CN110784900B - Operator network service autonomous supervision switching system - Google Patents
Operator network service autonomous supervision switching system Download PDFInfo
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- CN110784900B CN110784900B CN201910977990.7A CN201910977990A CN110784900B CN 110784900 B CN110784900 B CN 110784900B CN 201910977990 A CN201910977990 A CN 201910977990A CN 110784900 B CN110784900 B CN 110784900B
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Abstract
The invention discloses an operator network service autonomous supervision and switching system, and relates to the technical field of network services. The system comprises an operator module, a data acquisition unit, a distance acquisition unit, a selection analysis unit, a processor, a display unit, a storage unit, a parameter correction unit and a network switching module. The method comprises the steps that related data of a plurality of service providers are obtained through a data obtaining unit, the related data are mainly obtained according to network speed, the network speed is analyzed according to corresponding rules and algorithms, meanwhile, the distance from a base station corresponding to the operator closest to current equipment is obtained through combination of a base station positioning technology, then, a plurality of influence factors are combined, and the data capable of reflecting the current network situation are obtained through calculation of the algorithm, namely, the data are available values of network states; then according to the available value of the network state, selecting the most suitable network operator to realize the benefit of selecting the most suitable operator for the user; the invention is simple, effective and easy to use.
Description
Technical Field
The invention belongs to the technical field of network services, and particularly relates to an operator network service autonomous supervision and switching system.
Background
Chinese patent publication No. CN107659925A discloses a method for adaptively scheduling multiple operator subscription networks, which measures and calculates a network environment where a terminal device is located based on the processing capability of a radio frequency module of the terminal device, dynamically adjusts working parameters affecting radio frequency resource scheduling in multiple operator subscriptions through an algorithm of a preset classification scene, and can realize dynamic closing and opening of multiple operator subscription networks, and simultaneously can reduce the power consumption of a terminal, thereby achieving enhancement of the satisfaction of a user on the network service quality and the terminal quality of multiple operators. The invention also provides a terminal device with a core scheduling module for multiple operators, wherein the core scheduling module can perform adaptive scheduling on the subscribed networks of multiple operators.
But the network service of the operator is not properly monitored, and the operator of the terminal is not selected to be replaced in time on the basis of monitoring the network service of the operator; in order to solve the technical drawbacks described above, a solution is now provided.
Disclosure of Invention
The invention aims to provide an operator network service autonomous supervision and switching system, which can be used for analyzing and calculating the network state availability according to a preset algorithm through the cooperative work of an operator module, a data acquisition unit, a distance acquisition unit, a selection analysis unit, a processor, a display unit, a storage unit, a parameter correction unit and a network switching module, and switching the operator network service in time, thereby solving the problems in the background technology.
In order to solve the technical problems, the invention is realized by the following technical scheme:
the invention relates to an operator network service autonomous supervision and switching system, which comprises an operator module, a data acquisition unit, a distance acquisition unit, a selection analysis unit, a processor, a display unit, a storage unit, a parameter correction unit and a network switching module, wherein the operator module is used for acquiring a network service parameter; the operator module comprises a plurality of operator network information; the network switching module comprises a plurality of network switching devices which are in one-to-one correspondence with the operator network; the data acquisition unit acquires the network speed parameter of the operator in use at intervals of T1, and marks the operator in use and the network speed parameter corresponding to the operator in use as an operator S and a practical network speed parameter Vsj respectively; the data acquisition unit respectively acquires the receiving speed parameters of other operator networks except the operator S at intervals of T1, and marks the other operator networks and the corresponding receiving network speed parameters as an operator Yi and a receiving network speed parameter Vyij; the distance acquisition unit acquires a distance Ds from the operator base station being used, and acquires a distance Dyi from each operator Yi base station; the selection analysis unit calls p times of practical network speed parameters Vsj in the data acquisition unit, receiving network speed parameters Vyij corresponding to each operator Yi, and distances Ds and Dyi in the distance acquisition unit, and performs network state availability analysis calculation on the called data according to a preset algorithm; the processor selects to switch the operator network through the network switching module according to the analysis and calculation result of the selection analysis unit; wherein, i is 1, 2, 3, …, n, j is 1, 2, 3, …, m, n, m, p are integers; and p is less than or equal to m, and the operator selection of the terminal is switched in time on the basis of monitoring the network service of the operator.
Further, the method for the selection analysis unit to perform network state availability analysis and calculation according to the preset algorithm comprises the following steps:
s001: calculating the mean value Vs and the standard deviation Bs of the practical network speed parameters of the operator S for nearly p times, wherein the mean value isStandard deviation of
S002: the network status availability value Qs of the operator S is calculated from the mean value Vs, the standard deviation Bs, the distance Ds, wherein,
s003: when the available value Qs of the operator S is less than M1, the selection analysis unit respectively calculates a mean value Vyi and a standard deviation Byi of the received network speed parameters of each operator Yi according to the received network speed parameters Vyij and the distance Dyi corresponding to each operator Yi in the last p times, wherein the mean valuesStandard deviation of
S0031: and respectively calculating the network state available value Qyi of the operator Yi according to the mean value Vyi, the standard deviation Byi and the distance Dyi, wherein,
s004: analyzing and comparing the size relationship between Qyi and Qs, sequencing Qyi, and transmitting the analysis and sequencing results to a processor; the processor selects to switch the operator network according to the results of the analysis and the sequencing of the selection analysis unit, thereby reducing the probability that the network speed of the used operator network cannot meet the actual requirements of the user.
Further, the method for the processor to select and switch the operator network through the network switching module according to the result analyzed and calculated by the selection analysis unit comprises the following steps:
when Qs ≧ M1 and Qyi ≦ Qs, continue using the current operator S;
and when Qyi is larger than Qs, selecting to switch the operator network corresponding to the maximum value in Qyi.
Further, the display unit is configured to display a sequence corresponding to the operator S and the network status available value Qs thereof, the operator Yi and the network status available value Qyi thereof.
Further, the parameter modification unit is used for setting and modifying parameters T1, p, alpha and M1.
Further, the storage unit is used for storing the operator S and the practical network speed parameter Vsj, the operator Yi and the receiving network speed parameter Vyij, the distances Ds, Dyi, the operator S and the network state available value Qs thereof, and the operator Yi and the network state available value Qyi thereof in real time, so that the management and query of data are facilitated.
The invention has the following beneficial effects:
the method comprises the steps that related data of a plurality of service providers are obtained through a data obtaining unit, the related data are mainly obtained according to network speed, the network speed is analyzed according to corresponding rules and algorithms, meanwhile, the distance from a base station corresponding to the operator closest to current equipment is obtained through combination of a base station positioning technology, then, a plurality of influence factors are combined, and the data capable of reflecting the current network situation are obtained through calculation of the algorithm, namely, the data are available values of network states; then according to the available value of the network state, selecting the most suitable network operator to realize the benefit of selecting the most suitable operator for the user; the invention is simple, effective and easy to use.
Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 is a schematic structural diagram of an autonomous supervision and switching system for operator network services according to the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, the present invention is an autonomous monitoring and switching system for operator network services, including an operator module, a data obtaining unit, a distance obtaining unit, a selection analyzing unit, a processor, a display unit, a storage unit, a parameter correcting unit, and a network switching module; the operator module comprises a plurality of operator network information; the network switching module comprises a plurality of network switching devices which correspond to the operator networks one by one; the data acquisition unit acquires the network speed parameter of the operator in use at intervals of T1, and marks the operator in use and the corresponding network speed parameter as the operator S and the practical network speed parameter Vsj respectively; the data acquisition unit respectively acquires the receiving speed parameters of other operator networks except the operator S at intervals of T1, and respectively marks the other operator networks and the corresponding receiving network speed parameters as an operator Yi and a receiving network speed parameter Vyij; the distance acquisition unit acquires a distance Ds from the operator base station being used, and acquires a distance Dyi from each operator Yi base station; the selection analysis unit calls p times of practical network speed parameters Vsj in the data acquisition unit, receiving network speed parameters Vyij corresponding to each operator Yi, and distances Ds and Dyi in the distance acquisition unit, and performs network state availability analysis calculation on the called data according to a preset algorithm; the processor selects to switch the operator network through the network switching module according to the analysis and calculation result of the selection analysis unit; wherein, i is 1, 2, 3, …, n, j is 1, 2, 3, …, m, n, m, p are integers; p ≦ m.
Preferably, the method for analyzing and calculating the network state availability by the selection analysis unit according to the preset algorithm comprises the following steps:
s001: calculating the mean value Vs and the standard deviation Bs of the practical network speed parameters of the operator S for nearly p times, wherein the mean value isStandard deviation of
S002: the network status availability value Qs of the operator S is calculated from the mean value Vs, the standard deviation Bs, the distance Ds, wherein,
s003: when the available value Qs of the operator S is less than M1, the selection analysis unit respectively calculates a mean value Vyi and a standard deviation Byi of the received network speed parameters of each operator Yi according to the received network speed parameters Vyij and the distance Dyi corresponding to each operator Yi in the last p times, wherein the mean valuesStandard deviation of
S0031: and respectively calculating the network state available value Qyi of the operator Yi according to the mean value Vyi, the standard deviation Byi and the distance Dyi, wherein,
s004: analyzing and comparing the size relationship between Qyi and Qs, sequencing Qyi, and transmitting the analysis and sequencing results to a processor;
the processor selects to switch the operator network according to the results of the analysis and the sequencing of the selection analysis unit.
Preferably, the method for the processor to select and switch the operator network through the network switching module according to the result analyzed and calculated by the selection analysis unit comprises the following steps:
when Qs ≧ M1 and Qyi ≦ Qs, continue using the current operator S;
and when Qyi is larger than Qs, selecting to switch the operator network corresponding to the maximum value in Qyi.
Preferably, the display unit is configured to display the operator S and the corresponding ranking of the network status available value Qs thereof, the operator Yi and the network status available value Qyi thereof.
Preferably, the parameter correction unit is used for setting and modifying the parameters T1, p, alpha and M1.
Preferably, the storage unit is configured to store the operator S and the practical network speed parameter Vsj, the operator Yi and the receiving network speed parameter Vyij, the distances Ds, Dyi, the operator S and the network status available value Qs thereof, and the operator Yi and the network status available value Qyi thereof in real time.
An operator network service autonomous supervision switching system acquires relevant data of a plurality of operators providing services through a data acquisition unit, mainly acquires network speed, analyzes the network speed according to corresponding rules and algorithms, simultaneously acquires the distance from a base station corresponding to the nearest operator of current equipment by combining a base station positioning technology, then combines a plurality of influence factors, and calculates data capable of reflecting the current network condition by using the algorithm, namely the data is a network state available value; then according to the available value of the network state, selecting the most suitable network operator to realize the benefit of selecting the most suitable operator for the user; the invention is simple, effective and easy to use.
In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.
Claims (5)
1. An operator network service autonomous supervision and switching system is characterized by comprising an operator module, a data acquisition unit, a distance acquisition unit, a selection analysis unit, a processor, a display unit, a storage unit, a parameter correction unit and a network switching module;
the operator module comprises a plurality of operator network information;
the network switching module comprises a plurality of network switching devices which are in one-to-one correspondence with the operator network;
the data acquisition unit acquires the network speed parameter of the operator in use at intervals of T1, and marks the operator in use and the network speed parameter corresponding to the operator in use as an operator S and a practical network speed parameter Vsj respectively;
the data acquisition unit respectively acquires the receiving speed parameters of other operator networks except the operator S at intervals of T1, and marks the other operator networks and the corresponding receiving network speed parameters as an operator Yi and a receiving network speed parameter Vyij;
the distance acquisition unit acquires a distance Ds from the operator base station being used, and acquires a distance Dyi from each operator Yi base station;
the selection analysis unit calls p times of practical network speed parameters Vsj in the data acquisition unit, receiving network speed parameters Vyij corresponding to each operator Yi, and distances Ds and Dyi in the distance acquisition unit, and performs network state availability analysis calculation on the called data according to a preset algorithm; the method for the selection analysis unit to analyze and calculate the network state availability according to the preset algorithm comprises the following steps:
s001: calculating the mean value Vs and the standard deviation Bs of the practical network speed parameters of the operator S for nearly p times, wherein the mean value isStandard deviation of
S002: the network status availability value Qs of the operator S is calculated from the mean value Vs, the standard deviation Bs, the distance Ds, wherein,
s003: when the available value Qs of the operator S is less than M1, the selection analysis unit respectively calculates a mean value Vyi and a standard deviation Byi of the received network speed parameters of each operator Yi according to the received network speed parameters Vyij and the distance Dyi corresponding to each operator Yi in the last p times, wherein the mean valuesStandard deviation of
S0031: and respectively calculating the network state available value Qyi of the operator Yi according to the mean value Vyi, the standard deviation Byi and the distance Dyi, wherein,alpha is a reference value preset by a user;
s004: analyzing and comparing the size relationship between Qyi and Qs, sequencing Qyi, and transmitting the analysis and sequencing results to a processor;
the processor selects to switch the operator network according to the analysis and sequencing results of the selection analysis unit;
the processor selects to switch the operator network through the network switching module according to the analysis and calculation result of the selection analysis unit;
wherein, i is 1, 2, 3, …, n, j is 1, 2, 3, …, m, n, m, p are integers; p ≦ m.
2. The system of claim 1, wherein the method for the processor to select and switch the operator network via the network switching module according to the result analyzed and calculated by the selection analysis unit comprises:
when Qs ≧ M1 and Qyi ≦ Qs, continue using the current operator S;
and when Qyi is larger than Qs, selecting to switch the operator network corresponding to the maximum value in Qyi.
3. The system according to claim 1, wherein the display unit is configured to display a sequence corresponding to the operator S and its available network status value Qs, the operator Yi and its available network status value Qyi.
4. The system of claim 1, wherein the parameter modification unit is used for setting and modifying parameters T1, p, α, M1.
5. The operator network service autonomous supervision switching system according to claim 1, wherein said storage unit is configured to store in real time the operator S and the practical network speed parameter Vsj, the operator Yi and the receiving network speed parameter Vyij, the distance Ds, Dyi, the operator S and its network status available value Qs, the operator Yi and its network status available value Qyi.
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