CN104780079B - A kind of flux monitoring method and device of multisystem terminal - Google Patents
A kind of flux monitoring method and device of multisystem terminal Download PDFInfo
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Abstract
The invention discloses a kind of flux monitoring method and device of multisystem terminal, the method may include:Obtain the first flow data that the first system detects;Obtain the second flow data that second system detects;Give the second flow data sharing to the first system;By the first system global traffic data are generated according to the first flow data and the second flow data.Using the present invention, the accuracy that the data traffic of monitoring multisystem terminal uses can be improved.
Description
Technical field
The present invention relates to field of terminal technology more particularly to a kind of flux monitoring methods and device of multisystem terminal.
Background technology
With the development of mobile terminal technology, the mobile terminals such as smart mobile phone, tablet computer are popularized, more and more
User surfed the Internet using mobile terminal, online increasingly recognized by people as a kind of function of high practicability of mobile terminal
It can.It realizes that there are two types of modes for mobile terminal Internet access at present, i.e., is surfed the Internet by WLAN or mobile data two ways, by WLAN
The mode of net do not have to consumption data flow, user without having to worry about because data on flows is more than predetermined set meal flow deduct fees the problem of,
And Internet user just needs to be monitored flow by way of mobile data, in case terminal is more than predetermined set meal using flow
Extra charge is generated when flow.Software market has many softwares that can realize and is monitored to the flow of single-system terminals at present, but
It is the flow service condition for multisystem terminal, the method for monitoring software can not be monitored accurately at present.
Invention content
The embodiment of the present invention provides a kind of flux monitoring method and device of multisystem terminal, can improve monitoring multisystem
The accuracy that the data traffic of terminal uses.
An embodiment of the present invention provides a kind of flux monitoring method of multisystem terminal, the method may include:
Obtain the first flow data that the first system detects;
Obtain the second flow data that second system detects;
Give the second flow data sharing to the first system;
By the first system global traffic number is generated according to the first flow data and the second flow data
According to.
The embodiment of the present invention additionally provides a kind of flow-monitoring device of multisystem terminal, and described device may include:
Acquiring unit, the first flow data detected for obtaining the first system;
The acquiring unit is additionally operable to obtain the second flow data that second system detects;
Shared cell, for giving the second flow data sharing to the first system;
Data generating unit is used for through the first system according to the first flow data and the second flow number
According to generation global traffic data.
Implement the embodiment of the present invention, has the advantages that:
The embodiment of the present invention by the second flow data sharing that detects second system to the first system, and according to
The first flow data and the second flow data that one system detectio arrives generate global traffic data by the first system.
It realizes and multiple systems of terminal is monitored using the global traffic data of flow, improve the data flow of multisystem terminal
Measure the accuracy used.
Description of the drawings
In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below
There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this
Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with
Obtain other attached drawings according to these attached drawings.
Fig. 1 is a kind of flow diagram of the flux monitoring method of multisystem terminal provided in an embodiment of the present invention;
Fig. 2 is a kind of flow diagram of the flux monitoring method for multisystem terminal that another embodiment of the present invention provides;
Fig. 3 is a kind of flow diagram of the flux monitoring method for multisystem terminal that further embodiment of this invention provides;
Fig. 4 is a kind of structural schematic diagram of the flow-monitoring device of multisystem terminal provided in an embodiment of the present invention.
Specific implementation mode
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, those of ordinary skill in the art are obtained every other without creative efforts
Embodiment shall fall within the protection scope of the present invention.
The terminal that the embodiment of the present invention refers to includes but are not limited to smart mobile phone (such as Android phone, iOS mobile phones
Deng), tablet computer, palm PC, mobile internet device (MID, Mobile Internet Devices) or wearable intelligent
The equipment such as equipment.The application scenarios of the embodiment of the present invention can be that the software synchronization monitoring in multisystem terminal in each system is each
Total flow used in a system, above-mentioned the first system is to choose operation by user in the multiple systems of terminal, and by first
For the showing interface that system operation generates in the system at terminal operation interface, above-mentioned second system is in multisystem terminal except described the
Any one system outside one system.
Refering to fig. 1, Fig. 1 is a kind of flow signal of the flux monitoring method of multisystem terminal provided in an embodiment of the present invention
Figure, as shown, the method may include:
S101 obtains the first flow data that the first system detects.
Specifically, the terminal may include multiple systems, for example, a mobile phone can have security system and conventional system
Two systems, above-mentioned the first system are to choose operation, and the boundary that the first system operation is generated by user in the multiple systems of terminal
The system that face is illustrated in terminal operation interface.In existing mobile phone operating system, multiple systems are typically based on the same Linux
The process started in kernel, system and the linux kernel corresponds.For example, in android system, duplication can be passed through
Init processes start multiple systems, and each system of startup is a process in the linux kernel, and with different
Process number plays mark action.The corresponding process of above-mentioned the first system can be with the first flow data of detection terminal.It is described first-class
Amount data can include the summation of flow used in the software installed in the first system, the summation of the above-mentioned flow used
It can be the summation of flow used in the software installed in the first system in preset time period.Above-mentioned the first system it is corresponding into
Journey can read the first flow data from the corresponding data traffic interface of terminal.
S102 obtains the second flow data that second system detects.
The second system is the system in running background in the multiple systems of terminal.The second flow data include described
The summation of the summation for the flow described in software installed in second system, the above-mentioned flow used can be in preset time period
Second system in flow used in the software installed summation.The corresponding process of above-mentioned second system can be answered from terminal-pair
Data traffic interface read the second flow data.The number of second system can be one can also be multiple, in order to
The flow of all system consumptions in multisystem terminal described in enough accurate statistics, the second system includes in the multisystem terminal
All systems in running background.Step S101 and step S102 can be performed simultaneously can also be successively execute, can
Can also be that preset condition triggering executes, such as is instructed when receiving traffic monitoring input by user to be periodical execution
When, execute step S101 and step S102.
S103 gives the second flow data sharing to the first system.
Specifically, can shared drive, send message or pipeline by way of by the second flow data sharing to
The first system.Shared drive specific implementation mode is:Obtain the second that the corresponding process detection of the second system arrives
After measuring data, second data traffic is stored in the shared storage medium of multiple systems, it is described in SIM card, UIM cards
The process for being responsible for shared data in the first system obtains the second flow data from the shared storage medium.Transmission disappears
The specific implementation mode of breath is:The process for being responsible for sending message in the first system is controlled to be responsible for receiving into second system disappearing
The process transmitted traffic data sharing of breath is asked, and the above-mentioned data on flows of process response for being responsible for sending message in second system is shared
Request, and the responsible process for receiving message sends the second flow data into the first system.The specific implementation of pipeline
Mode is:It obtains the second flow number it after second flow data through the pipeline between the first system and second system
According to being transferred to the first system.Three kinds of modes can be achieved by the second flow data sharing to the first system it is corresponding into
Journey.
S104 generates global flow by the first system according to the first flow data and the second flow data
Measure data.
Specifically, be responsible for generating in the first system process of global traffic data according to the first flow data and
The second flow data generate the global traffic data, for example, first data traffic is 80M, the second flow
Data are 30M, then the global traffic data are 110M.
Optionally, the first flow data/second flow data include corresponding at least one flow offer object
Data on flows component part, it is described to be generated entirely according to the first flow data and second flow data by the first system
Office data on flows may include:It is respectively carried at least one flow according to the first flow data and the second flow data
For the corresponding data on flows component part of object, generated respectively by the first system and at least one flow offer pair
As corresponding global traffic data.
Further alternative, the method further includes step 11) and 12):
11), the first flow data sharing is given to the second system.
12) global flow, is generated according to the first flow data and the second flow data by the second system
Measure data.
Step 12) and step S104 are performed simultaneously while can ensureing that the first system generates global traffic, described
Second system also creates the identical global traffic data of numerical value.
In an alternative embodiment, the method further includes the display global traffic data, and described complete
When office's data on flows is higher than flow threshold, alarm prompt is sent out.
The embodiment of the present invention by the second flow data sharing that detects second system to the first system, and according to
The first flow data and the second flow data that one system detectio arrives generate global traffic data by the first system.
It realizes and multiple systems of terminal is monitored using the global traffic data of flow, improve the data flow of multisystem terminal
Measure the accuracy used.
Referring to Fig.2, Fig. 2 is a kind of flow of the flux monitoring method for multisystem terminal that another embodiment of the present invention provides
Schematic diagram, as shown, the method may include:
S201 obtains the first flow data that the corresponding process detection of the first system arrives.
Specifically, the terminal may include multiple systems, for example, a mobile phone can have security system and conventional system
Two systems, above-mentioned the first system are to choose operation, and the boundary that the first system operation is generated by user in the multiple systems of terminal
The system that face is illustrated in terminal operation interface.In existing mobile phone operating system, multiple systems are typically based on the same Linux
The process started in kernel, system and the linux kernel corresponds.For example, in android system, duplication can be passed through
Init processes start multiple systems, and each system of startup is a process in the linux kernel, and with different
Process number plays mark action.The corresponding process of above-mentioned the first system can be with the first flow data of detection terminal.It is described first-class
Amount data can include the summation of flow used in the software installed in the first system, the summation of the above-mentioned flow used
It can be the summation of flow used in the software installed in the first system in preset time period.
S202 obtains the second flow data that the corresponding process detection of second system arrives.
The second system is a system in running background in the multiple systems of terminal.The second flow data include
The summation of the summation for the flow described in software installed in the second system, the above-mentioned flow used can be preset time
The summation of flow used in the software installed in second system in section.Step S201 and step S202 can be performed simultaneously
Can also be successively to execute, can be periodical execution, can also be that the triggering of preset condition executes, such as when receiving
When traffic monitoring instruction input by user, step S201 and step S202 is executed.It is whole in order to multisystem described in accurate statistics
The flow of all system consumptions in end, the second system preferably include all in the multisystem terminal be in running background
System.
S203 gives the second flow data sharing to the corresponding process of the first system.
Specifically, can shared drive, send message or pipeline by way of by the second flow data sharing to
The corresponding process of the first system.
S204, by the corresponding process of the first system according to the first flow data and the second flow data
Generate global traffic data.
S205 gives the first flow data sharing to the corresponding process of the second system.
S206, by the corresponding process of the second system according to the first flow data and the second flow data
Generate global traffic data.
For example, the first flow data of the flow used in the first system are 40M, made in the second system
The second flow data of flow are 50M, and the second flow data 50M is shared to the first system in step S203
Corresponding process, so that by the corresponding process of the first system according to the first flow data 40M and described in step S204
Second flow data 50M generates global traffic data 90M.The first flow data 40M shared in step S205 described
The corresponding process of second system, so that by the corresponding process of the second system according to the first flow number in step S206
Global traffic data 90M is generated according to the 40M and second flow data 50M.Step S203 and step S205 may be performed simultaneously,
Step S204 and step S206 may be performed simultaneously, then obtain the first system and the second system simultaneously in the first system and second system
It unites corresponding global traffic data, improves the accuracy of traffic monitoring.
S207 shows the global traffic data, and when the global traffic data are higher than flow threshold, sends out alarm
Prompt.Above-mentioned alarm mode can be sound alarm prompt, can also be word alarm prompt etc..
Optionally, after showing above-mentioned global traffic data, the global traffic data is calculated and account for the terminal own traffic
The percentage of the flow total amount of set meal sends out alarm prompt when the high percentage is in percentage threshold.
The embodiment of the present invention gives the first system by the second flow data sharing of arriving the corresponding process detection of second system
It unites corresponding process, and the first flow data arrived according to the corresponding process detection of the first system and the second flow data are logical
It crosses the corresponding process of the first system and generates global traffic data.Realize the overall situation that multiple systems of terminal are used with flow
Data on flows is monitored, and improves the accuracy that the data traffic of multisystem terminal uses.
It is a kind of flow of the flux monitoring method for multisystem terminal that further embodiment of this invention provides refering to Fig. 3, Fig. 3
Schematic diagram, as shown, the method may include:
S301 obtains the first flow data that the corresponding process detection of the first system arrives.
Specifically, the terminal may include multiple systems, for example, a mobile phone can have security system and conventional system
Two systems, above-mentioned the first system are to choose operation, and the boundary that the first system operation is generated by user in the multiple systems of terminal
The system that face is illustrated in terminal operation interface.In existing mobile phone operating system, multiple systems are typically based on the same Linux
The process started in kernel, system and the linux kernel corresponds.For example, in android system, duplication can be passed through
Init processes start multiple systems, and each system of startup is a process in the linux kernel, and with different
Process number plays mark action.The corresponding process of above-mentioned the first system can be with the first flow data of detection terminal.It is described first-class
Amount data can include the summation of flow used in the software installed in the first system, the summation of the above-mentioned flow used
It can be the summation of flow used in the software installed in the first system in preset time period.
S302 obtains the second flow data that the corresponding process detection of second system arrives.
The second system is a system in running background in the multiple systems of terminal.The second flow data include
The summation of the summation for the flow described in software installed in the second system, the above-mentioned flow used can be preset time
The summation of flow used in the software installed in second system in section.Step S101 and step S102 can be performed simultaneously
Can also be successively to execute, can be periodical execution, can also be that the triggering of preset condition executes, such as when receiving
When traffic monitoring instruction input by user, step S301 and step S302 is executed.
S303 gives the second flow data sharing to the corresponding process of the first system.
Specifically, can shared drive, send message or pipeline by way of by the second flow data sharing to
The corresponding process of the first system.
S304 respectively provides object according to the first flow data and the second flow data at least one flow
Corresponding data on flows component part is generated by the corresponding process of the first system and is carried at least one flow respectively
For the corresponding global traffic data of object.
Specifically, the first flow data/second flow data include corresponding at least one flow offer object
Data on flows component part, for example, the terminal can use multiple SIM card simultaneously, the multiple SIM card can be it is described extremely
A few flow provides object, for example, the first flow data are 30M, including 1 corresponding 20M of SIM card and SIM card 2 correspond to
10M, the second flow data are 50M, including 2 corresponding 20M of 1 corresponding 30M of SIM card and SIM card, pass through described first
It is 50M, global traffic data corresponding with SIM card 2 that the corresponding process of system, which generates global traffic data corresponding with SIM card 1,
For 30M.Different flow offer objects is provided respectively and the flow consumed is monitored, it is more accurate to the traffic monitoring of terminal
Really, so that user is known more about the flow of terminal using detail, improve user experience.
S305 gives the first flow data sharing to the corresponding process of the second system.
S306 respectively provides object according to the first flow data and the second flow data at least one flow
Corresponding data on flows component part is generated by the corresponding process of the second system and is carried at least one flow respectively
For the corresponding global traffic data of object.
Specifically, the first flow data/second flow data include corresponding at least one flow offer object
Data on flows component part, e.g., at least one flow of the terminal, which provides object, to be terminal while using multiple SIM card respectively
Data traffic business, for example, the first flow data are 30M, including 1 corresponding 20M of SIM card and SIM card 2 correspond to
10M, the second flow data are 50M, including 2 corresponding 20M of 1 corresponding 30M of SIM card and SIM card, pass through described first
It is 50M that the corresponding process of system and the corresponding process of the second system, which generate global traffic data corresponding with SIM card 1,
Global traffic data corresponding with SIM card 2 are 30M.Respectively the flow progress that object is provided and consumed is provided to different flows
Monitoring, it is more acurrate to the traffic monitoring of terminal, so that user is known more about the flow of terminal using detail, improves user experience.
S307 shows the global traffic data, and when the global traffic data are higher than flow threshold, sends out alarm
Prompt.
The embodiment of the present invention gives the first system by the second flow data sharing of arriving the corresponding process detection of second system
It unites corresponding process, and the first flow data arrived according to the corresponding process detection of the first system and the second flow data are logical
It crosses the corresponding process of the first system and generates global traffic data.Realize the overall situation that multiple systems of terminal are used with flow
Data on flows is monitored, and improves the accuracy that the data traffic of multisystem terminal uses.
It is a kind of structural representation of the flow-monitoring device of multisystem terminal provided in an embodiment of the present invention refering to Fig. 4, Fig. 4
Figure, as shown, described device may include:Acquiring unit 401, shared cell 402 and data generating unit 403, wherein:
Acquiring unit 401, the first flow data detected for obtaining the first system.
Specifically, the terminal may include multiple systems, for example, a mobile phone can have security system and conventional system
Two systems, above-mentioned the first system are to choose operation, and the boundary that the first system operation is generated by user in the multiple systems of terminal
The system that face is illustrated in terminal operation interface.In existing mobile phone operating system, multiple systems are typically based on the same Linux
The process started in kernel, system and the linux kernel corresponds.For example, in android system, duplication can be passed through
Init processes start multiple systems, and each system of startup is a process in the linux kernel, and with different
Process number plays mark action.The corresponding process of above-mentioned the first system can be with the first flow data of detection terminal.It is described first-class
Amount data can include the summation of flow used in the software installed in the first system, the summation of the above-mentioned flow used
It can be the summation of flow used in the software installed in the first system in preset time period.Above-mentioned the first system it is corresponding into
Journey can read the first flow data from the corresponding data traffic interface of terminal.
The acquiring unit 401 is additionally operable to obtain the second flow data that second system detects.
The second system is the system in running background in the multiple systems of terminal.The second flow data include described
The summation of the summation for the flow described in software installed in second system, the above-mentioned flow used can be in preset time period
Second system in flow used in the software installed summation.The corresponding process of above-mentioned second system can be answered from terminal-pair
Data traffic interface read the second flow data.The number of second system can be one can also be multiple, in order to
The flow of all system consumptions in multisystem terminal described in enough accurate statistics, the second system includes in the multisystem terminal
All systems in running background.The acquiring unit 401 obtains the first flow data and the second flow data can
To be that obtain simultaneously can also be successively to obtain, can periodically acquire, can also be that the triggering of preset condition obtains,
Such as when input flow rate is monitored and instructed, the first flow data and the second flow data are obtained respectively.
Shared cell 402, for giving the second flow data sharing to the first system.
Specifically, the shared cell 402 can be by way of shared drive, transmission message or pipeline by described second
Data on flows shares to the first system.Shared drive specific implementation mode is:The acquiring unit 401 obtains described second
After the second flow data that the corresponding process detection of system arrives, second data traffic is stored in by the shared cell 402
The shared storage medium of multiple systems, in SIM card, UIM cards, the process of responsible shared data is from described in the first system
The second flow data are obtained in shared storage medium.Send message specific implementation mode be:The shared cell 402
The process for being responsible for sending message in the first system is controlled to be responsible for receiving the process transmitted traffic number of message into second system
The process for being responsible for sending message according to sharing request, in second system responds above-mentioned data on flows sharing request, and to described first
The process for being responsible for receiving message in system sends the second flow data.The specific implementation mode of pipeline is:The shared list
Member 402 obtains the second flow data it after second flow data through the pipeline between the first system and second system
It is transferred to the first system.Three kinds of modes of shared cell 402 can be achieved the second flow data sharing to described first
The corresponding process of system.
Data generating unit 403 is used for through the first system according to the first flow data and the second
It measures data and generates global traffic data.
Specifically, the data generating unit 403 by the first system be responsible for generate global traffic data into
Journey generates the global traffic data according to the first flow data and the second flow data, for example, first number
It is 80M according to flow, the second flow data are 30M, then the data generating unit 403 obtains the global traffic data and is
110M。
Optionally, the shared cell 402 is additionally operable to first data traffic sharing to the second system.
The data generating unit 403 is additionally operable to through the second system according to first flow data and described
Second flow data generate global traffic data.
The shared cell 402 gives the first flow data sharing to the second system, so that the data generate
Unit 403 generates global traffic number by the second system according to the first flow data and the second flow data
According to, it is ensured that while the first system generates global traffic, the second system also creates the identical overall situation of numerical value
Data on flows.
Further alternative, the first flow data/second flow data include providing object at least one flow
Corresponding data on flows component part, the data generating unit 403 are specifically used for:
Respectively object to be provided at least one flow corresponding according to the first flow data and the second flow data
Data on flows component part, generate that provide object at least one flow corresponding complete respectively by the first system
Office's data on flows.
Specifically, the first flow data/second flow data include corresponding at least one flow offer object
Data on flows component part, for example, the terminal can use multiple SIM card simultaneously, the multiple SIM card can be it is described extremely
A few flow provides object, for example, the first flow data are 30M, including 1 corresponding 20M of SIM card and SIM card 2
Corresponding 10M, the second flow data are 50M, including 2 corresponding 20M of 1 corresponding 30M of SIM card and SIM card, the data
It is right with SIM card 1 that generation unit 403 is generated by the corresponding process of the first system and the corresponding process of the second system
The global traffic data answered are 50M, and global traffic data corresponding with SIM card 2 are 30M.Data generating unit 403 realizes point
It is other to provide different flow that object provides and the flow consumed is monitored, it is more acurrate to the traffic monitoring of terminal, make user
The flow of terminal is known more about using detail, improves user experience.
Further alternative, described device further includes:
Display unit 404 is higher than flow threshold for showing the global traffic data, and in the global traffic data
When, send out alarm prompt.Above-mentioned alarm mode can be sound alarm prompt, can also be word alarm prompt etc..
Optionally, after display unit 404 shows above-mentioned global traffic data, the global traffic data is calculated and account for the end
The percentage of the flow total amount of own traffic set meal is held to send out alarm prompt when the high percentage is in percentage threshold.
The embodiment of the present invention gives the first system by the second flow data sharing of arriving the corresponding process detection of second system
It unites corresponding process, and the first flow data arrived according to the corresponding process detection of the first system and the second flow data are logical
It crosses the corresponding process of the first system and generates global traffic data.Realize the overall situation that multiple systems of terminal are used with flow
Data on flows is monitored, and improves the accuracy that the data traffic of multisystem terminal uses.
One of ordinary skill in the art will appreciate that realizing all or part of flow in above-described embodiment method, being can be with
Relevant hardware is instructed to complete by computer program, the program can be stored in a computer read/write memory medium
In, the program is when being executed, it may include such as the flow of the embodiment of above-mentioned each method.Wherein, the storage medium can be magnetic
Dish, CD, read-only memory (Read-Only Memory, ROM) or random access memory (Random Access
Memory, RAM) etc..
The above disclosure is only the preferred embodiments of the present invention, cannot limit the right model of the present invention with this certainly
It encloses, therefore equivalent changes made in accordance with the claims of the present invention, is still within the scope of the present invention.
Claims (10)
1. a kind of flux monitoring method of multisystem terminal, which is characterized in that the method includes:
The first flow data that the first system is read from data traffic interface are obtained, the first flow data include described first
The summation of flow used in the software installed in system;
The second flow data that second system is read from data traffic interface are obtained, the second flow data include described second
The summation of flow used in the software installed in system;
Give the second flow data sharing to the first system;
By the first system global traffic data are generated according to the first flow data and the second flow data.
2. the method as described in claim 1, which is characterized in that described to give the second flow data sharing to first system
System includes:
By shared drive, message or pipe method are sent by the second flow data sharing to the first system.
3. the method as described in claim 1, which is characterized in that the first flow data/second flow data include with extremely
A few flow provides object corresponding data on flows component part;
It is described that global traffic data packet is generated according to the first flow data and second flow data by the first system
It includes:
Respectively provide object corresponding stream at least one flow according to the first flow data and the second flow data
Data component part is measured, generates global flow corresponding at least one flow offer object respectively by the first system
Measure data.
4. the method as described in claim 1, which is characterized in that the method further includes:
Give the first flow data sharing to the second system;
By the second system global traffic data are generated according to the first flow data and the second flow data.
5. the method as described in claim 1, which is characterized in that it is described by the first system according to the first flow number
After generating global traffic data with the second flow data, further include:
It shows the global traffic data, and when the global traffic data are higher than flow threshold, sends out alarm prompt.
6. a kind of flow-monitoring device of multisystem terminal, which is characterized in that described device includes:
Acquiring unit, the first flow data read from data traffic interface for obtaining the first system, the first flow number
According to the summation for including flow used in the software installed in the first system;
The acquiring unit, is additionally operable to obtain the second flow data that are read from data traffic interface of second system, and described the
Two summations of the flow data packet containing flow used in the software installed in the second system;
Shared cell, for giving the second flow data sharing to the first system;
Data generating unit, for being given birth to according to the first flow data and the second flow data by the first system
At global data on flows.
7. device as claimed in claim 6, which is characterized in that the shared cell is specifically used for:
By shared drive, message or pipe method are sent by the second flow data sharing to the first system.
8. device as claimed in claim 6, which is characterized in that the first flow data/second flow data include with extremely
A few flow provides object corresponding data on flows component part;
The data generating unit is specifically used for:
Respectively provide object corresponding stream at least one flow according to the first flow data and the second flow data
Data component part is measured, generates global flow corresponding at least one flow offer object respectively by the first system
Measure data.
9. device as claimed in claim 6, which is characterized in that
The shared cell is additionally operable to the first flow data sharing to the second system;
The data generating unit is additionally operable to through the second system according to the first flow data and the second flow
Data generate global traffic data.
10. device as claimed in claim 6, which is characterized in that described device further includes:
Display unit for showing the global traffic data, and when the global traffic data are higher than flow threshold, is sent out
Alarm prompt.
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