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CN104053215B - A kind of method and device of the optimum position of selection access point - Google Patents

A kind of method and device of the optimum position of selection access point Download PDF

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Publication number
CN104053215B
CN104053215B CN201410258252.4A CN201410258252A CN104053215B CN 104053215 B CN104053215 B CN 104053215B CN 201410258252 A CN201410258252 A CN 201410258252A CN 104053215 B CN104053215 B CN 104053215B
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signal intensity
coefficients
coefficient
sta
signal strength
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CN104053215A (en
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孟义超
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Xian Zhongxing New Software Co Ltd
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Xian Zhongxing New Software Co Ltd
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Priority to PCT/CN2014/090709 priority patent/WO2015188583A1/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/20Selecting an access point

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  • Engineering & Computer Science (AREA)
  • Computer Security & Cryptography (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)
  • Position Fixing By Use Of Radio Waves (AREA)

Abstract

An embodiment of the present invention provides it is a kind of select access point optimum position method, the described method includes:Any one position is obtained, the signal strength of the site STA under being covered according to the access device of the position determines the signal strength coefficient of the position, until obtaining the signal strength coefficient of at least two positions;Record the signal strength coefficient of at least two position correspondences;The signal strength coefficient of record is compared to obtain comparative result, the optimum position of access point AP is determined according to the comparative result.

Description

Method and device for selecting optimal position of access point
Technical Field
The present invention relates to the field of mobile communications technologies, and in particular, to a method and an apparatus for selecting an optimal location of an Access Point (AP).
Background
In the process of implementing the technical solution of the embodiment of the present application, the inventor of the present application finds at least the following technical problems in the related art:
with the rapid development of network bandwidth services, the Wi-Fi technology is even more rapidly advanced. The development of the WiFi technology is mainly reflected in: bandwidth, signal, power consumption, security, network convergence, personal services, mobile features, clients, etc. With the widespread use of WiFi technology, various WiFi-enabled network access devices, such as CPE, UFI, etc., have come into existence. These products have gradually moved into people's homes. Becoming a necessity for people to surf the internet.
In a home, a user usually uses a user terminal device (CPE), a network access device such as UFI, etc. as an access point, and uses a terminal device in the home, such as a notebook, a mobile phone, a PAD, etc., as a Station STA (Station) to surf the internet. Because the WIFI signal will gradually weaken with the increase of the distance, and the WIFI signal is too weak, which will seriously affect the speed and experience of the user in performing network service, and meanwhile, in the place where the user surfs the internet, such as a home residence, the position of the AP is generally unchanged, so how to place the access devices, such as CPE, UFI, etc., can meet the requirement that the user can surf the internet normally in each place to the maximum extent, which is a very troublesome problem in front of the user. If the user holds the CPE, the UFI equipment performs test experiments at each position in a room, so that the complexity is not avoided, and the user experience is extremely poor.
Therefore, a method for selecting an optimal location of an access point is urgently needed, and an optimal location can be selected for an AP.
Disclosure of Invention
In view of this, it is desirable to provide a method for selecting an optimal location of an access point, which is capable of selecting an optimal location for an AP.
In order to achieve the above purpose, the technical solution of the embodiment of the present invention is realized as follows:
the embodiment of the invention provides a method for selecting the optimal position of an access point, which comprises the following steps: acquiring any position, and determining the signal intensity coefficients of the position according to the signal intensity of a station STA covered by access equipment of the position until the signal intensity coefficients of at least two positions are obtained; recording signal intensity coefficients corresponding to at least two positions; and comparing the recorded signal intensity coefficients to obtain a comparison result, and determining the optimal position of the AP according to the comparison result.
In the above scheme, the method further comprises: and before determining the signal intensity coefficient of the position according to the signal intensity of the STA under the coverage of the access equipment of the position, sending a signal intensity detection instruction to all STAs under the coverage of the access equipment of the position to detect the signal intensity of the STA.
In the foregoing solution, the determining the signal strength coefficient of the location according to the signal strength of the STA covered by the access device of the location includes: acquiring a weighting coefficient; obtaining the signal intensity coefficient according to the weighting coefficient and the signal intensity of the STA; wherein the weighting coefficient is the same as the number of the STAs covered by the access device.
In the above scheme, the comparing the recorded signal strength coefficients to obtain a comparison result, and determining the optimal position of the AP according to the comparison result specifically includes: comparing the signal strength coefficients according to the magnitude of the signal strength coefficients; and selecting the position corresponding to the maximum signal strength coefficient as the optimal position of the AP.
In the foregoing solution, the comparing the recorded signal strength coefficients to obtain a comparison result further includes:
and outputting the recorded signal intensity coefficient and the position information corresponding to the signal intensity coefficient in a two-dimensional image mode.
An embodiment of the present invention further provides an apparatus for selecting an optimal location of an access point, where the apparatus includes: the device comprises a determining module, a recording module and a selecting module; the determining module is configured to acquire any one position, and determine a signal strength coefficient of the position according to the signal strength of a station STA covered by the access device of the position until signal strength coefficients of at least two positions are obtained; the recording module is used for recording signal intensity coefficients corresponding to at least two positions; and the selection module is used for comparing the recorded signal intensity coefficients to obtain a comparison result, and determining the optimal position of the AP according to the comparison result.
In the above scheme, the apparatus further comprises: and the detection device is used for sending a signal strength detection instruction to all the STAs covered by the access equipment at the position and detecting the signal strength of the STAs.
In the above scheme, the determining module is specifically configured to obtain a weighting coefficient; obtaining the signal intensity coefficient according to the weighting coefficient and the signal intensity of the STA; wherein the weighting coefficient is the same as the number of the STAs covered by the access device.
In the foregoing solution, the selecting module is specifically configured to compare the signal strength coefficients according to the magnitude of the signal strength coefficients; and selecting the position corresponding to the maximum signal strength coefficient as the optimal position of the AP.
In the foregoing solution, the selecting module is further configured to: and outputting the recorded signal intensity coefficient and the position information corresponding to the signal intensity coefficient in a two-dimensional image mode.
The embodiment of the invention provides a method for selecting the optimal position of an access point, which comprises the steps of obtaining any position, determining the signal intensity coefficient of the position according to the signal intensity of a station STA (station) covered by access equipment of the position until the signal intensity coefficients of at least two positions are obtained; recording signal intensity coefficients corresponding to at least two positions; comparing the recorded signal intensity coefficients to obtain a comparison result, and determining the optimal position of the AP according to the comparison result; therefore, the optimal position can be selected for the AP so as to take account of all the STAs under the coverage of the AP, and the connection state of all the STAs under the coverage of the AP is the optimal state.
Drawings
Fig. 1 is a flowchart illustrating a method for selecting an optimal location of an access point according to an embodiment of the present invention;
fig. 2 is a flowchart illustrating a method for selecting an optimal location of an ap according to an embodiment of the present invention;
fig. 3 is a network topology diagram of a method for selecting an optimal location of an access point according to an embodiment of the present invention;
fig. 4 is a flowchart illustrating a method for detecting signal strength of a station under coverage of an access device at a location;
fig. 5 is a schematic structural diagram of an apparatus for selecting an optimal location of an access point according to an embodiment of the present invention.
Detailed Description
In the embodiment of the invention, any position is obtained, and the signal intensity coefficients of the position are determined according to the signal intensity of the station STA covered by the access equipment of the position until the signal intensity coefficients of at least two positions are obtained; recording signal intensity coefficients corresponding to at least two positions; and comparing the recorded signal intensity coefficients to obtain a comparison result, and determining the optimal position of the AP according to the comparison result.
The invention is further described in detail below with reference to the drawings and the specific embodiments.
Step 101, acquiring any position, and determining a signal strength coefficient of the position according to the signal strength of a station STA covered by the access device of the position until obtaining the signal strength coefficients of at least two positions.
Step 102, recording signal intensity coefficients corresponding to at least two positions;
and 103, comparing the recorded signal intensity coefficients to obtain a comparison result, and determining the optimal position of the AP according to the comparison result.
In step 101, for any one of a plurality of positions with different position coordinates, obtaining the position coordinates of the position, and sending a signal strength detection instruction to all STAs covered by the access device located in the position to detect the signal strength of the STA; after detecting the signal strengths of all the STAs, determining a signal strength coefficient of the access device at the location, specifically, obtaining a weighting coefficient, and obtaining the signal strength coefficient according to the weighting coefficient and the signal strengths of the STAs; the weighting coefficients are the same as the number of the STAs covered by the access device, that is, one STA corresponds to one weighting coefficient. Wherein, for any one acquired position, at least two positions have different position coordinates.
In step 102, recording each location according to the location of at least two different access prevention devices selected by the user, and determining the signal strength coefficient corresponding to the access device in each location by using the method in step 101.
In step 103, comparing the signal strength coefficients according to the magnitude of the signal strength coefficients; and selecting the position corresponding to the maximum signal strength coefficient as the optimal position of the AP.
In step 103, outputting the recorded signal intensity coefficient and the position information corresponding to the signal intensity coefficient in a two-dimensional image.
Fig. 2, fig. 3, and fig. 4 illustrate the following embodiments of the present invention by taking a real application scenario as an example:
fig. 2 illustrates a method for determining a signal strength coefficient of an access device at a location by taking the access device at location L1 as an example, as shown in fig. 2, including the following steps:
step 201, recording the number of STAs deployed in a resident room of a room;
here, for an access device, a plurality of STA devices located at different positions and capable of accessing the access device are recorded, and the STA devices may include STA devices such as a smartphone, a notebook, a PAD, and a printer, where each STA device corresponds to a different device identifier, for example, the smartphone is STA1, the notebook is STA2, the PAD is STA3, and the printer is STA 4. The different locations may include living rooms, study rooms, balconies, bedrooms, etc. where access to the internet is frequent. For example, STA1 is located in the living room, STA2 is located in the study room, STA3 is located in the bedroom, and STA4 is located on the balcony.
Step 202, connecting the access device at position 1 with each STA device;
and starting WIFI functions of the access equipment and the STA equipment, accessing the STA equipment at different positions to the access equipment at the L1 position, and recording the equipment identification of the STA equipment accessed to the access equipment. Here, the STA devices accessed to the access device are STA1, STA2, STA3, STA 4; the current location of the access device is labeled as L1, location 1.
Step 203, detecting and storing the WIFI signal intensity of each STA;
specifically, the access device at the L1 position sends a signal strength detection instruction to STA1, STA2, STA3, and STA4, and detects the signal strength of each device; here, the signal strength received by the access device at the L1 position from STA1, STA2, STA3, and STA4 may be R11, R12, R13, and R14, respectively; and storing the signal strength of the detected STA equipment, wherein the distances of the STA1, the STA2, the STA3 and the STA4 accessing the equipment are different, and the sizes of R11, R12, R13 and R14 can be different. Here, the access device defines the received signal strength of the STAj accessing the access device located at the location i as Rij.
Step 204, calculating and outputting a signal intensity coefficient of the position 1;
here, before calculating the signal strength coefficient of position 1, a weighting coefficient for calculating the signal strength coefficient is obtained, where a weighting coefficient is set for each STA accessing to the access device, the weighting coefficient corresponding to STA1 is X1, the weighting coefficient corresponding to STA2 is X2, the weighting coefficient corresponding to STA3 is X3, and the weighting coefficient corresponding to STA4 is X4.
Here, a weighting coefficient may be set for each STA according to the use frequency of each STA, and specifically, for an STA with a high use frequency, the set weighting coefficient has a larger value; for the STA with low use frequency, the weighting coefficient set by the STA is small in value. For example, STA1 located in the living room has a high frequency of use, and the weighting factor X1 is 5; the use frequency of the STA2 in the study room is the highest, and the weighting coefficient X2 is 4; STA3 located in the bedroom was used less frequently with a weight factor of X3 of 3, STA4 located on the balcony was used less frequently with a weight factor of X4 of 2.
After obtaining the weighting factor, the access device calculates a signal strength factor of the location according to the obtained weighting factor and the signal strength of the STA device corresponding to the obtained weighting factor, where the location of the access device is L1, and the strength factor of the location L1 is defined as Y1, where Y1 is R11X 1+ R12X 2+ R13X 3+ R14X 4.
It should be noted that, the value of the weighting coefficient may be set according to the requirement of a preset rule, where the preset rule may be set by a user according to an empirical value.
Fig. 3 is a schematic diagram of a flow of a method for selecting an optimal location of an access point, as shown in fig. 3, comprising the steps of:
step 301, recording the position where the access device can be placed;
here, the index coordinates of the locations where the access devices can be placed in the room are identified, the total number of the recorded locations where the access devices can be placed is n, and the ith location where the access device is placed is recorded as Li.
Step 302, calculating a signal intensity coefficient Yi of the access equipment placed at the Li position;
specifically, starting with i ═ 1, the signal strength coefficients Y1 of the access devices at the positions L1 through Ln are calculated, respectively: the access device is placed at the position L1, i is set to 1, the signal strength coefficient Y1 at the position L1 is calculated by the method of determining the signal strength coefficient of the access device at the position for a position shown in fig. 2, after the signal strength coefficient Y1 of the access device at the position L1 is calculated, the signal strength coefficient Y1 corresponding to the position L1 and the position L1 is stored, the value of i is increased by 1, and at this time, i is set to 2. When the intensity coefficient of Li at the ith position is calculated, the intensity coefficient corresponding to Li is defined as Yi.
Step 303, judging whether i is less than or equal to n;
at this time, the value of i is compared with n, whether i is less than or equal to n is judged, if i is less than or equal to n, step 304 is executed, otherwise, step 302 is executed, and the signal intensity coefficient Yi of the access device placed at the Li position is calculated, wherein i is greater than 1.
It should be noted that, for the access device at each location, when calculating the signal strength coefficient, the STA devices accessed by the access device are consistent, and for the access devices at different locations, the weighting coefficients of an STA device are consistent.
Step 304, generating a histogram from the signal intensity coefficients at each position, outputting and displaying the generated histogram, and selecting the position corresponding to the maximum value of the signal intensity coefficients as the optimal position of the router;
specifically, a two-dimensional bar chart is drawn and displayed according to the marking coordinates of each position and the signal intensity coefficient corresponding to the marking coordinates, so that the signal intensity coefficient of each position can be clearly identified by a user. And selecting the position corresponding to the maximum value of the signal strength coefficient as the optimal position for placing the access equipment, namely the optimal position of the access point. At this time, the WIFI connection between the access device and each STA can reach the optimal state, so that each STA device in a room can surf the internet normally, and the WLAN network is further optimized.
As shown in fig. 4, a network topology of a network scenario of the method for detecting signal strength coefficients of a location and selecting an optimal location of an access point according to the embodiments of the present invention shown in fig. 2 and 3 is shown, wherein an attribute of a CPE is an AP device, i.e., a home router, placed at a certain location Pi in a living room; attributes of the smart phone, the notebook, the PAD and the printer are STA devices, wherein the smart phone is located in a living room, the notebook is located in a study room, the PAD is located in a bedroom, and the printer is located in a balcony.
In fig. 4, uplink of the CPE is connected to the internet through SIM card dialing or ethernet cable, downlink is connected to other STAs through WIFI, and each STA performs network service through the CPE. The positions of the STAs are different, and the distances between the STAs and the CPE are different, so that the strength of the WIFI signal is different between each STA and the CPE. For the STA with weak WIFI signals, the STA seriously affects the speed and experience of the user using the STA to surf the internet due to the weak WIFI signals. By adopting the method for selecting the mobile hotspot provided by the embodiment of the invention, the optimal position can be found for the access point equipment, and the working STA in a room is considered, so that all STAs can smoothly carry out network service.
In practical application, the method for selecting the optimal position of the access point provided by the embodiment of the invention optimizes the functions and performances of products of access equipment such as CPE (customer premise equipment), UFI (universal data interface), and the like. The PAD, the notebook, the smart phone and other STAs are deployed in resident places such as a living room, a bedroom, a balcony and a study room of a room, and the WIFI function of the PAD, the notebook, the smart phone and other STAs is started. The method comprises the steps of placing the CPE or the UFI at one position in a room, starting a WIFI function of the CPE or the UFI, connecting each STA to the CPE or the UFI, and detecting the WIFI signal intensity of each STA. And then setting a weighting coefficient for each STA according to actual needs, finally calculating a signal intensity coefficient of the position, repeating the steps to calculate the signal intensity coefficient of each position in the room, selecting a maximum value from the signal intensity coefficients, and placing access equipment such as CPE or UFI on the corresponding position of the access equipment, so that the WIFI connection between each STA and the access equipment such as CPE or UFI reaches the optimal state, and each STA is guaranteed to smoothly perform network services. The performance and the user experience of access equipment such as CPE (customer premise equipment), UFI (universal data interface) products and the like are greatly improved.
In order to implement the foregoing method, an embodiment of the present invention further provides an apparatus for selecting an optimal location of an access point, as shown in fig. 5, where the apparatus includes: a determining module 51, a recording module 52, a selecting module 53; wherein,
the determining module 51 is configured to acquire any one position, and determine a signal strength coefficient of the position according to the signal strength of the STA under the coverage of the access device of the position until signal strength coefficients of at least two positions are obtained.
A determining module 51, specifically configured to obtain a weighting coefficient; obtaining the signal intensity coefficient according to the weighting coefficient and the signal intensity of the STA; wherein the weighting coefficient is the same as the number of the STAs covered by the access device.
And a recording module 52, configured to record signal strength coefficients corresponding to at least two positions.
And the selecting module 53 is configured to compare the recorded signal strength coefficients to obtain a comparison result, and determine an optimal position of the AP according to the comparison result.
A selecting module 53, specifically configured to compare the signal strength coefficients according to the magnitude of the signal strength coefficients; and selecting the position corresponding to the maximum signal strength coefficient as the optimal position of the AP.
And the selecting module 53 is further configured to output the recorded signal intensity coefficients and the position information corresponding to the signal intensity coefficients in a two-dimensional image.
As shown in fig. 5, the apparatus further includes: and a detecting device 54, configured to send a signal strength detection instruction to all STAs covered by the access device in the location, and detect the signal strength of the STA.
In practical applications, the apparatus may be a single system, or a logic unit for performing different functions may be added to the existing CPE.
If logic units are added to the CPE, the determining module 51, the recording module 52, the selecting module 53 and the detecting device 54 may be implemented by a Central Processing Unit (CPU) located in the base station, a Digital Signal Processor (DSP), or a Programmable gate array (FPGA).
The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, and any modifications, equivalents, improvements, etc. that are within the spirit and principle of the present invention should be included in the present invention.

Claims (10)

1. A method for selecting an optimal location for an access point, the method comprising:
acquiring any position, and determining the signal intensity coefficients of the position according to the signal intensity of a station STA covered by access equipment of the position until the signal intensity coefficients of at least two positions are obtained;
the signal intensity coefficients also comprise that a user sets a weighting coefficient for each STA according to the actual needs of the user, and the signal intensity coefficients according with the needs of the user are obtained according to the weighting coefficients and the signal intensity of the STA;
recording signal intensity coefficients corresponding to at least two positions;
and comparing the recorded signal intensity coefficients to obtain a comparison result, and determining the optimal position of the AP according to the comparison result.
2. The method of claim 1, further comprising:
and before determining the signal intensity coefficient of the position according to the signal intensity of the STA under the coverage of the access equipment of the position, sending a signal intensity detection instruction to all STAs under the coverage of the access equipment of the position to detect the signal intensity of the STA.
3. The method of claim 1, wherein the determining the signal strength coefficient for the location according to the signal strength of the STA under coverage of the access device for the location comprises:
acquiring a weighting coefficient;
obtaining the signal intensity coefficient according to the weighting coefficient and the signal intensity of the STA; wherein,
the weighting coefficient is the same as the number of the STAs covered by the access equipment.
4. The method according to claim 1, wherein the comparing the recorded signal strength coefficients yields a comparison result, and wherein the determining the optimal position of the AP according to the comparison result specifically comprises:
comparing the signal strength coefficients according to the magnitude of the signal strength coefficients;
and selecting the position corresponding to the maximum signal strength coefficient as the optimal position of the AP.
5. The method of claim 4, wherein comparing the recorded signal strength coefficients to obtain a comparison further comprises:
and outputting the recorded signal intensity coefficient and the position information corresponding to the signal intensity coefficient in a two-dimensional image mode.
6. An apparatus for selecting an optimal location for an access point, the apparatus comprising: the device comprises a determining module, a recording module and a selecting module; wherein,
the determining module is used for acquiring any position, and determining the signal intensity coefficients of the position according to the signal intensity of the station STA covered by the access equipment of the position until the signal intensity coefficients of at least two positions are obtained;
the signal intensity coefficients also comprise that a user sets a weighting coefficient for each STA according to the actual needs of the user, and the signal intensity coefficients according with the needs of the user are obtained according to the weighting coefficients and the signal intensity of the STA;
the recording module is used for recording signal intensity coefficients corresponding to at least two positions;
and the selection module is used for comparing the recorded signal intensity coefficients to obtain a comparison result, and determining the optimal position of the AP according to the comparison result.
7. The apparatus of claim 6, further comprising: and the detection device is used for sending a signal strength detection instruction to all the STAs covered by the access equipment at the position and detecting the signal strength of the STAs.
8. The apparatus according to claim 6, wherein the determining module is specifically configured to obtain a weighting coefficient;
obtaining the signal intensity coefficient according to the weighting coefficient and the signal intensity of the STA; wherein,
the weighting coefficient is the same as the number of the STAs covered by the access equipment.
9. The apparatus according to claim 6, wherein the selection module is specifically configured to compare the signal strength coefficients according to their magnitudes;
and selecting the position corresponding to the maximum signal strength coefficient as the optimal position of the AP.
10. The apparatus of claim 9, wherein the selection module is further configured to:
and outputting the recorded signal intensity coefficient and the position information corresponding to the signal intensity coefficient in a two-dimensional image mode.
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