CN118338327A - QoS architecture management system based on wireless communication and working method thereof - Google Patents

Abstract

The invention discloses a QoS architecture management system based on wireless communication and a working method thereof, and relates to the technical field of QoS architecture management. Comprising the following steps: the acquisition module is used for: acquiring the demand data of the carrier based on an acquisition method and acquiring storage resources; and a matching module: the method comprises the steps of creating a data matching model for outputting corresponding communication rules according to demand data, extracting identification features of storage resources, and classifying the storage resources into a classified resource table taking the demand data as a standard according to the identification features; the processing module is used for: and extracting a demand characteristic set of the demand data, and matching communication rule updating corresponding to the demand characteristic set with the communication rule between the carrier from the data matching model. The invention can establish different communication rules according to different carriers, can rapidly extract the required data resources of the carriers from the previously established classified resource table according to the established communication rules and the data matching model, and has faster data transmission effect.

Description

QoS architecture management system based on wireless communication and working method thereof

Technical Field

The invention relates to the technical field of QoS architecture management, in particular to a QoS architecture management system based on wireless communication and a working method thereof.

Background

QoS architecture management is a system for managing network service quality, through classifying, scheduling, controlling and distributing resources to network traffic, management and optimization of network service quality are realized, transmission can be performed based on a plurality of different technologies, proper technologies are selected according to specific application scenes and requirements, deployment and implementation are performed, including wired network technologies, wireless network technologies, internet technologies and the like, wherein the wireless network technologies include Ethernet, optical fiber networks and the like, the wireless network technologies include wifi, bluetooth and the like, the wireless communication technologies are technologies for transmitting information in air through radio waves, transmission and reception of data information in the air can be realized, the wireless communication technologies can also be applied to a front end experience system of wireless short-distance communication of holographic scenes, the front end experience system of wireless short-distance communication of holographic scenes is an interactive system combining the holographic technologies and the wireless short-distance communication technologies, a user can see virtual images and information through holographic projection, and interact with the virtual information through the wireless short-distance communication technologies, and the principle also relates to the system of network service quality, namely QoS architecture management.

The method and the system for guaranteeing the service QoS under the base station straight-through architecture with the patent publication number of CN108076487A can solve the problem that the prior art cannot guarantee the service QoS. The method comprises the following steps: the straight-through controller acquires the QoS strategy and sends the QoS strategy to the forwarding equipment; the forwarding equipment receives a service message sent by a base station; according to the classification rule of the service message, checking QoS information of the service message, and completing classification of the service message; identifying priorities for different kinds of service messages according to priority rules; sending a destination base station address and a source base station address of the service message to the direct connection controller; the direct connection controller generates a first forwarding path of the service message according to the destination base station address and the source base station address of the service message, and sends the first forwarding path to forwarding equipment; and the forwarding equipment sequentially sends the service messages according to the first forwarding path and the priority order.

In the actual working process, the above and similar technical schemes are various in traffic types, such as real traffic, video traffic, data traffic and the like, and various carriers for data connection are also available, and the connection modes between the carriers are also different, when the carriers are interconnected, different communication channels are required to be established according to different carriers and the requirements of different carriers, and when the carriers are connected and transmit data, the communication channels are established at a slower speed due to different required data, delay is higher, channel resources are wasted due to the fact that no data transmission exists between the communication channels and the carriers, and the speed of transmitting data cannot be optimally adjusted according to the specific ratio requirements, so that the technical requirements of low delay, high reliability, precise synchronization and multiple concurrency cannot be realized.

Disclosure of Invention

The present invention is directed to a QoS architecture management system based on wireless communication and a working method thereof, so as to solve the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: a QoS architecture management system based on wireless communication and a working method thereof, comprising:

the acquisition module is used for: acquiring the demand data of the carrier based on an acquisition method and acquiring storage resources;

And a matching module: creating a data matching model for outputting corresponding communication rules according to the demand data, extracting identification features of the storage resources based on a first extraction method, and classifying the storage resources into a classified resource table taking the demand data as a standard according to the identification features;

The processing module is used for: when the carrier is used for issuing the demand data, a demand feature set of the demand data is extracted based on a second extraction method, the demand feature set corresponds to at least one type of flow demand, and a communication rule corresponding to the demand feature set is matched from a data matching model to update a communication rule between the carrier and the carrier;

the output module is used for matching the classified resource table based on the demand feature set and transmitting the flow of the corresponding storage resources in the classified resource table through the communication rule between the storage resources and the carrier;

The method for creating the data matching model comprises the following steps:

Step one: acquiring the quantity of available connection resources between the network and the carrier;

Step two: the occupancy rate of different types of traffic to the amount of the connection resources is obtained;

step three: acquiring different types of flow combination data;

Step four: based on the combined data and according to the occupancy rate proportion of different types of traffic, the available connection resource quantity is distributed to obtain a communication rule;

Further, the method for acquiring the occupancy rate includes:

s1: acquiring training data based on big data, wherein the training data comprises a single data packet, and each data packet comprises different types of flow data;

s2: acquiring the data volume duty ratio of different types of flow data in each data packet, and obtaining a plurality of duty ratio information;

s3: the method comprises the steps of integrating a plurality of duty ratio information to output the whole duty ratio information of different types of traffic;

S4: the overall duty ratio information comprises the statistical duty ratios of different types of flow, and the output statistical duty ratio is the duty ratio.

Further, the carrier stores therein type identification data and hardware information data, and the acquiring method includes:

n1: acquiring demand data corresponding to the hardware information according to the hardware information data;

n2: establishing an identification database storing type identification data and demand data;

and N3: and acquiring type identification data of the target carrier, and acquiring demand data of the target carrier through data query.

Furthermore, the hardware information data comprises interactive hardware data and basic hardware data, wherein the interactive hardware in the interactive hardware data can input or output execution data, and a plurality of execution data jointly form the demand data.

Still further, the first extraction method includes:

m1: acquiring storage resources and identifying basic characteristics of the storage resources;

m2: acquiring demand data, and generating a demand feature set according to the demand data;

m3: feature matching, namely matching basic features according to a demand feature set to obtain a matching result;

M4: and generating a classified resource table, and generating a classified resource table according to the matching result to store the storage resources matched with the demand characteristic set.

Still further, the second extraction method includes: the method comprises the steps of obtaining demand data, splitting data items of the demand data to obtain splitting results, analyzing data types of different data items according to the splitting results, obtaining data types of all the data items to obtain the data types of the whole demand data uniformly as a demand characteristic set, wherein the different data types correspond to different flow demands.

Still further, the updating method includes: when the carrier issues the demand data, judging whether the current communication rule meets the demand feature set or not through a judging method, and if the current communication rule does not meet the demand feature set, searching the communication rule which is most matched with the demand feature set based on the communication rule in the data matching model.

Still further, the judging method includes:

p1: extracting a communication rule, namely extracting the communication rule of the demand data in the demand feature set;

P2: rule judgment, namely judging whether the communication rule of the flow demand in the demand feature set is embodied in the current communication rule or not;

P3: and updating the communication rule, wherein if the communication rule of the flow demand is not embodied in the current communication rule, the corresponding communication rule is updated in the data matching model based on the type of the flow demand.

Furthermore, the judging method further comprises judging the communication quality, in the step P2, if the communication rule of the flow demand is embodied in the current communication rule, whether the communication quality meets the requirement of the demand feature set is further judged, and if the communication quality does not meet the requirement, the current communication rule proportion is optimized.

Further, the working method of the QoS architecture management system based on wireless communication uses the QoS architecture management system based on wireless communication, which comprises the steps of installing the QoS architecture management system based on wireless communication in different carriers, and carrying out traffic mutual transmission among the carriers through the QoS architecture management system based on wireless communication.

Compared with the prior art, the invention has the beneficial effects that:

According to the QoS architecture management system based on wireless communication and the working method thereof, different communication rules can be established according to different carriers through the data matching model, pertinence is high, and because different communication rules correspondingly transmit different resources, required data resources of the carriers can be rapidly extracted from a classification resource table established in advance according to the established communication rules and according to the data matching model, data transmission effects are faster, and because different carriers have different required data, the default communication rules can be rapidly pre-created according to the type identification data and the hardware information data of the carriers according to the data matching model, and then the established communication rules are updated and optimized according to the flow requirements in the specific required data of the carriers, so that the maximum transmission of the data is ensured, and the effects of low time delay, high reliability, precise synchronization and multiple concurrencies are realized.

Meanwhile, when different communication rules are created, based on different flow demands in a demand feature set of the extracted demand data, according to the types of the flow demands and the occupancy rate of the different types of the flow demands on the connection resource amount, the combination of the different types of the flow is obtained, and then the occupancy rate proportion of the different types of the flow is obtained, so that the communication rules among the carriers are adjusted according to the occupancy rate proportion, the optimal distribution of the connection resource amount among the carriers can be realized, and the data transmission among the carriers is more efficient and stable.

Moreover, because the demand data in the demand feature set contains different quantity and at least one flow demand, the same quantity of communication rules are established according to the quantity of the flow demands, when the communication rules of the carrier have the missing in the currently connected communication rules, the corresponding communication rules are updated from the data matching model according to the flow demands corresponding to the missing communication rules, and the corresponding communication rules are established in the connection of the current carrier, so that the quick supplement adjustment of the communication rules can be realized, and the optimized transmission of the data is facilitated.

Drawings

FIG. 1 is a schematic diagram of the overall flow structure of the present invention;

FIG. 2 is a schematic diagram of a carrier connection flow structure according to the present invention;

FIG. 3 is a schematic flow chart of a method for acquiring demand data according to the present invention;

FIG. 4 is a schematic diagram of a communication rule update flow structure according to the present invention;

FIG. 5 is a schematic flow diagram illustrating a flow demand extraction process according to the present invention;

fig. 6 is a schematic diagram of a data matching model building flow structure according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

When data transmission is carried out, the QoS architecture management system is limited in coverage area of a wired network, wiring cost is high, flexibility is poor, the wireless network is affected by interference and signal attenuation, transmission speed is possibly unstable, safety is relatively low, transmission distance of the wireless network is limited, for example, bluetooth transmission is limited, if no large obstacle exists in the middle, transmission quality is good within 7 meters, break points occur in excess of 8 meters, connection is lost between Bluetooth devices of more than 10 meters, wifi transmission is also limited by distance, when the Internet technology is used for transmitting data, due to the problems of network delay, congestion and the like, stability and instantaneity of the data transmission can be affected, further, the high efficiency and stability of the QoS architecture management system can be affected, traffic which may be needed can not be subjected to pre-index allocation in a targeted manner, real-time communication is carried out through virtual holographic images, holographic images of the other parties are seen in virtual space, more immersive communication experience is achieved, the situation of carriers can exist in the mode, the problem can be solved, the problem can be met, the wireless architecture management system is based on different in different types, the requirements of the QoS architecture management system can be further optimized, the traffic is more effectively classified, the traffic is different in different requirements, and the requirements are met, and the traffic is more different requirements are different, and the requirements are better based on different requirements are classified, and the requirements are different.

As shown in fig. 1 to 6, the present invention provides a technical solution: a QoS architecture management system based on wireless communication and a working method thereof, comprising: the acquisition module is used for: acquiring the demand data of the carrier based on an acquisition method and acquiring storage resources; and a matching module: creating a data matching model for outputting corresponding communication rules according to the demand data, extracting identification features of the storage resources based on a first extraction method, and classifying the storage resources into a classified resource table taking the demand data as a standard according to the identification features; the processing module is used for: when the carrier is used for issuing the demand data, a demand feature set of the demand data is extracted based on a second extraction method, the demand feature set corresponds to at least one type of flow demand, and a communication rule corresponding to the demand feature set is matched from a data matching model to update a communication rule between the carrier and the carrier; the output module is used for matching the classified resource table based on the demand feature set and transmitting the flow of the corresponding storage resources in the classified resource table through the communication rule between the storage resources and the carrier; the method for creating the data matching model comprises the following steps: step one: acquiring the quantity of available connection resources between the network and the carrier; step two: the occupancy rate of different types of traffic to the amount of the connection resources is obtained; step three: acquiring different types of flow combination data; step four: and based on the combined data and according to the occupancy ratio of different types of traffic, the available connection resource quantity is distributed to obtain a communication rule.

It should be noted that different carriers have different required data, and different carriers may need different data, and the specific required data depends on the type and function of the carrier, for example, a sensor, a smart phone, a cloud server, an internet of things device, and the like, wherein the sensor is generally required to collect environmental data, such as temperature, humidity, illumination, and the like, and communication data with other devices or systems; smartphones may require personal information, location data, address book, calendar, etc. of the user, as well as data and communication data of the application; cloud servers may need to store and process large amounts of data, including user data, application data, log data, and the like: the internet of things equipment may need to collect environment data, sensor data, user data and the like, and communication data with other equipment or systems, and data needed by different carriers may include environment data, user data, communication data, application program data and the like, so that when different carriers are interconnected and transmit demand data, the types of the demand data can be very various, at the moment, the established classified resource table classifies storage resources in the carriers with the storage resources according to different characteristics, and when the carriers are interconnected and generate the demand data, corresponding resources are directly obtained from the corresponding classified resource table according to the types of the demand data.

It should be noted that when the acquiring module acquires the demand data of the carrier, according to the created data matching model, different communication rules can be created according to different demand data, and according to the flow demands in the demand feature set of the extracted demand data, according to the types of the flow demands and the occupation degree of the different types of the flow demands on the connection resource amount, the combination of the different types of the flow is acquired, and further the occupation degree proportion of the different types of the flow is acquired, so that the communication rules between the carriers are adjusted according to the occupation degree proportion, and each flow demand in the demand data can ensure synchronous and maximized transmission when the demand data is transmitted.

When data transmission is carried out, the required data of the carrier can be transmitted in the adjusted communication rule, and all flow requirements in the required data can be transmitted in an equal proportion and maximization mode.

As a specific embodiment, the method for acquiring the occupancy rate includes: s1: acquiring training data based on big data, wherein the training data comprises single data packets, and each data packet comprises different types of flow data; s2: acquiring the data volume duty ratio of different types of flow data in each data packet, and obtaining a plurality of duty ratio information; s3: the method comprises the steps of integrating a plurality of duty ratio information to output the whole duty ratio information of different types of traffic; s4: the overall duty ratio information comprises the statistical duty ratios of different types of flow, and the output statistical duty ratio is the duty ratio.

It should be noted that a large amount of training data can be obtained based on a large data manner, the data packets in the training data comprise various types of traffic data, and the traffic data of different types in the data packets have different duty ratios, and because the volume of the training data is large enough, the data volume duty ratio of the traffic data of different types can be obtained relatively accurately, so that the overall traffic duty ratio information can be obtained, and the duty ratio of the traffic of different types to the connection resource volume can be obtained in this manner, so that the connection resource volume can be allocated according to different traffic demands in the data matching model, and more efficient establishment of the communication rule can be realized.

As a specific embodiment, the carrier stores therein type identification data and hardware information data, and the acquiring method includes: n1: acquiring demand data corresponding to the hardware information according to the hardware information data; n2: establishing an identification database storing type identification data and demand data; and N3: and acquiring type identification data of the target carrier, and acquiring demand data of the target carrier through data query.

It should be noted that, hardware information data corresponding to the carrier and single hardware information data are respectively set in different carriers, and the different hardware information data correspond to different first requirement data, through the set identification database, since a large amount of type identification data and second requirement data corresponding to the type identification data are stored in the identification database, when the type identification data of the target carrier is acquired, the second requirement data corresponding to the type identification data can be queried from the identification database, according to the first requirement data corresponding to the hardware information data and the second requirement data corresponding to the type identification data in the identification database, the two are combined, the accuracy of the acquired requirement data can be further improved, in this way, the requirement data of different carriers can be acquired more accurately, and further more accurate communication rule matching and resource allocation can be realized.

As a specific embodiment, the hardware information data includes interactive hardware data and basic hardware data, and the interactive hardware in the interactive hardware data can input or output execution data, and a plurality of execution data together form demand data.

It should be noted that the basic hardware data corresponds to basic data of the carrier, the interactive hardware data obtains interactive data according to the input or output execution data, and the basic data and the interactive data are combined into first requirement data of the carrier.

As a specific embodiment, the first extraction method includes: m1: acquiring storage resources and identifying basic characteristics of the storage resources; m2: acquiring demand data, and generating a demand feature set according to the demand data; m3: feature matching, namely matching basic features according to a demand feature set to obtain a matching result; m4: and generating a classified resource table, and generating a classified resource table according to the matching result to store the storage resources matched with the demand characteristic set.

It should be noted that, firstly, the number and types of the storage resources in the carrier are obtained, and the identification features of different storage resources are extracted, at this time, a large number of identification feature sets of the storage resources are obtained, and because the types of the demand data change along with the change of the carrier, when the demand feature sets of the demand data are extracted, a plurality of demand features matched with the identification feature sets of the storage resources can be obtained, the demand features are matched with the identification features, the storage resources can be divided into a plurality of classification resource tables according to the corresponding identification features according to the types of the demand features, the corresponding storage resources are stored in the classification resource tables, and when the carrier generates the demand data, the storage resources are obtained from the corresponding classification resource tables directly according to the demand features corresponding to the demand data.

As a specific embodiment, the second extraction method includes: the method comprises the steps of obtaining demand data, splitting data items of the demand data to obtain splitting results, analyzing data types of different data items according to the splitting results, obtaining data types of all the data items to obtain the data types of the whole demand data uniformly as a demand characteristic set, wherein the different data types correspond to different flow demands.

It should be noted that, because the demand data contains at least one flow demand and the demand data is composed of flow demands, when the demand data is split, the type of the flow demand can be judged according to the split result, that is, the data type of the data item, and then the communication rule corresponding to the flow demand is matched from the data matching model according to the type of the flow demand.

As a specific embodiment, the updating method includes: when the carrier issues the demand data, judging whether the current communication rule meets the demand feature set or not through a judging method, and if the current communication rule does not meet the demand feature set, searching the communication rule which is most matched with the demand feature set based on the communication rule in the data matching model.

It should be noted that, when the carriers are interconnected and transmit the demand data, because the carrier is connected, the basic hardware data corresponds to the basic data of the carrier, the interactive hardware data obtains the interactive data according to the input or output execution data, the basic data and the interactive data are combined into the first demand data of the carrier and the first demand data corresponding to the hardware information data and the second demand data corresponding to the type identification data in the identification database, the two are combined into the default demand data of the carrier, the communication rule is established automatically by default, and when the established default communication rule does not meet different flow demand types in the demand feature set, the communication rule which is most matched with different types of flow demands in the demand feature set is searched and established based on the communication rule corresponding to the current carrier in the data matching model.

As a specific embodiment, the judging method includes: p1: extracting a communication rule, namely extracting the communication rule of the demand data in the demand feature set; p2: rule judgment, namely judging whether the communication rule of the flow demand in the demand feature set is embodied in the current communication rule or not; p3: and updating the communication rule, wherein if the communication rule of the flow demand is not embodied in the current communication rule, the corresponding communication rule is updated in the data matching model based on the type of the flow demand.

It should be noted that, because the demand data in the demand feature set contains different amounts and at least one flow demand, the same amount of communication rules are established according to the amounts of the flow demands, when the communication rules of the carrier have a missing in the currently connected communication rules, the corresponding communication rules are updated from the data matching model according to the flow demands corresponding to the missing communication rules, and are established in the connection of the current carrier.

In P2, if the communication rule of the traffic demand is embodied in the current communication rule, further determining whether the communication quality meets the requirement of the demand feature set, and if the communication quality does not meet the requirement, optimizing the current communication rule proportion.

It should be noted that, when the communication rule of the carrier is the same as the communication rule of the current connection, but the quality of the communication, for example, the speed of data transmission is slow, at this time, according to different communication rules, the transmission speed of the data type corresponding to the different communication rules is used as feedback, and the communication rule corresponding to the data type with the slow transmission speed is repeatedly established, so as to improve the speed of data transmission.

As a specific embodiment, the QoS architecture management system based on wireless communication is installed in different carriers, and traffic is mutually transmitted between the carriers through the QoS architecture management system based on wireless communication.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made hereto without departing from the spirit and scope of the invention as defined by the appended embodiments and equivalents thereof.

Claims (10)

1. A QoS architecture management system based on wireless communications, comprising:

the acquisition module is used for: acquiring the demand data of the carrier based on an acquisition method and acquiring storage resources;

And a matching module: creating a data matching model for outputting corresponding communication rules according to the demand data, extracting identification features of the storage resources based on a first extraction method, and classifying the storage resources into a classified resource table taking the demand data as a standard according to the identification features;

the processing module is used for: when the method is used for issuing the demand data by the carrier, a demand feature set of the demand data is extracted based on a second extraction method, the demand feature set corresponds to at least one type of flow demand, and a communication rule between the communication rule update corresponding to the demand feature set and the carrier is matched from a data matching model through an updating method;

the output module is used for matching the classified resource table based on the demand feature set and transmitting the flow of the corresponding storage resources in the classified resource table through the communication rule between the storage resources and the carrier;

The method for creating the data matching model comprises the following steps:

Step one: acquiring the quantity of available connection resources between the network and the carrier;

Step two: the occupancy rate of different types of traffic to the amount of the connection resources is obtained;

step three: acquiring different types of flow combination data;

step four: and based on the combined data and according to the occupancy ratio of different types of traffic, the available connection resource quantity is distributed to obtain a communication rule.

2. A QoS architecture management system based on wireless communication according to claim 1, wherein: the method for acquiring the occupancy rate comprises the following steps:

s1: acquiring training data based on big data, wherein the training data comprises a single data packet, and each data packet comprises different types of flow data;

s2: acquiring the data volume duty ratio of different types of flow data in each data packet, and obtaining a plurality of duty ratio information;

s3: the method comprises the steps of integrating a plurality of duty ratio information to output the whole duty ratio information of different types of traffic;

S4: the overall duty ratio information comprises the statistical duty ratios of different types of flow, and the output statistical duty ratio is the duty ratio.

3. A QoS architecture management system based on wireless communication according to claim 1, wherein: the carrier stores type identification data and hardware information data, and the acquisition method comprises the following steps:

n1: acquiring demand data corresponding to the hardware information according to the hardware information data;

n2: establishing an identification database storing type identification data and demand data;

and N3: and acquiring type identification data of the target carrier, and acquiring demand data of the target carrier through data query.

4. A QoS architecture management system based on wireless communication according to claim 3, characterized in that: the hardware information data comprises interactive hardware data and basic hardware data, wherein interactive hardware in the interactive hardware data can input or output execution data, and a plurality of execution data jointly form demand data.

5. A QoS architecture management system based on wireless communication according to claim 1, wherein: the first extraction method comprises the following steps:

m1: acquiring storage resources and identifying basic characteristics of the storage resources;

m2: acquiring demand data, and generating a demand feature set according to the demand data;

m3: feature matching, namely matching basic features according to a demand feature set to obtain a matching result;

M4: and generating a classified resource table, and generating a classified resource table according to the matching result to store the storage resources matched with the demand characteristic set.

6. A QoS architecture management system based on wireless communication according to claim 1, wherein: the second extraction method comprises the following steps: the method comprises the steps of obtaining demand data, splitting data items of the demand data to obtain splitting results, analyzing data types of different data items according to the splitting results, obtaining data types of all the data items to obtain the data types of the whole demand data uniformly as a demand characteristic set, wherein the different data types correspond to different flow demands.

7. A QoS architecture management system based on wireless communication according to claim 1, wherein: the updating method comprises the following steps: when the carrier issues the demand data, judging whether the current communication rule meets the demand feature set or not through a judging method, and if the current communication rule does not meet the demand feature set, searching the communication rule which is most matched with the demand feature set based on the communication rule in the data matching model.

8. The QoS architecture management system based on wireless communication of claim 7, wherein: the judging method comprises the following steps:

p1: extracting a communication rule, namely extracting the communication rule of the demand data in the demand feature set;

p2: rule judgment, namely judging whether the communication rule of the flow demand in the demand feature set is embodied in the current communication rule or not;

p3: and updating the communication rule, wherein if the communication rule of the flow demand is not embodied in the current communication rule, the corresponding communication rule is updated in the data matching model based on the type of the flow demand.

9. The QoS architecture management system based on wireless communication of claim 8, wherein: the judging method further comprises the step of judging the communication quality, in P2, if the communication rule of the flow demand is embodied in the current communication rule, whether the communication quality meets the requirement of the demand characteristic set is further judged, and if the communication quality does not meet the requirement, the current communication rule proportion is optimized.

10. A method for operating a QoS architecture management system based on wireless communications, characterized in that: use of a QoS architecture management system based on wireless communication according to any of claims 1-9, comprising installing the QoS architecture management system based on wireless communication in different bearers, and traffic being mutually transferred between the bearers through the QoS architecture management system based on wireless communication.