CN104780004B - The bandwidth velocity-measuring system and method for a kind of home gateway - Google Patents

Abstract

The invention discloses the bandwidth velocity-measuring system and method for a kind of home gateway, it is related to bandwidth velocity measuring technique field, the system, which includes home gateway and the user terminal being connected with the home gateway, the home gateway, includes uplink network interface, and user terminal includes man-machine interface；The home gateway also includes test the speed unit, recording unit and agent unit；Wherein, agent unit, interacted for the man-machine interface of monitoring users terminal, and with the man-machine interface；The unit that tests the speed is controlled to be tested the speed；Read the bandwidth rates in recording unit；Test the speed unit, after receiving tachometer signal, periodically monitors uplink network interface, computation bandwidth speed is simultaneously stored to recording unit；Recording unit, for storing the bandwidth rates for unit calculating of testing the speed.The present invention will not be tied up by his business to be influenceed, being capable of accurate computation bandwidth speed；During testing the speed, stop accessing internet, simple operation without the other equipment in home network.

Description

Bandwidth speed measuring system and method of home gateway

Technical Field

The invention relates to the technical field of bandwidth speed measurement, in particular to a bandwidth speed measurement system and method of a home gateway.

Background

The home gateway is an entrance for the user's home to access the Internet (Internet ), and the actual access rate determines the quality of the broadband service of the bearer user. With the gradual popularization of broadband services, users tend to pay attention to the actual access rate, and bandwidth speed measurement is a common means for users.

The traditional bandwidth speed measurement is initiated by a terminal (such as a PC) in a home network, and is obtained by accessing a certain website or downloading a corresponding speed measurement program to a local place to download/upload bulk data. This method has the following drawbacks: 1. when measuring the speed, if other devices in the home network access the internet at the same time, for example, a video service, a P2P (Peer to Peer) download service, etc., the speed measurement flow of the speed measurement terminal is affected by the crowding of other services, which results in a low measured bandwidth rate. 2. In order to obtain an accurate bandwidth rate, other devices in the home network need to stop accessing the internet, and the operation is inconvenient.

In view of the above circumstances, users urgently need a convenient bandwidth speed measurement mode which is not affected by other devices of the home network.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a system and a method for measuring the bandwidth speed of a home gateway, which are not affected by the crowding of other services and can accurately calculate the bandwidth speed; in the speed measurement process, other equipment in the home network is not required to stop accessing the Internet, and the operation is convenient and fast.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: a bandwidth speed measuring system of a home gateway comprises the home gateway and a user terminal connected with the home gateway, wherein the home gateway comprises an uplink network interface, and the user terminal comprises a human-computer interface; the home gateway also comprises a speed measuring unit, a recording unit and an agent unit; the agent unit is used for monitoring the human-computer interface and judging whether a request sent by the human-computer interface is received in a monitoring period; if a request sent by the human-computer interface is received, the agent unit judges the type of the request sent by the human-computer interface; if the request type sent by the human-computer interface is a request for acquiring the bandwidth rate, the proxy unit reads the bandwidth rate on the recording unit and sends the bandwidth rate to the human-computer interface; if the request type sent by the human-computer interface is a speed measurement request, the agent unit continuously judges whether the speed measurement unit is started; if the speed measuring unit is started, the proxy unit directly sends a speed measuring signal; if the speed measuring unit is not started, the agent unit starts the speed measuring unit and sends a speed measuring signal; if the request sent by the human-computer interface is not received, the agent unit judges whether the speed measuring unit is started, if so, the agent unit closes the speed measuring unit and continues to monitor the human-computer interface; otherwise, the agent unit continues to monitor the human-computer interface; the speed measuring unit is used for periodically monitoring the uplink network interface after receiving the speed measuring signal, calculating the bandwidth rate and storing the bandwidth rate to the recording unit; and the recording unit is used for storing the bandwidth rate calculated by the speed measuring unit.

On the basis of the technical scheme, the speed measuring unit is further used for starting an uploading/downloading task, and the uploading/downloading task is used for enabling the bandwidth rate of the uplink network interface of the home gateway to be in a full load state.

The invention also discloses a bandwidth speed measuring method of the home gateway based on the system, which comprises the following steps: s1, monitoring a man-machine interface by an agent unit, and judging whether a request sent by the man-machine interface is received in a monitoring period; if yes, go to step S4; otherwise, jumping to step S2; s2, the agent unit judges whether the speed measuring unit is started, and if yes, the agent unit jumps to the step S3; otherwise, return to step S1; s3, the proxy unit closes the speed measuring unit and returns to the step S1; s4, the agent unit judges the type of the request sent by the human-computer interface; if the request is for acquiring the bandwidth rate, jumping to step S5; if the request is a speed measurement request, jumping to step S6; s5, the agent unit reads the bandwidth rate on the recording unit, sends the bandwidth rate to the man-machine interface and returns to the step S1; s6, the agent unit judges whether the speed measuring unit is started, if so, the agent unit jumps to the step S7; otherwise, jumping to step S8; s7, the speed measuring unit periodically monitors an uplink network interface of the home gateway, calculates the bandwidth rate, stores the bandwidth rate in the recording unit, and returns to the step S1; and S8, starting the speed measuring unit by the agent unit, and returning to the step S7.

On the basis of the above technical solution, before step S1, the method further includes the following steps: and starting the home gateway and initializing a human-computer interface of the user terminal.

On the basis of the above technical solution, in step S1, the listening period is 5 seconds.

In addition to the above technical solution, if the request type transmitted from the human machine interface cannot be analyzed in step S4, the process returns to step S1.

On the basis of the above technical solution, the specific process of step S7 is: s701, starting an uploading/downloading task by a speed measuring unit; the uploading/downloading task is used for enabling the bandwidth rate of an uplink network interface of the home gateway to be in a full load state; s702, accessing an uplink network interface of the home gateway by a speed measurement unit, acquiring statistical information of an uplink message and a downlink message, and recording the current system time; s703, enabling the speed measuring unit to enter a sleep period; step S704, after the dormancy is finished, the speed measuring unit accesses an uplink network interface of the home gateway again to obtain statistical information of an uplink message and a downlink message and record the current system time; step S705, the speed measurement unit calculates the uplink bandwidth rate and the downlink bandwidth rate according to the statistical information of the uplink message and the downlink message obtained by accessing the uplink network interface for nearly two times and the system time difference of the two times; step S706, the speed measurement unit stores the calculated uplink bandwidth rate and the calculated downlink bandwidth rate in the recording unit, and returns to step S703.

On the basis of the above technical solution, in step S701, the uploading/downloading task is performed in a user-server manner or a peer-to-peer network P2P manner.

On the basis of the technical scheme, the user-server mode adopts a File Transfer Protocol (FTP) mode or a hypertext transfer protocol (HTTP) mode.

On the basis of the above technical solution, in step S703, the sleep cycle is 1 second to 5 seconds.

The invention has the beneficial effects that:

1. the speed measuring unit is arranged in the home gateway, the bandwidth rate is calculated through an uplink network interface of the home gateway, when a user accesses the speed measuring function of the home gateway through Web (World Wide Web) or an intelligent terminal (Application), the home gateway is triggered to upload/download tasks to a certain preset address, the actual bandwidth of the home gateway is evaluated together with data of an intranet accessing Internet, and the actual bandwidth is fed back to the user. Because the speed measurement data directly comes from the uplink port of the home gateway and is not interfered by the intranet environment, the speed measurement is more stable by utilizing the PC terminal in comparison with the traditional method. Therefore, the speed measuring unit is not influenced by the crowding of other services, and the bandwidth rate can be accurately calculated.

2. The speed measuring unit is arranged in the home gateway, so that other equipment in the home network is not required to stop accessing the Internet in the speed measuring process, and the operation is convenient and fast.

Drawings

Fig. 1 is a block diagram of a bandwidth speed measurement system of a home gateway in an embodiment of the present invention;

fig. 2 is a flowchart of a bandwidth speed measurement method of a home gateway in an embodiment of the present invention;

fig. 3 is a detailed flowchart of step S7 in fig. 2.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Referring to fig. 1, an embodiment of the present invention provides a bandwidth speed measurement system for a home gateway, including a home gateway and a user terminal connected to the home gateway, where the home gateway includes an uplink network interface, and the user terminal includes a human-machine interface; the home gateway also comprises a speed measuring unit, a recording unit and an agent unit; wherein,

the agent unit is used for monitoring the human-computer interface and judging whether a request sent by the human-computer interface is received in a monitoring period;

if a request sent by the human-computer interface is received, the agent unit judges the type of the request sent by the human-computer interface;

if the request type sent by the human-computer interface is a request for acquiring the bandwidth rate, the proxy unit reads the bandwidth rate on the recording unit and sends the bandwidth rate to the human-computer interface;

if the request type sent by the human-computer interface is a speed measurement request, the agent unit continuously judges whether the speed measurement unit is started;

if the speed measuring unit is started, the proxy unit directly sends a speed measuring signal;

if the speed measuring unit is not started, the agent unit starts the speed measuring unit and sends a speed measuring signal;

if the request sent by the human-computer interface is not received, the agent unit judges whether the speed measuring unit is started, if so, the agent unit closes the speed measuring unit and continues to monitor the human-computer interface; otherwise, the agent unit continues to monitor the human-machine interface.

The speed measuring unit is used for periodically monitoring the uplink network interface after receiving the speed measuring signal, calculating the bandwidth rate and storing the bandwidth rate to the recording unit; preferably, the speed measurement unit is further configured to start an upload/download task, where the upload/download task is used to enable a bandwidth rate of an uplink network interface of the home gateway to be in a full load state.

And the recording unit is used for storing the bandwidth rate calculated by the speed measuring unit.

Referring to fig. 2, an embodiment of the present invention further provides a bandwidth speed measurement method for a home gateway based on the foregoing system, including the following steps:

s1, monitoring a man-machine interface of a home gateway by an agent unit, and judging whether a request sent by the man-machine interface is received in a monitoring period; if yes, go to step S4; otherwise, jumping to step S2; according to practical experience values, the monitoring period is preferably 5 seconds.

S2, the agent unit judges whether the speed measuring unit is started, and if yes, the agent unit jumps to the step S3; otherwise, return is made to step S1.

And S3, the proxy unit closes the speed measuring unit and returns to the step S1.

S4, the agent unit judges the type of the request sent by the human-computer interface; if the request is for acquiring the bandwidth rate, jumping to step S5; if the speed measurement request is received, go to step S6. If the request type sent from the human machine interface cannot be analyzed, the process returns to step S1.

And S5, the agent unit reads the bandwidth rate on the recording unit, sends the bandwidth rate to the man-machine interface of the user terminal, and returns to the step S1.

S6, the agent unit judges whether the speed measuring unit is started, if so, the agent unit jumps to the step S7; otherwise, it jumps to step S8.

And S7, the speed measuring unit periodically monitors an uplink network interface of the home gateway, calculates the bandwidth rate, stores the bandwidth rate in the recording unit, and returns to the step S1.

And S8, starting the speed measuring unit by the agent unit, and returning to the step S7.

Preferably, before step S1, the method further includes the following steps: and starting the home gateway and initializing a human-computer interface of the user terminal.

Referring to fig. 3, the specific process of step S7 is:

s701, starting an uploading/downloading task by a speed measuring unit; the uploading/downloading task is used for enabling the bandwidth rate of an uplink network interface of the home gateway to be in a full load state; the uploading/downloading task is carried out in a user-server mode or a P2P mode. The user-server mode is an FTP (File Transfer Protocol) mode or an HTTP (Hypertext Transfer Protocol) mode. According to the Best-Effort property of the IP, the current bandwidth rate of the uplink network interface is made to approach the actual access bandwidth rate of the home gateway at the link.

Step S702, the speed measuring unit accesses an uplink network interface of the home gateway, obtains statistical information of an uplink message and a downlink message, and records the current system time.

S703, enabling the speed measurement unit to enter a sleep cycle, wherein the sleep cycle can be 1s-5s according to practical experience values, and if the speed measurement result is approximately displayed in real time, the sleep cycle is preferably 1 s; if the speed measurement result is smoother, the sleep period is preferably 5 s.

Step S704, after the dormancy is finished, the speed measuring unit accesses the uplink network interface of the home gateway again to obtain the statistical information of the uplink message and the downlink message, and records the current system time.

Step s705, the speed measurement unit calculates the uplink bandwidth rate and the downlink bandwidth rate according to the statistical information of the uplink packet and the downlink packet obtained by accessing the uplink network interface for the last two times and the system time difference of the two times.

Step S706, the speed measuring unit stores the calculated uplink bandwidth rate and the calculated downlink bandwidth rate to the recording unit, and the step S703 is skipped.

The present invention is not limited to the above-described embodiments, and it will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the principle of the present invention, and such modifications and improvements are also considered to be within the scope of the present invention. Those not described in detail in this specification are within the skill of the art.

Claims (9)

1. A bandwidth speed measuring system of a home gateway comprises the home gateway and a user terminal connected with the home gateway, wherein the home gateway comprises an uplink network interface, and the user terminal comprises a human-computer interface; the method is characterized in that: the home gateway also comprises a speed measuring unit, a recording unit and an agent unit; wherein,

the agent unit interacts with the user for bandwidth speed measurement through Web or an intelligent terminal App, and is used for monitoring the human-computer interface and judging whether a request sent by the human-computer interface is received in a monitoring period;

if a request sent by the human-computer interface is received, the agent unit judges the type of the request sent by the human-computer interface;

if the request type sent by the human-computer interface is a request for acquiring the bandwidth rate, the proxy unit reads the bandwidth rate on the recording unit and sends the bandwidth rate to the human-computer interface;

if the request type sent by the human-computer interface is a speed measurement request, the agent unit continuously judges whether the speed measurement unit is started;

if the speed measuring unit is started, the proxy unit directly sends a speed measuring signal;

if the speed measuring unit is not started, the agent unit starts the speed measuring unit and sends a speed measuring signal;

if the request sent by the human-computer interface is not received, the agent unit judges whether the speed measuring unit is started, if so, the agent unit closes the speed measuring unit and continues to monitor the human-computer interface; otherwise, the agent unit continues to monitor the human-computer interface;

the speed measurement unit is used for receiving a speed measurement signal, enabling the home gateway to upload/download tasks in a user-server mode or a peer-to-peer network P2P mode during speed measurement without other equipment in the home network stopping accessing the Internet in the speed measurement process, enabling the bandwidth rate of an uplink network interface of the home gateway to be in a full load state together with data of an intranet accessing the Internet, periodically accessing the uplink network interface to acquire statistical information of uplink messages and downlink messages and system time difference between two adjacent periodic accesses, calculating the uplink bandwidth rate and the downlink bandwidth rate, and storing the uplink bandwidth rate and the downlink bandwidth rate to the recording unit;

and the recording unit is used for storing the bandwidth rate calculated by the speed measuring unit.

2. The system of claim 1, wherein the method for measuring the bandwidth speed of the home gateway comprises the following steps:

s1, monitoring a man-machine interface by an agent unit, and judging whether a request sent by the man-machine interface is received in a monitoring period; if yes, go to step S4; otherwise, jumping to step S2;

s2, the agent unit judges whether the speed measuring unit is started, and if yes, the agent unit jumps to the step S3; otherwise, return to step S1;

s3, the proxy unit closes the speed measuring unit and returns to the step S1;

s4, the agent unit judges the type of the request sent by the human-computer interface; if the request is for acquiring the bandwidth rate, jumping to step S5; if the request is a speed measurement request, jumping to step S6;

s5, the agent unit reads the bandwidth rate on the recording unit, sends the bandwidth rate to the man-machine interface and returns to the step S1;

s6, the agent unit judges whether the speed measuring unit is started, if so, the agent unit jumps to the step S7; otherwise, jumping to step S8;

s7, the speed measuring unit periodically monitors an uplink network interface of the home gateway, calculates the bandwidth rate, stores the bandwidth rate in the recording unit, and returns to the step S1;

and S8, starting the speed measuring unit by the agent unit, and returning to the step S7.

3. The method for measuring the bandwidth speed of the home gateway according to claim 2, further comprising, before step S1, the steps of: and starting the home gateway and initializing a human-computer interface of the user terminal.

4. The method for measuring the bandwidth speed of the home gateway as claimed in claim 2, wherein: in step S1, the listening period is 5 seconds.

5. The method for measuring the bandwidth speed of the home gateway as claimed in claim 2, wherein: in step S4, if the request type transmitted from the human machine interface cannot be analyzed, the process returns to step S1.

6. The method for measuring the bandwidth speed of the home gateway as claimed in claim 2, wherein: the specific process of step S7 is:

s701, starting an uploading/downloading task by a speed measuring unit; the uploading/downloading task is used for enabling the bandwidth rate of an uplink network interface of the home gateway to be in a full load state;

s702, accessing an uplink network interface of the home gateway by a speed measurement unit, acquiring statistical information of an uplink message and a downlink message, and recording the current system time;

s703, enabling the speed measuring unit to enter a sleep period;

step S704, after the dormancy is finished, the speed measuring unit accesses an uplink network interface of the home gateway again to obtain statistical information of an uplink message and a downlink message and record the current system time;

step S705, the speed measurement unit calculates the uplink bandwidth rate and the downlink bandwidth rate according to the statistical information of the uplink message and the downlink message obtained by accessing the uplink network interface for nearly two times and the system time difference of the two times;

step S706, the speed measurement unit stores the calculated uplink bandwidth rate and the calculated downlink bandwidth rate in the recording unit, and returns to step S703.

7. The method for measuring the bandwidth speed of the home gateway according to claim 6, wherein: in step S701, the uploading/downloading task is performed in a user-server manner or a peer-to-peer network P2P manner.

8. The method for measuring the bandwidth speed of the home gateway according to claim 7, wherein: the user-server mode adopts a File Transfer Protocol (FTP) mode or a hypertext transfer protocol (HTTP) mode.

9. The method for measuring the bandwidth speed of the home gateway according to claim 6, wherein: in step S703, the sleep cycle is 1 second to 5 seconds.