CN114339833A - Method and equipment for configuring route based on wireless network real-time information - Google Patents
Method and equipment for configuring route based on wireless network real-time information Download PDFInfo
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Abstract
The method comprises the steps of determining a plurality of target areas and network transmission channels used by each target area under the measurement of the same terminal, and selecting a target network transmission channel from the network transmission channels used by each target area according to the registered network state; determining the wireless network real-time information of each target area according to the physical layer parameters and the corresponding weight obtained when each target area uses the target network transmission channel; and performing network combination based on the wireless network real-time information of each target area to complete routing configuration. Therefore, the current state of the multi-path wireless network can be judged from the physical layer, and the routing configuration is carried out according to the current state of the multi-path wireless network, so that the low-delay and high-throughput performance is ensured.
Description
Technical Field
The present application relates to the field of computers, and in particular, to a method and an apparatus for configuring a route based on real-time information of a wireless network.
Background
The multi-network aggregation is a process that a terminal cuts data and sends the data to a cloud server through different wireless networks, the cloud server receives the data sent by the terminal and performs unified processing after the data are aggregated, when a plurality of wireless network channels transmit data, the bottleneck of delay and throughput is the path with the worst wireless condition, and how to perform route configuration influences the throughput performance of the whole system; at present, the transmission condition of a wireless network is directly judged through packet loss, delay and the like from a network layer, but the method has low efficiency and cannot be used for prejudging the state change of multiple wireless networks, and the state change of the wireless networks also influences the routing configuration.
Disclosure of Invention
An object of the present application is to provide a method and an apparatus for configuring a route based on real-time information of a wireless network, which solve the problem in the prior art that the current state of multiple wireless networks cannot be accurately determined and the route configuration cannot be performed based on the current state.
According to an aspect of the present application, there is provided a method for configuring a route based on wireless network real-time information, the method including:
determining a plurality of target areas and network transmission channels used by each target area under the measurement of the same terminal, and selecting a target network transmission channel from the network transmission channels used by each target area according to the registered network state;
determining the wireless network real-time information of each target area according to the physical layer parameters and the corresponding weight obtained when each target area uses the target network transmission channel;
and performing network combination based on the wireless network real-time information of each target area to complete routing configuration.
Optionally, the method comprises:
storing the wireless network real-time information of each target area and generating a linear graph;
pre-judging information change between a terminal and a base station corresponding to each target area according to the linear graph, wherein the information change comprises distance change and azimuth change;
adjusting the network combination based on the information change.
Optionally, determining the wireless network real-time information of each target area according to the physical layer parameters and the corresponding weight obtained when each target area uses the target network transmission channel, including:
calculating a score corresponding to each parameter according to the physical layer parameters obtained when each target area uses the target network transmission channel;
and determining the wireless network real-time information of each target area according to the score corresponding to each parameter and the corresponding weight.
Optionally, the real-time information of the wireless network includes a total score, the method comprising:
and sequencing all the target areas according to the total score of each target area, and when the scores of the wireless networks are the same, sequencing according to the score corresponding to each physical layer parameter to obtain the sequenced target areas.
Optionally, the wireless network real-time information includes a bandwidth, and network combination is performed based on the wireless network real-time information of each target area, including:
comparing the bandwidth upper limit value of each target area with the bandwidth demand value used by the user in the target area;
selecting a preferred target area from the sorted target areas according to a comparison result;
and determining a network combination according to the preferred target area and the used target network transmission channel.
Optionally, selecting a preferred target area according to the score of the wireless network of each target area according to the comparison result includes:
judging whether the bandwidth difference between the upper limit value of the bandwidth of each target area and the bandwidth requirement value used by the user in the target area is greater than a bandwidth threshold value or not;
if so, selecting the most-front ordered target area in the ordered target areas as the preferred target area;
and if not, selecting the rear appointed number of target areas in the sorted target areas as the preferred target areas according to the appointed number.
Optionally, calculating a score corresponding to each parameter according to a physical layer parameter obtained when each target area uses the target network transmission channel, including:
and carrying out grade division according to physical layer parameters obtained when each target area uses the target network transmission channel, and calculating a score corresponding to each parameter according to the grade division, wherein the physical layer parameters comprise RSRP, RSRQ, SINR, CQI, bandwidth and parameters of a service process.
According to another aspect of the present application, there is also provided an apparatus for configuring a route based on wireless network real-time information, the apparatus including:
the device comprises a determining device and a judging device, wherein the determining device is used for determining a plurality of target areas and network transmission channels used by each target area under the measurement of the same terminal, and selecting a target network transmission channel from the network transmission channels used by each target area according to the registered network state;
the computing device is used for determining the wireless network real-time information of each target area according to the physical layer parameters and the corresponding weight obtained when each target area uses the target network transmission channel;
and the routing device is used for carrying out network combination based on the wireless network real-time information of each target area so as to complete routing configuration.
According to another aspect of the present application, there is also provided an apparatus for configuring a route based on wireless network real-time information, the apparatus including:
one or more processors; and
a memory storing computer readable instructions that, when executed, cause the processor to perform the operations of the method as previously described.
According to yet another aspect of the present application, there is also provided a computer readable medium having computer readable instructions stored thereon, the computer readable instructions being executable by a processor to implement the method as described above.
Compared with the prior art, the method comprises the steps that a plurality of target areas and network transmission channels used by each target area under the same terminal measurement are determined, and the target network transmission channel is selected from the network transmission channels used by each target area according to the registered network state; determining the wireless network real-time information of each target area according to the physical layer parameters and the corresponding weight obtained when each target area uses the target network transmission channel; and performing network combination based on the wireless network real-time information of each target area to complete routing configuration. Therefore, the current state of the multi-path wireless network can be judged from the physical layer, and the routing configuration is carried out according to the current state of the multi-path wireless network, so that the low-delay and high-throughput performance is ensured.
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Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:
fig. 1 is a flow chart illustrating a method for configuring routing based on wireless network real-time information according to an aspect of the present application;
fig. 2 is a schematic structural diagram illustrating an apparatus for configuring a route based on wireless network real-time information according to another aspect of the present application.
The same or similar reference numbers in the drawings identify the same or similar elements.
Detailed Description
The present application is described in further detail below with reference to the attached figures.
In a typical configuration of the present application, the terminal, the device serving the network, and the trusted party each include one or more processors (e.g., Central Processing Units (CPUs)), input/output interfaces, network interfaces, and memory.
The Memory may include volatile Memory in a computer readable medium, Random Access Memory (RAM), and/or nonvolatile Memory such as Read Only Memory (ROM) or flash Memory (flash RAM). Memory is an example of a computer-readable medium.
Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, Phase-Change RAM (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), flash Memory or other Memory technology, Compact Disc Read-Only Memory (CD-ROM), Digital Versatile Disc (DVD) or other optical storage, magnetic cassette tape, magnetic tape storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, computer readable media does not include non-transitory computer readable media (transient media), such as modulated data signals and carrier waves.
Fig. 1 is a flowchart illustrating a method for configuring a route based on wireless network real-time information according to an aspect of the present application, where the method includes: step S11 to step S13, wherein, in step S11, a plurality of target areas and network transmission channels used by each target area under the measurement of the same terminal are determined, and a target network transmission channel is selected from the network transmission channels used by each target area according to the registered network state; step S12, determining the wireless network real-time information of each target area according to the physical layer parameters and the corresponding weight obtained when each target area uses the target network transmission channel; step S13, performing network combination based on the wireless network real-time information of each target area to complete the routing configuration. Therefore, the real-time information of the wireless network can be judged from the physical layer parameters, and the routing configuration is carried out according to the real-time information, so that the efficiency and the system performance are improved.
Specifically, in step S11, a plurality of target areas and network transmission channels used by each target area under the measurement of the same terminal are determined, and a target network transmission channel is selected from the network transmission channels used by each target area according to the registered network status; herein, when performing network transmission, determining a plurality of target areas measured by using the same terminal, where the terminal is a device for measuring wireless network states of cells, the terminal may measure a cell of a signal as a target area or select a target area according to the measured signal strength, and after determining the target area, determining a network transmission module (e.g. LTE/5G module) used by each target area, where one target area corresponds to one network transmission module and one network transmission module provides one network transmission channel, i.e. corresponds to one route, so as to implement multiple network transmission channels through a plurality of network transmission modules, and implement network data transmission through the network transmission channels, where the target area is divided by building or area properties, e.g. divided by cells, and a plurality of cells use the same terminal for measurement, each cell can use one network transmission channel, one network transmission channel corresponds to one route, and the distribution of the plurality of network transmission channels to a plurality of cells is needed, namely the route configuration is needed; in the embodiment of the application, each target area and the network transmission channel used by each target area are determined, and after a plurality of network transmission channels are determined, whether the states of the plurality of network transmission channels are normal or not and whether the plurality of network transmission channels can be normally used or not needs to be judged, so that a normally used network transmission module to which the same terminal can be connected is obtained, and the terminal measures the state of the wireless network of the corresponding target area by using the normally used module to which the terminal can be connected. Whether each network transmission module is normally network-registered or not, if so, the network transmission module can be used as a target network transmission channel, for example, a terminal has four cells, and the network transmission modules share 4 network transmission modules, so that the following relationship is formed: module 1- > route 1- > cell 1, module 2- > route 2> cell 2, module 3- > route 3- > cell 3, module 4- > route 4- > cell 4. And if 3 are normal, the 3 network transmission modules are used as 3 target network transmission channels to be used as subsequent route distribution selection, namely three corresponding cells are selected according to the registered network states of the network transmission modules, the three cells are selected by using the wireless network real-time information of the three cells, namely the last used corresponding network transmission module is also selected, and route configuration is completed.
Specifically, in step S12, the wireless network real-time information of each target area is determined according to the physical layer parameters and the corresponding weight obtained when each target area uses the target network transmission channel; the wireless network real-time information of each target area is judged according to the physical layer parameters, and grading and determining are carried out according to each physical layer parameter and the corresponding weight when the judgment is carried out. Then, in step S13, network combination is performed based on the wireless network real-time information of each target area to complete the routing configuration. Therefore, the state of the current wireless network can be accurately judged by utilizing the obtained real-time information, and then network combination can be carried out according to the real-time state, wherein the network combination refers to that a target area is selected, a specifically used target network transmission channel is selected to distribute network transmission data, specific route configuration is carried out, the most accurate route is obtained, and the network data transmission efficiency and performance of the whole system are improved.
In some embodiments of the present application, the method comprises: storing the wireless network real-time information of each target area and generating a linear graph; pre-judging information change between a terminal and a base station corresponding to each target area according to the linear graph, wherein the information change comprises distance change and azimuth change; adjusting the network combination based on the information change. The wireless network real-time information of each target area is stored to obtain a history record, so that a linear graph is generated by using the history record, the distance and the direction change between the terminal and the base station of the target area can be predicted and measured according to the linear graph, and the network combination selection is adjusted in advance, namely, a new target area which can be measured again by the terminal is measured again according to the predicted information change, the quality judgment of the current wireless network is carried out on the new target area, and the rerouting is carried out.
In this embodiment of the present application, after the same terminal is connected to different or the same cells through multiple modules, multiple wireless network transmission channels are established, that is, multiple routes for wireless network transmission are established, and a required cell is selected by scoring the current wireless status signal quality of the cell corresponding to each transmission channel, for example, 4 modules are used to connect to four different cells, and then 1, 2, 3, or 4 of the cells are selected by using the scoring of the current wireless status signal quality of the four cells for network transmission, so as to ensure the performance of low delay, high bandwidth, and high rate, and meet the user requirements.
In some embodiments of the present application, in step S12, a score corresponding to each parameter is calculated according to a physical layer parameter obtained when each target area uses the target network transmission channel; and determining the wireless network real-time information of each target area according to the score corresponding to each parameter and the corresponding weight. Here, when the wireless network real-time information of each target area is evaluated, parameters related to wireless network state evaluation may be obtained for each target area by using a target network transmission channel which can be currently used, including physical layer parameters including parameters of RSRP, RSRQ, SINR, CQI, bandwidth and a service process, so as to calculate a score corresponding to each parameter for the physical layer parameters, and calculate a total score according to the corresponding score and a set weight of each parameter, so as to obtain the real-time information of the wireless network.
In some embodiments of the present application, the real-time information of the wireless network includes a total score, and the method includes: and sequencing all the target areas according to the total score of each target area, and when the scores of the wireless networks are the same, sequencing according to the score corresponding to each physical layer parameter to obtain the sequenced target areas. After the total score of the wireless network state of each target area is obtained, the target areas are sorted according to the total score, and when the total scores are the same, the total scores are sequentially compared according to the scoring sequence of specific physical parameters, for example, when the total scores are the same, the scores are compared according to the score of the parameter a, if the total scores are the same, the scores are compared according to the score of the parameter B, and so on, the sorting condition of the target areas under the same total score is obtained, and all the target areas are sorted to obtain the final sorting. Specifically, when the physical parameters include RSRP (reference signal received power) of the target region, SINR (signal to interference plus noise ratio), CQI (channel quality index), bandwidth (bandwidth) of the target region, and parameters in the traffic process including MCS (modulation and coding strategy), bler (block error rate), and harq (hybrid automatic repeat request), when the total scores are the same, the comparison may be performed according to the scores of SINR, RSRP, CQI, RSRQ, MCS, bler, and harq. When the parameters are stored, a linear graph can be generated according to the stored RSRP records, the change of the distance and the direction between the terminal and the base station is judged in advance through the linear graph of the RSRP, the trend of the wireless state of the current target area changing well or changing bad is judged in advance, the total score of the target area is adjusted in advance, and the network combination is adjusted according to the adjusted total score.
In some embodiments of the present application, the wireless network real-time information includes a bandwidth, and in step S13, the bandwidth upper limit value of each target area is compared with the bandwidth requirement value used by the user in the target area; selecting a preferred target area from the sorted target areas according to a comparison result; and determining a network combination according to the preferred target area and the used target network transmission channel. The bandwidth of each target area is accumulated and then compared with the specific requirement of the user using the bandwidth in the target area, and the bandwidth surplus condition of the target area is judged according to the comparison result, namely whether the bandwidth is sufficient or not, so that the optimal target area and the optimal target network transmission channel which are added into the network combination are selected according to the comparison result.
Specifically, whether the difference between the bandwidth upper limit value of each target area and the bandwidth demand value used by the user in the target area is greater than a bandwidth threshold value is judged; if so, selecting the most-front ordered target area in the ordered target areas as the preferred target area; and if not, selecting the rear appointed number of target areas in the sorted target areas as the preferred target areas according to the appointed number. When the upper limit value of the bandwidth of the target area is far higher than the value required by the user, the bandwidth of the target area is enough, the target area (such as a cell) is selected to be carefully selected, and if the bandwidth is not much used, the target area with the top ranking is selected from the target areas meeting the condition of enough bandwidth according to the ranking condition of the total score, for example, the first ranking target area or the two top ranking target areas are selected; if the bandwidth is not enough, adding the target area with lower score can be properly considered, because the network transmission channel cannot be loaded after the target area with higher score is added, and considering the resource, adding one or more of the later total scores into the network combination, such as selecting the last one or the last two to be added into the network combination. When network combination is carried out, a target network transmission channel is required to be selected, for example, the target network transmission channel has 4 modules, and if only 1 module is normally registered, only the normal module can be selected to be added into the network combination; if 2 are normal registered networks, selecting one or two of the networks according to the wireless network real-time information of the target area added into the network combination for data transmission, wherein the selected number and the specific number are determined by the wireless network real-time information; if 3 are normal registered networks, selecting 1 or 2 or 3 or 4 for data transmission according to the wireless network real-time information of the target area added into the network combination, and similarly, if 4 are normal registered networks, selecting 1 or 2 or 3 or 4 for data transmission. In a specific embodiment, the bandwidth of each target area has a fixed upper limit, such as 20MHz, that is, a maximum rate upper limit, and if a user in the target area sees a low-definition video, the requirement on the bandwidth is not high, and only a selected target area (module or route) can be used to surf the internet, so as to ensure delay and rate; if the user needs to watch ultra-high definition video, such as 4K, 8K movies, the bandwidth is not necessarily enough, and the target area (module or route) needs to be increased appropriately.
In some embodiments of the present application, in step S12, a grade division is performed according to physical layer parameters obtained when each target area uses the target network transmission channel, and a score corresponding to each parameter is calculated according to the grade division, where the physical layer parameters include RSRP, RSRQ, SINR, CQI, bandwidth, and parameters of a service process. When the wireless network state of the target area is judged, the physical layer parameters including RSRP, SINR, CQI of the target area, bandwidth of the target area and parameters in a service process including mcs, bler and harq are classified into grades, so that the grades corresponding to each parameter are determined by the grade classification, for example, 5 grades are set, the first grade is 100 grades, the second grade is 80 grades, the third grade is 60 grades, the fourth grade is 40 grades, and the fifth grade is 20 grades. Specifically, the value of RSRP is divided into five levels from-44 to-140: -45 to-70, -71 to-90, -91 to-100, -101 to-110, -111 to-140, the weight of the parameter being set to 20%; the value of RSRQ is divided into 5 grades from-3 to-19.5: -3 to-7, -8 to-10, -11 to-13, -14 to-16, -17 to-19.5, the weight of the parameter being set to 10%; the SINR value is divided into 5 grades from-10 to 40: 40-30, 29-25, 24-16, 15-11, 10-10, wherein the weight of the parameter is set to be 25%; the CQI value is divided into 5 grades from 1 to 15: 15-14, 13-11, 10-8, 7-5, 4-1, wherein the setting weight of the parameter is 15%; the bandwidth is also divided into 5 levels: 20M, 15M, 10M, 5M, (3M, 1.4M), and the weight corresponding to the bandwidth is set to be 5%; mcs, bler and harq in the business process are associated, mcs is lower as the number of bler and harq is larger, wherein bler is usually 0% -8%, and the set level is: 0% -1% is equal, 1% -3% is equal, 3% -5% is equal, 5% -8% is equal, more than 8% is five, and the weight corresponding to the parameter is set to be 5%; harq may be 0% to 100%, 0% to 3% first grade, 3% to 6% second grade, 6% to 10% third grade, 10% to 15% fourth grade, more than 15% fifth grade, etc., and the weight corresponding to the parameter is set to 10%; the msc is usually between 0 and 28, first class 28 to 23, second class 22 to 17, third class 16 to 13, fourth class 12 to 10, fifth class below 9, and the like, and the weight corresponding to the parameter is set to 10%.
In addition, a computer readable medium is provided in an embodiment of the present application, and computer readable instructions are stored thereon, and the computer readable instructions are executable by a processor to implement the foregoing method for configuring a route based on wireless network real-time information.
In correspondence with the method described above, the present application also provides a terminal, which includes modules or units capable of executing the steps of the method described in fig. 1 or each embodiment, and these modules or units can be implemented by hardware, software or a combination of hardware and software, and this application is not limited thereto. For example, in an embodiment of the present application, there is also provided an apparatus for configuring a route based on wireless network real-time information, the apparatus including:
one or more processors; and
a memory storing computer readable instructions that, when executed, cause the processor to perform the operations of the method as previously described.
For example, the computer readable instructions, when executed, cause the one or more processors to:
determining a plurality of target areas and network transmission channels used by each target area under the measurement of the same terminal, and selecting a target network transmission channel from the network transmission channels used by each target area according to the registered network state;
determining the wireless network real-time information of each target area according to the physical layer parameters and the corresponding weight obtained when each target area uses the target network transmission channel;
and performing network combination based on the wireless network real-time information of each target area to complete routing configuration.
Fig. 2 is a schematic structural diagram illustrating an apparatus for configuring a route based on wireless network real-time information according to another aspect of the present application, where the apparatus includes: the system comprises a determining device 11, a calculating device 12 and a routing device 13, wherein the determining device 11 is used for determining a plurality of target areas and network transmission channels used by each target area under the measurement of the same terminal, and selecting a target network transmission channel from the network transmission channels used by each target area according to the registered network state; the computing device 12 is configured to determine real-time wireless network information of each target area according to the physical layer parameters and the corresponding weight obtained when each target area uses the target network transmission channel; the routing device 13 is configured to perform network combination based on the wireless network real-time information of each target area to complete routing configuration.
It should be noted that the content executed by the determining device 11, the calculating device 12 and the routing device 13 is the same as or corresponding to the content in the above steps S11, S12 and S13, respectively, and for brevity, the description thereof is omitted here.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.
It should be noted that the present application may be implemented in software and/or a combination of software and hardware, for example, implemented using Application Specific Integrated Circuits (ASICs), general purpose computers or any other similar hardware devices. In one embodiment, the software programs of the present application may be executed by a processor to implement the steps or functions described above. Likewise, the software programs (including associated data structures) of the present application may be stored in a computer readable recording medium, such as RAM memory, magnetic or optical drive or diskette and the like. Additionally, some of the steps or functions of the present application may be implemented in hardware, for example, as circuitry that cooperates with the processor to perform various steps or functions.
In addition, some of the present application may be implemented as a computer program product, such as computer program instructions, which when executed by a computer, may invoke or provide methods and/or techniques in accordance with the present application through the operation of the computer. Program instructions which invoke the methods of the present application may be stored on a fixed or removable recording medium and/or transmitted via a data stream on a broadcast or other signal-bearing medium and/or stored within a working memory of a computer device operating in accordance with the program instructions. An embodiment according to the present application comprises an apparatus comprising a memory for storing computer program instructions and a processor for executing the program instructions, wherein the computer program instructions, when executed by the processor, trigger the apparatus to perform a method and/or a solution according to the aforementioned embodiments of the present application.
It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the apparatus claims may also be implemented by one unit or means in software or hardware. The terms first, second, etc. are used to denote names, but not any particular order.
Claims (10)
1. A method for configuring a route based on wireless network real-time information, the method comprising:
determining a plurality of target areas and network transmission channels used by each target area under the measurement of the same terminal, and selecting a target network transmission channel from the network transmission channels used by each target area according to the registered network state;
determining the wireless network real-time information of each target area according to the physical layer parameters and the corresponding weight obtained when each target area uses the target network transmission channel;
and performing network combination based on the wireless network real-time information of each target area to complete routing configuration.
2. The method according to claim 1, characterized in that it comprises:
storing the wireless network real-time information of each target area and generating a linear graph;
pre-judging information change between a terminal and a base station corresponding to each target area according to the linear graph, wherein the information change comprises distance change and azimuth change;
adjusting the network combination based on the information change.
3. The method of claim 1, wherein determining the real-time wireless network information of each target area according to the physical layer parameters and the corresponding weight obtained when each target area uses the target network transmission channel comprises:
calculating a score corresponding to each parameter according to the physical layer parameters obtained when each target area uses the target network transmission channel;
and determining the wireless network real-time information of each target area according to the score corresponding to each parameter and the corresponding weight.
4. A method according to claim 1 or 3, wherein the real-time information of the wireless network comprises a total score, the method comprising:
and sequencing all the target areas according to the total score of each target area, and when the scores of the wireless networks are the same, sequencing according to the score corresponding to each physical layer parameter to obtain the sequenced target areas.
5. The method of claim 4, wherein the wireless network real-time information comprises a bandwidth, and wherein the network combining based on the wireless network real-time information of each target area comprises:
comparing the bandwidth upper limit value of each target area with the bandwidth demand value used by the user in the target area;
selecting a preferred target area from the sorted target areas according to a comparison result;
and determining a network combination according to the preferred target area and the used target network transmission channel.
6. The method of claim 5, wherein selecting a preferred target area according to the score of the wireless network for each target area based on the comparison comprises:
judging whether the difference value between the bandwidth upper limit value of each target area and the bandwidth requirement value used by the user in the target area is greater than a bandwidth threshold value or not;
if so, selecting the most-front ordered target area in the ordered target areas as the preferred target area;
and if not, selecting the rear appointed number of target areas in the sorted target areas as the preferred target areas according to the appointed number.
7. The method of claim 3, wherein calculating a score corresponding to each parameter according to the physical layer parameters obtained when each target area uses the target network transmission channel comprises:
and carrying out grade division according to physical layer parameters obtained when each target area uses the target network transmission channel, and calculating a score corresponding to each parameter according to the grade division, wherein the physical layer parameters comprise RSRP, RSRQ, SINR, CQI, bandwidth and parameters of a service process.
8. An apparatus for configuring routing based on wireless network real-time information, the apparatus comprising:
the device comprises a determining device and a judging device, wherein the determining device is used for determining a plurality of target areas and network transmission channels used by each target area under the measurement of the same terminal, and selecting a target network transmission channel from the network transmission channels used by each target area according to the registered network state;
the computing device is used for determining the wireless network real-time information of each target area according to the physical layer parameters and the corresponding weight obtained when each target area uses the target network transmission channel;
and the routing device is used for carrying out network combination based on the wireless network real-time information of each target area so as to complete routing configuration.
9. An apparatus for configuring routing based on wireless network real-time information, the apparatus comprising:
one or more processors; and
a memory storing computer readable instructions that, when executed, cause the processor to perform the operations of the method of any of claims 1 to 7.
10. A computer readable medium having computer readable instructions stored thereon which are executable by a processor to implement the method of any one of claims 1 to 7.
Priority Applications (1)
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| CN114339833B (en) | 2023-10-03 |
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