawing of required use in embodiment be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The flow chart of a kind of method that equipment is laid that Fig. 1 provides for the embodiment of the present invention;

The flow chart of the specific implementation of a kind of method that equipment is laid that Fig. 2 provides for the embodiment of the present invention;

The flow chart of the method that the another kind that Fig. 3 provides for the embodiment of the present invention lays equipment;

The schematic diagram of the instantiation that Fig. 3 a, Fig. 3 b, Fig. 4 a provide for the embodiment of the present invention;

The flow chart of the specific implementation of the method that the another kind that Fig. 4 provides for the embodiment of the present invention lays equipment;

The flow chart of the specific implementation of another method that equipment is laid that Fig. 5 provides for the embodiment of the present invention;

The structural representation of a kind of device that equipment is laid that Fig. 6 provides for the embodiment of the present invention;

The structural representation of the device that the another kind that Fig. 7 provides for the embodiment of the present invention lays equipment;

The structural representation of another device that equipment is laid that Fig. 8 provides for the embodiment of the present invention;

The structural representation of the device of a kind of computing equipment that Fig. 9 provides for the embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art, not making all other embodiment that obtain under creative work prerequisite, belong to the scope of protection of the invention.

The term using is in embodiments of the present invention only for describing the object of specific embodiment, but not is intended to limit the present invention." one ", " described " and " being somebody's turn to do " of the singulative using in the embodiment of the present invention and appended claims are also intended to comprise most forms, unless context clearly represents other implications.It is also understood that term used herein " and/or " refer to and comprise one or more projects of listing that are associated any or all may combine.Depend on linguistic context, as used in this word " if ", " if " can be construed as into " ... time " or " when ... time " or " in response to determining " or " in response to detecting ".Similarly, depend on linguistic context, phrase " if determine " or " if detecting (the conditioned disjunction event of statement) " can be construed as into " " or " in response to determining " or " in the time detecting (the conditioned disjunction event of statement) " or " in response to detection (the conditioned disjunction event of statement) " when definite.

The embodiment of the present invention provides a kind of method that equipment is laid, and as shown in Figure 1, comprising:

101, obtain the position that lays identity of wireless device in figure, described in to lay figure be graphics.

In the embodiment of the present invention, can be carried out by computing equipment the scheme of the embodiment of the present invention.Computing equipment can show and lay figure, and can move for the treatment of the program that lays figure, and common computing equipment is such as work station, desktop computer, notebook computer etc.

It should be noted that, described in the present embodiment, lay figure, this lays, and figure can generate according to parameters such as identity of wireless device quantity, room-sized automatically by computing equipment, or read from other equipment such as server by computing equipment.Described in the present embodiment, laying figure, can be the 3D design drawing of building as shown in Figure 3 a, has comprised the stereochemical structure of building and for representing the point of identity of wireless device position, the figure such as point, reference line of recommended location.

102, in the position laying in figure, determine the plane at described identity of wireless device place according to described identity of wireless device.

Wherein, the mode that lays of identity of wireless device can be wall hanging or suction top, and the plane at identity of wireless device place mainly comprises perpendicular, horizontal plane or clinoplain.

103, according to first signal coverage requirement, in the plane at described identity of wireless device place, determine at least one recommended location.

Wherein, first signal coverage requirement comprises: on each position laying in figure, realize the Minimum requirements that terminal can proper communication, such as: first signal coverage requirement refers to the minimum that lays each the locational required signal strength signal intensity in figure, when lay each locational signal strength signal intensity in figure be more than or equal to minimum time, meet first signal coverage requirement; For another example: first signal coverage requirement refers to each the locational maximum interference degree laying in figure, in the time laying each locational interference being subject in figure and be less than or equal to minimum, meet first signal coverage requirement.Concrete example: have position 1, position 2 and position 3 in figure X laying, first signal coverage requirement is for being illustrated in the minimum of the required wireless signal strength on position 1, position 2 and position 3, and on position 1, the minimum of required wireless signal strength is that the minimum of wireless signal strength required on H1, position 2 is that the minimum of wireless signal strength required on H2, position 3 is H3.When being provided with an identity of wireless device such as AP (Access Point, access point), position 1, position 2 and position 3 are all in the signal cover of this AP, and the intensity that this AP is sent to the wireless signal of position 1 is more than or equal to H1, and the intensity that this AP is sent to the wireless signal of position 2 is more than or equal to H2, and the intensity that this AP is sent to the wireless signal of position 3 is more than or equal to H3, illustrate that this AP can meet the first signal coverage requirement that lays figure.

In embodiments of the present invention, computing equipment can obtain the empirical data about distributed radio device identification from experience database, or obtain empirical data in the memory of computing equipment, recycling empirical data is analyzed first signal coverage requirement, and obtains at least one recommended location.Wherein, empirical data can be to be inputted or computing equipment obtains by operation note the automatic analysis of recording user by user.The empirical data that computing equipment obtains can be uploaded experience database automatically so that with other computing equipments data that share an experience.

104, described identity of wireless device is marked in the described recommended location that lays figure, with for reference.

The method that equipment is laid that the embodiment of the present invention provides, can be according to automatic generating recommendations position, equipment position, with for reference.With respect to constantly repeating adjustment-emulation-detection according to working experience in prior art, find the scheme that meets wireless signal and cover the equipment of demand and lay position, in the embodiment of the present invention, can automatically generate the recommended location that meets wireless signal covering demand, thereby promote operating efficiency, and reduced cost of labor.

Wherein, as shown in Figure 2,103 embodiment can comprise:

201, in described plane, determine signal cover corresponding to described identity of wireless device, and determine that according to described first signal coverage requirement and signal cover corresponding to described identity of wireless device described identity of wireless device lays scope laying first in figure.

In the present embodiment, computing equipment can read the performance parameter information of identity of wireless device, in the plane at identity of wireless device place, determine the theory signal coverage of identity of wireless device, and obtain each the locational wireless signal strength in the theory signal coverage of identity of wireless device.Again according to first signal coverage requirement, in this theory signal coverage, filter out the position that meets first signal coverage requirement, and all positions that meet first signal coverage requirement are divided into first lay scope, wherein, the position that meets first signal coverage requirement can be understood as: first signal coverage requirement has comprised that at this locational minimum wireless signal strength be A, if the wireless signal strength of this position is B in theory signal coverage, and B >=A, illustrate that identity of wireless device meets first signal coverage requirement at this locational wireless signal strength, this position should be divided into first and lay scope.

202, according to preset rules, in described first lays scope, determine that second lays scope.

Computing equipment can read empirical data from experience database, and utilizes empirical data to work out preset rules, then in first lays scope, determines that according to preset rules second lays scope.For example: in actual applications, AP arranges height on the wall and the distance of load-bearing pillar all has certain experiences data, such as: in order to ensure the signal cover of AP, AP need to keep with a certain distance from wall, cause signal too fast weak in order to avoid signal is blocked in corner, and for different big or small rooms, AP is not identical from the optimum distance of wall yet, and AP can be used as school empirical data from the distance of wall and is stored in experience database in the rooms of different sizes, so that computing equipment calls.Computing equipment can be in range of signal corresponding to identity of wireless device, in conjunction with the empirical data of the distance of the height about AP and load-bearing pillar, in the signal cover of AP, further obtain first and lay scope, make first each position laying in scope not only meet the minimum requirements of wireless signal strength but also meet empirical data.

203, obtain described identity of wireless device and lay signal intensity profile in the signal cover of scope and coverage described second.

Computing equipment can calculate identity of wireless device in the described second signal simulation result that lays scope, and this signal simulation result comprises signal intensity profile in each identity of wireless device respective signal coverage and coverage.Wherein, computing equipment can utilize conventional propagation formula to calculate signal simulation result, and computing equipment also can be according to concrete building structure situation, from experience database, obtain the calculating parameter that meets this concrete building structure situation, and the calculating parameter substitution propagation formula obtaining is calculated.For example: computing equipment can, according to the first concrete building structure situation laying in scope, obtain the concrete building structure situation corresponding calculating parameter separately of open area, semi-open region or closed region etc. from experience database.

204, lay signal intensity profile in the signal cover of scope and described signal cover according to described identity of wireless device described second, determine that at least one position that meets described first signal coverage requirement is as described recommended location.

In the present embodiment, signal coverage rate is used for being described in a region, the part that signal strength signal intensity meets default thresholding shared proportion in this region, for example: on a region, have N point, whether the signal strength signal intensity of adding up on each point exceedes thresholding A, and obtain signal strength signal intensity whether exceed thresholding A point add up to N ₁, signal coverage rate=N ₁/ N.

Second lays the part in the plane that scope is identity of wireless device place, computing equipment can be taking the current position of identity of wireless device as (0,0) point, in second lays scope, set up rectangular coordinate system, and obtain at random 3 points as recommended location on two axles of rectangular coordinate system, lay scope because recommended location is positioned at second, therefore recommended location must meet first signal coverage requirement, and also meets empirical data.Concrete, the embodiment of the present invention can realize by the operating system of installing on computing equipment, the hardware of application program scheduling computing equipment, for example:

Computing equipment can first move WLAN (Wireless Local Area Networks, WLAN Full Name in English) Network Programe Design system, utilize user to survey on-the-spot architectural environment, the material decay of the good on-the-spot building of test, the works such as interference source are surveyed data and automatically on architectural plan, are laid AP, thereby obtain the initial figure that lays; Due to first requirement for signal coverage such as working load and signal strength signal intensity, need to carry out position adjustment to initial each AP laying in figure, to meet first signal coverage requirement.Now, computing equipment can, by carrying out the step of 101-103 and the refinement step of 201-204, demonstrate recommended location.Wherein, recommended location can show as the point being positioned on reference line, such as: when AP wall hanging, provide two vertical reference lines of three-dimensional wall plane; When AP furred ceiling, provide the vertical reference line of smallpox plane; Provide three reference positions to select for user.

It should be noted that, when user chooses the icon that lays the identity of wireless device on figure by input equipments such as mouses, and by the identity of wireless device of choosing laying while moving on figure, computing equipment can often move a certain distance and just repeat 201-204, make user in the time laying on figure mobile wireless device mark, can be in real time for user presents identity of wireless device signal simulation result around, and in real time for user provides recommended location, thereby facilitate user to find fast suitable position for identity of wireless device laying on figure.

Further, as shown in Figure 3, after 104, also comprise:

105, lay the three-dimensional graph that figure is corresponding described in generation.

Wherein, described three-dimensional graph has comprised the described identity of wireless device being marked in described recommended location.

106, in described three-dimensional graph, show defective region.

Wherein, described defective region refers to that the identity of wireless device institute's respective signal overlay area signal strength signal intensity that is arranged in recommended location does not meet the region of preset signals intensity.

In actual applications, in experience database, conventionally can preserve the scheme that much lays, comprising the optimum arrangement scheme of a lot of common Architectural Constructions.In optimum arrangement scheme, need to lay each locational signal strength signal intensity in figure and be the value of specifying or in the number range of specifying.In the present embodiment, secondary signal coverage requirement has comprised in optimum arrangement scheme, lays signal strength signal intensity size or the scope of on each position in figure, specifying.When each the locational signal strength signal intensity laying in figure equals the signal strength signal intensity size of specifying or the signal strength range that is arranged in appointment, meet secondary signal coverage requirement.And the region that meets secondary signal coverage requirement is divided into good region, the region that does not meet secondary signal coverage requirement is divided into defective region.Concrete, the present embodiment can be carried out by a kind of wlan network planning and designing system operating on computing equipment, thereby complete the process of obtaining recommended location, for example: can be first survey data acquisition one tentatively carried out the lay figure of AP automatic distributing and discharging according to technical staff in the work collecting at the scene or transfer by the wlan network planning and designing system of moving in computing equipment from database; Work is surveyed data can comprise architectural environment data, the good on-the-spot building material attenuation data of test, interference source data etc.Afterwards, computing equipment operation 3-D view editor subsystem; And laying the demonstration reference line relevant to AP on figure by 3-D view editor subsystem according to secondary signal coverage requirement, wherein secondary signal coverage requirement has comprised the requirement for signal strength signal intensity on each position in the described figure of laying, such as the information such as optimum signal strength range, the minimum signal strength of corner of the room of room middle section.As shown in Figure 3 a, in the time of AP wall hanging, the reference line relevant to AP can be two the orthogonal reference lines taking AP position as intersection point that are positioned at wall plane.As shown in Figure 3 b, in the time of AP furred ceiling, the reference line relevant to AP can be two the orthogonal reference lines taking AP position as intersection point that are positioned at ceiling plane.Further, in the coordinate system that the computing equipment reference line that rule of thumb data are correlated with on the reference line relevant to AP or by AP forms, determine one or more as recommended location.

Wherein, as shown in Figure 4,105 can specific implementation be:

301, lay definite appointed area on figure according to described recommended location described, and determine spatial dimension corresponding to described appointed area.

Wherein, computing equipment can be selected second and lay scope as appointed area, or will lay the plane with certain limit that recommended location radiation definite in scope opens as appointed area according to second.And according in laying figure for the parameter such as building general height, layer height, on the basis in selected region, extend three-dimensional space;

302, in described spatial dimension, obtain at least two layerings, and each obtained layering is carried out to signal simulation.

Computing equipment can be according to the information of user's input, or according to the empirical data at the relevant layering interval of extracting from experience database, mark off multiple layerings according to certain interval in the space of extended three-dimensional, for example: as shown in Fig. 4 a, layering interval can be set as to 60cm; Computing equipment can carry out signal simulation to the every one deck marking off respectively afterwards.Wherein, can be in using between conic section interpolation calculation clearancen the field intensity value of each point, the minimum unit of playing up can be set as the cube of 20cm*20cm*20cm in the present invention.Wherein, the account form of field intensity value can be: field intensity=[transmitted power+transmitting antenna gain+receiving antenna gain-(LOG (operating frequency (MHz)) * 20+LOG (distance (m) between dual-mode antenna) * 10* decay factor+floor penetration factor-28)+adjustment factor] * selected areas area/individual layer gross area, wherein, transmitted power, transmitting antenna gain, receiving antenna gain, operating frequency, distance between dual-mode antenna, decay factor, floor penetration factor, adjusting the parameters such as the factor and selected areas area/individual layer gross area can survey data and experience database and obtain from work.

303, utilize all layerings through signal simulations to lay the three-dimensional graph that figure is corresponding described in generating.

Further, as shown in Figure 5,106 can specific implementation be:

401, in each layering of described three-dimensional graph, filter out region that signal strength signal intensity is less than preset signals intensity as defective region;

In one embodiment of the invention, a layering can be divided into 2 regions, and determine separately a threshold range for these 2 regions, and judge respectively whether these 2 regions are defective region.And computing equipment is judged for each layering, and is determined the defective region in each layering.

402, show the result of the signal simulation of the described defective region in each layering.

Can be shown by computing equipment the result of the signal simulation of defective region, or show including the result of signal simulation of the certain area coverage defective region, or the result of the signal simulation in a region in demonstration defective region, such as the result of the signal simulation at positive and negative 50cm place, the edge from defective region.

The present embodiment can be carried out by a kind of wlan network planning and designing system operating on computing equipment, thereby complete after obtaining recommended location, to plane or the three-dimensional process that lays figure and carry out signal simulation, for example: computing equipment run signal simulation subsystem, receive shortly after the signal simulation instruction of user's input, on figure, carry out signal simulation for laying of adjusting through AP, thereby obtain the signal simulation result laying on figure.Wherein, computing equipment can by signal simulation subsystem to user choose AP around in certain area signal carry out signal simulation and obtain signal simulation result so that user observes the signal radiation effect of the AP after adjustment intuitively; Further, computing equipment can be to by area identification poor the signal radiation effect that lays AP on figure out, need satisfied minimum signal strength such as having recorded in first signal coverage requirement, signal strength signal intensity in load-bearing pillar certain area around does not meet this minimum signal strength, can be by painted load-bearing pillar certain area around and highlight.

Further, at computing equipment, lay after the three-dimensional graph that figure is corresponding having generated, or lay the three-dimensional graph that figure is corresponding and in three-dimensional graph, shown after defective region having generated, can open walking mode, walking mode refers to computing equipment simulation first person and shows the regional in three-dimensional graph, especially the region through carrying out signal simulation and obtaining signal simulation result, show an AP position in three-dimensional graph with first person, wherein this AP appointed area around has been carried out signal simulation and has obtained signal simulation result, thereby make technical staff can find more intuitively defective region.

Due in actual applications, for relating to across baroque buildings such as floors, whole, many Lou Dong, in the time adjusting the position of identity of wireless device, need to consider the impact of space structure for radio signal propagation effect, this just needs, just possess at last certain working experience also need repeatedly attempt finding suitable identity of wireless device position.And in the present embodiment, computing equipment can be according to plane graph generating three-dimensional space diagram, and demonstrates defective region at three-dimensional graph, has further reduced due to the personal work time and efforts consumption causing of lacking experience, thereby promote operating efficiency, reduced cost of labor.

The embodiment of the present invention provides a kind of device that equipment is laid 60, as shown in Figure 6, comprising:

Station acquisition module 61, for obtaining the position that lays figure identity of wireless device, described in to lay figure be graphics;

The first analysis module 62, for obtaining 61 described identity of wireless device according to station acquisition module in the position that lays figure, determines the plane at described identity of wireless device place;

The second analysis module 63 for according to first signal coverage requirement, is determined at least one recommended location in the plane at described identity of wireless device place;

Adjusting module 64, for described identity of wireless device being marked to the described recommended location that lays figure, with for reference.

The device that equipment is laid that the embodiment of the present invention provides, can be according to automatic generating recommendations position, equipment position, with for reference.With respect to constantly repeating adjustment-emulation-detection according to working experience in prior art, find the scheme that meets wireless signal and cover the equipment of demand and lay position, in the embodiment of the present invention, can automatically generate the recommended location that meets wireless signal covering demand, carrying out reference for user, thereby promote operating efficiency, and reduced cost of labor.

Wherein, as shown in Figure 7, described the second analysis module 63 can comprise:

The first scope division unit 631, for determine signal cover corresponding to described identity of wireless device in described plane, and determine that according to described first signal coverage requirement and signal cover corresponding to described identity of wireless device described identity of wireless device lays scope laying first in figure;

The second scope division unit 632, first lays scope and determines that second lays scope for what determine in the first scope division unit 631 according to preset rules;

Signal simulation unit 633, lays signal intensity profile in the signal cover of scope and coverage for obtaining described identity of wireless device described second;

Position determination unit 634, for laying signal intensity profile in the signal cover of scope and described signal cover according to described identity of wireless device described second, determine that at least one position that meets described first signal coverage requirement is as described recommended location.

Further, as shown in Figure 8, device 60 can also comprise:

Graphics generation module 65 lays the three-dimensional graph that figure is corresponding described in generating, and described three-dimensional graph has comprised the described identity of wireless device being marked in described recommended location;

Display module 66, for showing defective region at described three-dimensional graph, described defective region refers to that the identity of wireless device institute's respective signal overlay area signal strength signal intensity that is arranged in recommended location does not meet the region of preset signals intensity.Wherein, described graphics generation module 65 comprises:

Region division unit 651, for laying definite appointed area on figure according to described recommended location described, and determines spatial dimension corresponding to described appointed area;

Layering unit 652, for obtaining at least two layerings in described region division unit 651 definite spatial dimensions, and carries out signal simulation to each obtained layering;

Generation unit 653, for receiving the result of signal simulation of described each layering that described layering unit 652 sends, and utilizes all layerings through signal simulations to lay the three-dimensional graph that figure is corresponding described in generating.

Described display module 66 can comprise:

Screening unit 661, for each layering at described three-dimensional graph, filters out region that signal strength signal intensity is less than preset signals intensity as defective region;

Described display unit 662, for showing the result of signal simulation of the described defective region in each layering.

Due in actual applications, for relating to across baroque buildings such as floors, whole, many Lou Dong, in the time adjusting the position of identity of wireless device, need to consider the impact of space structure for radio signal propagation effect, this just needs, just possess at last certain working experience also need repeatedly attempt finding suitable identity of wireless device position.And in the present embodiment, computing equipment can generating three-dimensional space diagram, and demonstrate defective region at three-dimensional graph, facilitate like this computing staff and can also determine fast the position that is applicable to arranging identity of wireless device by these defective regions of direct hedge, further reduce due to the personal work time and efforts consumption causing of lacking experience, thereby promote operating efficiency, reduced cost of labor.

The embodiment of the present invention provides a kind of computing equipment 90 for equipment is laid, and as shown in Figure 9, this is comprised by computing equipment 90: at least one processor 91, for example CPU, at least one network interface 94 or other user interfaces 93, memory 95, at least one communication bus 92.Communication bus 92 is for realizing the connection communication between these assemblies.Optionally, also comprise user interface 93, comprise display, keyboard or pointing device (for example, mouse, trace ball (trackball), touch-sensitive plate or touch sensitive display screen).Memory 95 may comprise high-speed RAM memory, also may also comprise non-unsettled memory (non-volatile memory), for example at least one magnetic disc store.Memory 95 optionally can comprise at least one and be positioned at the storage device away from aforementioned processing device 91.

In some embodiments, memory 95 has been stored following element, executable module or data structure, or their subset, or their superset:

Operating system 951, comprises various system programs, for realizing various basic businesses and processing hardware based task;

Application program 952, comprises various application programs, for realizing various applied business.

In application program 952, the logic module of each application program and the specific implementation of unit, referring to the corresponding module in the illustrated embodiment of Fig. 6-8 and unit, are not repeated herein.

Particularly, processor 91 for:

Obtain the position that lays identity of wireless device in figure, described in to lay figure be graphics;

In the position laying in figure, determine the plane at described identity of wireless device place according to described identity of wireless device;

According to first signal coverage requirement, in the plane at described identity of wireless device place, determine at least one recommended location; Described identity of wireless device is marked in the described recommended location that lays figure, with for reference.

Wherein processor 91 can also be used for:

Described according to first signal coverage requirement, in the plane at described identity of wireless device place, determine at least one recommended location, comprising:

In described plane, determine signal cover corresponding to described identity of wireless device, and determine that according to described first signal coverage requirement and signal cover corresponding to described identity of wireless device described identity of wireless device lays scope laying first in figure;

According to preset rules, in described first lays scope, determine that second lays scope;

Obtain described identity of wireless device and lay signal intensity profile in the signal cover of scope and coverage described second;

Lay signal intensity profile in the signal cover of scope and described signal cover according to described identity of wireless device described second, determine that at least one position that meets described first signal coverage requirement is as described recommended location.

Further, processor 91, also for described described identity of wireless device is marked in the described recommended location that lays figure after, also comprise:

Described in generation, lay the three-dimensional graph that figure is corresponding, described three-dimensional graph has comprised the described identity of wireless device being marked in described recommended location;

In described three-dimensional graph, show defective region, described defective region refers to that the identity of wireless device institute's respective signal overlay area signal strength signal intensity that is arranged in recommended location does not meet the region of preset signals intensity.Wherein, processor 91, specifically for laying definite appointed area on figure according to described recommended location described, and determines spatial dimension corresponding to described appointed area; In described spatial dimension, obtain at least two layerings, and each obtained layering is carried out to signal simulation; Utilize all layerings through signal simulations to lay the three-dimensional graph that figure is corresponding described in generating.

Processor 91, also specifically in each layering of described three-dimensional graph, filters out region that signal strength signal intensity is less than preset signals intensity as defective region; Show the result of the signal simulation of the described defective region in each layering.

The computing equipment that the embodiment of the present invention provides, can be according to automatic generating recommendations position, equipment position, with for reference.With respect to constantly repeating adjustment-emulation-detection according to working experience in prior art, find the scheme that meets wireless signal and cover the equipment of demand and lay position, in the embodiment of the present invention, can automatically generate the recommended location that meets wireless signal covering demand, carrying out reference for user, thereby promote operating efficiency, and reduced cost of labor.

Each embodiment in this specification all adopts the mode of going forward one by one to describe, between each embodiment identical similar part mutually referring to, what each embodiment stressed is and the difference of other embodiment.Especially,, for apparatus embodiments, because it is substantially similar in appearance to embodiment of the method, so describe fairly simplely, relevant part is referring to the part explanation of embodiment of the method.

One of ordinary skill in the art will appreciate that all or part of flow process realizing in above-described embodiment method, can carry out the hardware that instruction is relevant by computer program to complete, described program can be stored in a computer read/write memory medium, this program, in the time carrying out, can comprise as the flow process of the embodiment of above-mentioned each side method.Wherein, described storage medium can be magnetic disc, CD, read-only store-memory body (Read-Only Memory, ROM) or random store-memory body (Random Access Memory, RAM) etc.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, any be familiar with those skilled in the art the present invention disclose technical scope in; the variation that can expect easily or replacement, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claim.

Claims (10)

1. method equipment being laid, is characterized in that, comprising:

Obtain the position that lays identity of wireless device in figure, described in to lay figure be graphics;

In the position laying in figure, determine the plane at described identity of wireless device place according to described identity of wireless device;

According to first signal coverage requirement, in the plane at described identity of wireless device place, determine at least one recommended location;

Described identity of wireless device is marked in the described recommended location that lays figure, with for reference.

2. the method that equipment is laid according to claim 1, is characterized in that, described according to first signal coverage requirement, determines and comprise at least one recommended location in the plane at described identity of wireless device place:

In described plane, determine signal cover corresponding to described identity of wireless device, and determine that according to described first signal coverage requirement and signal cover corresponding to described identity of wireless device described identity of wireless device lays scope laying first in figure;

According to preset rules, in described first lays scope, determine that second lays scope;

Obtain described identity of wireless device and lay signal intensity profile in the signal cover of scope and coverage described second;

Lay signal intensity profile in the signal cover of scope and described signal cover according to described identity of wireless device described second, determine that at least one position that meets described first signal coverage requirement is as described recommended location.

3. the method that equipment is laid according to claim 1 and 2, is characterized in that, described described identity of wireless device is marked in the described recommended location that lays figure after, also comprise:

Described in generation, lay the three-dimensional graph that figure is corresponding, described three-dimensional graph has comprised the described identity of wireless device being marked in described recommended location;

In described three-dimensional graph, show defective region, described defective region refers to that the identity of wireless device institute's respective signal overlay area signal strength signal intensity that is arranged in recommended location does not meet the region of preset signals intensity.

4. the method that equipment is laid according to claim 3, is characterized in that, lays the three-dimensional graph that figure is corresponding described in described generation to comprise:

Lay definite appointed area on figure according to described recommended location described, and determine spatial dimension corresponding to described appointed area;

In described spatial dimension, obtain at least two layerings, and each obtained layering is carried out to signal simulation;

Utilize all layerings through signal simulations to lay the three-dimensional graph that figure is corresponding described in generating.

5. the method that equipment is laid according to claim 4 shows defective region described in it is characterized in that in described three-dimensional graph, comprising:

In each layering of described three-dimensional graph, filter out region that signal strength signal intensity is less than preset signals intensity as defective region;

Show the result of the signal simulation of the described defective region in each layering.

6. device equipment being laid, is characterized in that, comprising:

Station acquisition module, for obtaining the position that lays figure identity of wireless device, described in to lay figure be graphics;

The first analysis module, in the position that lays figure, determines the plane at described identity of wireless device place for the described identity of wireless device obtained according to described station acquisition module;

The second analysis module for according to first signal coverage requirement, is determined at least one recommended location in the plane at described identity of wireless device place;

Adjusting module, for described identity of wireless device being marked to the described recommended location that lays figure, with for reference.

7. the device that equipment is laid according to claim 6, is characterized in that, described the second analysis module comprises:

The first scope division unit, for determine signal cover corresponding to described identity of wireless device in described plane, and determine that according to described first signal coverage requirement and signal cover corresponding to described identity of wireless device described identity of wireless device lays scope laying first in figure;

The second scope division unit for according to preset rules, determines that second lays scope in first of described the first scope division unit division lays scope;

Signal simulation unit, lay signal intensity profile position determination unit in the signal cover of scope and coverage for obtaining described identity of wireless device described second, for laying signal intensity profile in the signal cover of scope and described signal cover according to described identity of wireless device described second, determine that at least one position that meets described first signal coverage requirement is as described recommended location.

8. according to the device that equipment is laid described in claim 6 or 7, it is characterized in that, also comprise:

Graphics generation module lays the three-dimensional graph that figure is corresponding described in generating, and described three-dimensional graph has comprised the described identity of wireless device being marked in described recommended location;

Display module, for showing defective region at described three-dimensional graph, described defective region refers to that the identity of wireless device institute's respective signal overlay area signal strength signal intensity that is arranged in recommended location does not meet the region of preset signals intensity.

9. the device that equipment is laid according to claim 8, is characterized in that, described graphics generation module comprises:

Region division unit, for laying definite appointed area on figure according to described recommended location described, and determines spatial dimension corresponding to described appointed area;

Layering unit, for obtaining at least two layerings in described spatial dimension, and carries out signal simulation to each obtained layering;

Generation unit, for utilizing all layerings through signal simulations to lay the three-dimensional graph that figure is corresponding described in generating.

10. the device that equipment is laid according to claim 9, is characterized in that described display module comprises:

Screening unit, for each layering at described three-dimensional graph, filters out region that signal strength signal intensity is less than preset signals intensity as defective region;

Described display unit, for showing the result of signal simulation of the described defective region in each layering.