WO2017054580A1 - Method of acquiring data traffic data and device utilizing same - Google Patents

Abstract

A method of acquiring data traffic data and device utilizing the same. The method comprises: acquiring identification information of each of transmission equipment; and receiving, according to each piece of the identification information, data traffic data on each of the transmission equipment; wherein each piece of the identification information is carried in a data packet broadcast by a corresponding transmission equipment, and contains information configured to identify the corresponding transmission equipment.

Description

Method and device for acquiring flow data Technical field

This application relates to, but is not limited to, the field of network technology.

Background technique

After years of construction, the Packet Transport Network (PTN) is faced with the problem of invisible traffic, lack of efficient statistical tools, and untimely discovery of traffic problems with the business volume, operation and maintenance, and construction. This leads to a decline in the quality of the business and the challenge of accurate capacity expansion.

In the process of Internet Protocol (IP) transformation and 4th Generation mobile communication (4G) network evolution, bearer networks are facing greater pressure, related technologies. In the era of Long Term Evolution (LTE), the base station bearer network needs to predict the traffic dynamics of the network, and analyze the response countermeasures in real time in the first time, which is the daily maintenance of the network and the early warning of the network. The medium and long-term planning of the network provides strong support. In the all-IP transformation environment, the PTN network carries mobile 2nd generation mobile communication (2nd Generation mobile communication, 2G for short), 3rd generation mobile communication (3rd Generation mobile communication, 3G), LTE, wireless Key services such as Wireless Local Area Networks (WLAN), group customers, and home customers. The PTN traffic visualization system should be established in time to assist the daily network dimension to accurately locate the traffic problem in time, and support the network code to master the key information of the traffic planning, and accurately implement the expansion and contraction. The main network traffic data acquisition supporting this system is the biggest bottleneck.

In the traffic analysis system of the related art, network traffic data must acquire network traffic data from the network management system. In this way, the network management system must wait for all traffic data to be sequentially acquired from all the transmission devices in the transmission network. In addition, due to the different delays of different transmission devices, the delay of the traffic data of the acquisition transmission device is high, which leads to It is less efficient to get traffic data.

Summary of the invention

The following is an overview of the topics detailed in this document. This Summary is not intended to limit the scope of the claims.

The present invention provides a method and a device for acquiring traffic data, so as to solve the problem that the delay of obtaining the traffic data of the transmitting device is high in the related art, and the efficiency of obtaining the traffic data is low.

A method of obtaining traffic data, including:

Obtaining identification information of each transmitting device, where each of the identification information is carried in a data packet broadcast by the corresponding transmitting device, and each of the identification information is information for identifying a corresponding transmitting device;

According to each of the identification information, traffic data on each of the transmitting devices is acquired.

Optionally, the method is applied to a sub-collection device connected to the main collection device, and the acquiring the identification information of each transmission device includes:

Receiving, by the primary collection device, the identification information that is extracted and sent after the data packet is monitored;

The method further includes:

The acquired traffic data on each of the transmitting devices is transmitted to the primary collecting device.

Optionally, the method is applied to the main collection device connected to the at least one sub-collection device, and the obtaining, according to each of the identification information, the traffic data on each of the transmission devices, including:

Obtain identification information and timestamp information in each data packet;

Determining, according to the acquired identification information, the total number of the transmission devices, and determining the number of the sub-collection devices by using the acquired timestamp information;

Allocating a transfer device for each of the sub-collection devices according to the total number of the transfer devices and the number of the sub-collection devices;

Sending identification information of the transmitting device allocated to each of the sub-collecting devices to the sub-collecting device, so that each of the sub-collecting devices acquires flow data on the transmitting device assigned to the sub-collecting device according to the received identification information. ;

Receiving traffic data transmitted by each of the sub-collection devices, wherein the traffic data is data acquired by each of the sub-collection devices in a transmission device allocated to the sub-collection device.

Optionally, the determining, by the acquired timestamp information, the number of the sub-collection devices includes:

Obtaining a time delay of each of the transmitting devices, wherein the time delay is a difference between a timestamp when the data packet is received and a timestamp in the data packet;

Acquiring an average time delay of the transmitting device according to a time delay of each of the transmitting devices, wherein the average time delay is a ratio of a sum of time delays of all transmitting devices to a total number of the transmitting devices;

The number of the sub-collection devices is determined based on the average time delay.

Optionally, determining, according to the average time delay, the number of the sub-collection devices, including:

Obtaining an acquisition efficiency requirement time and a number of concurrent acquisition devices, wherein the sub-collection concurrent number is used to indicate that the sub-collection device allows a maximum number of concurrent resources;

The ratio of the product of the collection efficiency requirement time and the number of concurrent times of the sub-collection device to the average time delay is determined as the number of the sub-collection devices.

A device for obtaining traffic data, comprising:

The obtaining module is configured to: obtain identification information of each transmitting device, where each of the identifier information is carried in a data packet broadcast by the corresponding transmitting device, and each of the identifier information is information used to identify the corresponding transmitting device ;

The receiving module is configured to: obtain, according to each of the identification information acquired by the acquiring module, traffic data on each of the transmitting devices.

Optionally, the receiving module includes:

The obtaining unit is configured to: obtain identification information and timestamp information in each data packet;

a determining unit, configured to: determine a total number of the transmitting devices according to the identifier information acquired by the acquiring unit, and determine, by using the timestamp information acquired by the acquiring unit, the number of the sub-collection devices;

a distribution unit, configured to: allocate a transmission device for each of the sub-collection devices according to the total number of the transmission devices determined by the determining unit and the number of the sub-collection devices;

a sending unit, configured to: send identification information of the transmitting device allocated to each of the sub-collecting devices to the sub-collecting device, so that each of the sub-collecting devices is allocated according to the received identification information Obtaining flow data on the transmitting device of the sub-collection device;

The receiving unit is configured to: receive traffic data sent by each of the sub-collection devices, wherein the traffic data is data acquired by each of the sub-collection devices in a transmission device allocated to the sub-collection device.

Optionally, the determining unit is configured to: acquire a time delay of each of the transmitting devices, and acquire an average time delay of the transmitting device according to a time delay of each of the transmitting devices, according to the average time delay Determining the number of the sub-collection devices; wherein the time delay is a difference between a timestamp when the data packet is received and a timestamp in the data packet, and the average time delay is a time delay of all the transmitting devices. And the ratio of the total number of transmission devices.

Optionally, the determining unit is configured to determine the number of the sub-collection devices according to the average time delay, including:

Obtaining an acquisition efficiency requirement time and a number of concurrent acquisition devices, wherein the sub-collection concurrent number is used to indicate that the sub-collection device allows a maximum number of concurrent resources; and the product of the collection efficiency requirement time and the sub-collection device concurrent number is obtained. The ratio to the average time delay is determined as the number of the sub-collection devices.

A method of obtaining traffic data, including:

Obtaining identification information of the transmitting device, where the identifier information is used to identify the transmitting device;

Generating a data packet including the identification information and time stamp information;

Broadcasting the generated data packet, so that the data collection device that listens to the data packet acquires the identification information, and acquires traffic data on the transmission device according to the identification information.

A transfer device comprising:

An acquiring module, configured to: obtain identification information of the transmitting device, where the identifier information is used to identify the transmitting device;

a generating module, configured to: generate a data packet that includes timestamp information and identifier information acquired by the acquiring module;

a broadcast module, configured to: broadcast the data packet generated by the generating module, so as to monitor The data collection device of the data packet acquires the identification information, and acquires traffic data on the transmission device according to the identification information.

The method and the device for acquiring the traffic data provided by the embodiment of the present invention acquire the traffic information of each of the transmitting devices according to the information of each of the transmitting devices, wherein each of the identification information is carried in the corresponding information. The data packet broadcasted by the transmitting device, and each identification information is information for identifying the corresponding transmitting device; by the method provided in this embodiment, the primary collecting device can automatically identify the network size and the time delay of the transmitting device, and according to the time Delaying the allocation of network resources, reducing the deployment of operation and maintenance personnel, and obtaining traffic data through the sub-collection device can greatly improve the adaptability of the main acquisition device and the efficiency of collecting traffic data.

Other aspects will be apparent upon reading and understanding the drawings and detailed description.

BRIEF abstract

FIG. 1 is a flowchart of a method for acquiring traffic data according to an embodiment of the present invention;

2 is a schematic diagram of a network architecture in a method for acquiring traffic data according to an embodiment of the present invention;

3 is a schematic diagram of another network architecture in a method for acquiring traffic data according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an apparatus for acquiring traffic data according to an embodiment of the present disclosure;

FIG. 5 is a schematic structural diagram of another apparatus for acquiring traffic data according to an embodiment of the present disclosure;

FIG. 6 is a flowchart of a method for acquiring traffic data according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a transmission device according to an embodiment of the present invention.

Embodiments of the invention

In the embodiment of the present invention, a method and an apparatus for acquiring traffic data are provided in the embodiment of the present invention, in order to solve the problem that the traffic data of the transmitting device is delayed in the related art, and the efficiency of obtaining the traffic data is low. The method includes: obtaining identification information of each transmitting device, and acquiring traffic data on each transmitting device according to each identification information. In the embodiment of the present invention, the traffic data of the transmitting device may be respectively acquired according to the identification information in the data packet broadcasted by the transmitting device, thereby avoiding The problem that the delay of the traffic data acquisition is high due to the delay of the transmission device is eliminated, thereby improving the efficiency of acquiring the traffic data.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be noted that, in the case of no conflict, the features in the embodiments and the embodiments herein may be arbitrarily combined with each other.

The steps illustrated in the flowchart of the figures may be executed in a computer system in accordance with a set of computer executable instructions. Also, although logical sequences are shown in the flowcharts, in some cases the steps shown or described may be performed in a different order than the ones described herein.

As shown in FIG. 1 , which is a flowchart of a method for acquiring traffic data according to an embodiment of the present invention, the method for obtaining traffic data provided in this embodiment may include the following steps, that is, S101 to S102:

S101. Obtain identification information of each transmitting device, where each identifier information is carried in a data packet broadcast by the corresponding transmitting device, where each identifier information is information used to identify the corresponding transmitting device.

S102. Acquire traffic data on each transmitting device according to each identifier information.

In the embodiment of the present invention, the foregoing method may be performed by a main collection device, as shown in FIG. 2, which is a schematic diagram of a network architecture in a method for acquiring traffic data according to an embodiment of the present invention, and FIG. 2 shows a main collection. a network structure between the device and the transmitting device. In the network, the main collecting device 100 can directly acquire the data packet broadcast by each transmitting device 200. When the transmitting device 200 transmits the data packet, the transmitting device 200 will transmit the data packet. Timestamp information is added to the data packet, where the timestamp information is used to indicate the time at which the transmitting device 200 broadcasts the data packet.

Optionally, in the embodiment of the present invention, the data packet of the transmitting device may further include information such as a message type, a transmission device identification information, a user name, and a password. The message type is an identifier of the data packet, which is used to distinguish the type of the data packet. If more information is needed, the data packet may also carry multiple identifiers.

Optionally, in the embodiment of the present invention, after each transmitting device broadcasts the data packet, the main collecting device acquires a data packet of each transmitting device, and the main collecting device parses each acquired data packet, and The identification information in the data is obtained from each data packet, and the identification information may be the IP of the corresponding transmission device, and the main collection device can determine the total number of all the transmission devices by the IP of all the transmission devices.

The main collection device directly obtains the identification information of each transmission device to the corresponding transmission device. Take traffic data. In the embodiment of the present invention, the main collection device can directly obtain the traffic data on the corresponding transmission device by using the identification information in the data packet broadcasted by each transmission device, so that the efficiency of obtaining the traffic data can be effectively improved.

Optionally, in the embodiment of the present invention, in order to improve the efficiency of acquiring traffic data on the transmitting device. After the main collection device of the embodiment of the present invention acquires the data broadcast by each transmission device, the main collection device parses the timestamp information in the acquired data packet, where the timestamp information is used to indicate that the corresponding transmission device broadcasts the data packet. Time, the main collection device determines the number of required sub-collection devices by the time stamp information in the data packet, and then the main collection device allocates a transmission device for each sub-collection device according to the total number of transmission devices and the number of sub-collection devices. The identification information of the transmitting device to which each sub-collection device is assigned is sent to the corresponding sub-collecting device, so that each sub-collecting device acquires the traffic data of all the transmitting devices under the control of the sub-collecting device according to the acquired identification information. Through the above manner, the main collection device realizes the automatic identification of the transmission device existing in the network, automatically allocates the resources of the sub-collection device according to the network scale, improves the deployment efficiency, and greatly improves the efficiency of acquiring the traffic data.

Optionally, in the embodiment of the present invention, the implementation manner of determining the number of sub-collection devices by using timestamp information is as follows:

First, the master acquisition device will acquire the time delay of each transmitting device, and the time delay of each transmitting device can be obtained by the following formula:

Time Delay = Timestamp when the primary acquisition device received the data packet - the timestamp when the transmitting device sent the data packet.

Then, according to the above calculation manner, the time delay of each transmitting device is obtained, and then the average time delay of the transmitting device is obtained according to the time delay of each transmitting device, and the formula for obtaining the average time delay is as follows:

Average time delay = sum of time delays per transmitting device / total number of transmitting devices;

Finally, after the master acquisition device obtains an average time delay, the number of sub-collection devices will be determined based on the average delay.

Optionally, in an implementation manner of this embodiment, determining the number of sub-collection devices The formula is as follows:

The number of sub-collectors = acquisition efficiency required time * sub-collection device concurrency / average time delay.

The collection efficiency requirement time may be a preset value in the main collection device, and the sub-collection device concurrent number is used to indicate that the sub-collection device allows the maximum number of concurrent resources.

After the total number of the sub-collection devices determined by the main collection device, the main collection device will allocate a corresponding transmission device for each sub-collection device, as shown in FIG. 3, which is another method for obtaining traffic data according to an embodiment of the present invention. A schematic diagram of a network architecture. The network structure between the main collection device 100, the sub-collection device 300, and the transmission device 200 is shown in FIG. 3. The sub-collection device 300 will obtain the IP address, user name, and password according to the transmission device 200. The sub-collection device 300 manages the traffic data of the lower transmission device 200. Of course, each of the sub-collection devices 300 can acquire the traffic data of the transmission device 200 under its management in the manner described above.

After the sub-collection device acquires the traffic data, the sub-collection device transmits the traffic data to the main collection device, so that the main collection device performs analysis according to the acquired traffic data.

In the embodiment of the present invention, the main collection device can automatically identify the network scale and the time delay of the transmission device, allocate network resources according to the time delay, reduce the deployment of the operation and maintenance personnel, and obtain the allocation to the sub-collection device through the sub-collection device. The traffic data on the transmitting device can greatly improve the adaptability of the main collecting device and the efficiency of collecting the traffic data.

Optionally, in the embodiment of the present invention, in order to determine the total number of sub-collection devices more accurately, the main collection device may also determine a theoretical average time delay, and the theoretical average time delay may be obtained by the following formula:

Theoretical average time delay = acquisition efficiency required time * number of sub-collection devices concurrent / sub-collection device allocation network element.

Here, the sub-collection device allocates the number of network elements to the total number of transmission devices managed by each sub-collection device.

After obtaining the theoretical average time delay, the main acquisition device compares the obtained average time delay with the theoretical average time delay. If the difference between the theoretical average time delay and the average time delay is greater than a preset threshold, then the master The acquisition device will reduce the transmission assigned by the sub-collection device The device ensures that the sub-collection device can acquire the traffic data of the transmitting device with high efficiency.

In summary, in the embodiment of the present invention, the main collection device can automatically identify the network scale and the time delay of the transmission device, allocate network resources according to the time delay, reduce the deployment of the operation and maintenance personnel, and obtain the traffic data through the sub-collection device. It can greatly improve the adaptability of the main acquisition device and the efficiency of collecting flow data.

Optionally, in the embodiment of the present invention, the execution entity of the method for acquiring the traffic data may also be a sub-collection device, that is, after the sub-collection device directly obtains the identification information of the transmission device, the sub-collection device will be based on the identifier. The information is acquired to the traffic data on the corresponding transmitting device, and then the acquired traffic data is sent to the primary collecting device.

The device for obtaining traffic data according to the embodiment of the present invention further provides an apparatus for acquiring traffic data, as shown in FIG. 4, which is a structure of an apparatus for acquiring traffic data according to an embodiment of the present invention. The apparatus 200 for acquiring traffic data provided in this embodiment may include: an obtaining module 210 and a receiving module 220.

The obtaining module 210 is configured to: obtain identification information of each transmitting device, where each identifier information is carried in a data packet broadcast by the corresponding transmitting device, and each identifier information is information used to identify the corresponding transmitting device;

The receiving module 220 is configured to receive the traffic data on each transmitting device according to each identification information acquired by the obtaining module 210.

Optionally, as shown in FIG. 5, it is a schematic structural diagram of another apparatus for acquiring traffic data according to an embodiment of the present invention. On the basis of the structure of the apparatus shown in FIG. 4, the receiving module 220 in this embodiment may include:

The obtaining unit 221 is configured to: obtain identification information and timestamp information in each data packet;

The determining unit 222 is configured to: determine the total number of the transmitting devices according to the identification information acquired by the obtaining unit 221, and determine the number of the sub-collection devices by using the timestamp information acquired by the obtaining unit 221;

The allocating unit 223 is configured to: allocate a transmitting device for each sub-collecting device according to the total number of transmitting devices determined by the determining unit 222 and the number of sub-collection devices;

The transmitting unit 224 is configured to: allocate the allocation unit 223 to the transmission setting of each sub-collection device The provided identification information is sent to the sub-collecting device, so that each sub-collecting device acquires the traffic data on the transmitting device allocated to the sub-collecting device according to the received identification information;

The receiving unit 225 is configured to: receive the traffic data sent by each of the sub-collecting devices, wherein the traffic data is data acquired by each sub-collecting device in a transmitting device allocated to the sub-collecting device.

Optionally, in the embodiment of the present invention, the determining unit 222 is configured to: acquire a time delay of each transmitting device, acquire an average time delay of the transmitting device according to a time delay of each transmitting device, and determine according to the average time delay. The number of sub-collection devices; wherein, the time delay is the difference between the time stamp when the data packet is received and the time stamp in the data packet, and the average time delay is the ratio of the sum of the time delays of all the transmitting devices to the total number of transmitting devices .

Optionally, in the embodiment of the present invention, the determining unit is configured to determine, according to the average time delay, the number of the sub-collection devices: obtaining an acquisition efficiency requirement time and a sub-collection device concurrent number, where the sub-collection The number of concurrent uses is used to indicate the maximum number of concurrent resources allowed by the sub-collection device; the ratio of the product of the acquisition efficiency requirement time to the number of concurrent times of the sub-collection device and the average time delay is determined as the number of sub-collection devices.

In the embodiment of the present invention, a method for obtaining traffic data is also provided. As shown in FIG. 6 , which is a flowchart of another method for acquiring traffic data according to an embodiment of the present invention, the obtained traffic is provided in this embodiment. The method of data may include the following steps, namely, S301 to S303:

S301. Obtain identification information of the transmitting device, where the identifier information is used to identify the transmitting device.

S302. Generate a data packet that includes the identifier information and timestamp information.

S303. Broadcast the generated data packet, so that the data collection device that listens to the data packet acquires the identification information, and acquires the traffic data on the transmission device according to the identification information.

In the embodiment of the present invention, the foregoing method may be applied to a transmitting device, where the transmitting device acquires its own identification information, for example, obtains an IP address, etc. before broadcasting the data packet. The identification information herein may cause the main collection device to acquire flow data on the transmitting device according to the identification information.

Optionally, in the embodiment of the present invention, the transmitting device adds its own identification information to the data packet, and information such as a message type, a user name, and a password may also be added in the data packet.

Optionally, in the embodiment of the present invention, when the transmitting device broadcasts data, the transmitting device determines the current time, obtains timestamp information, and adds the timestamp information to the data. The timestamp information here is used by the primary acquisition device to configure the sub-collection device.

Optionally, in the embodiment of the present invention, after the transmitting device broadcasts the data packet, the main collecting device may directly obtain the traffic data by using the identification information in the data packet to the transmitting device, or may be configured by the main collecting device. The collecting device obtains the traffic data on the transmitting device according to the identifier information, and the implementation manner of acquiring the traffic data is not limited in the embodiment of the present invention.

The embodiment of the present invention further provides a transmission device, as shown in FIG. 7 , which is a schematic structural diagram of a transmission device according to an embodiment of the present invention. The transmitting device 400 may include a receiving module 410, a generating module 420, and a broadcasting module 430.

The obtaining module 410 is configured to: obtain identification information of the transmitting device, where the identifier information is used to identify the transmitting device;

The generating module 420 is configured to: generate a data packet that includes the timestamp information and the identifier information acquired by the obtaining module 410;

The broadcast module 430 is configured to: the data packet generated by the broadcast generation module 420, so that the data collection device that listens to the data packet can acquire the identification information, and acquire the traffic data on the transmission device according to the identification information.

One of ordinary skill in the art will appreciate that all or a portion of the steps of the above-described embodiments can be implemented using a computer program flow, which can be stored in a computer readable storage medium on a corresponding hardware platform (according to The system, device, device, device, etc. are executed, and when executed, include one or a combination of the steps of the method embodiments.

Alternatively, all or part of the steps of the above embodiments may also be implemented by using an integrated circuit. These steps may be separately fabricated into individual integrated circuit modules, or multiple modules or steps may be fabricated into a single integrated circuit module. achieve.

The devices/function modules/functional units in the above embodiments may be implemented by a general-purpose computing device, which may be centralized on a single computing device or distributed over a network of multiple computing devices.

When the device/function module/functional unit in the above embodiment is implemented in the form of a software function module and sold or used as a stand-alone product, it can be stored in a computer readable storage medium. The above mentioned computer readable storage medium may be a read only memory, a magnetic disk or an optical disk or the like.

Industrial applicability

The embodiment of the present invention acquires the traffic information on each of the transmitting devices according to the identification information of each of the transmitting devices, wherein each of the identification information is carried in a data packet broadcast by the corresponding transmitting device, and Each of the identification information is information for identifying the corresponding transmission device. The method provided by the embodiment can automatically identify the network size and the time delay of the transmission device, and allocate network resources according to the time delay, thereby reducing deployment of the operation and maintenance personnel. Working, and obtaining traffic data through the sub-collection device can greatly improve the adaptability of the main acquisition device and the efficiency of collecting the flow data.

Claims (11)

1. A method of obtaining traffic data, including:

   Obtaining identification information of each transmitting device, where each of the identification information is carried in a data packet broadcast by the corresponding transmitting device, and each of the identification information is information for identifying a corresponding transmitting device;

   According to each of the identification information, traffic data on each of the transmitting devices is acquired.
2. The method according to claim 1, wherein the method is applied to a sub-collection device connected to the main collection device, and the obtaining the identification information of each transmission device comprises:

   Receiving, by the primary collection device, the identification information that is extracted and sent after the data packet is monitored;

   The method further includes:

   The acquired traffic data on each of the transmitting devices is transmitted to the primary collecting device.
3. The method according to claim 1, wherein the method is applied to a main collection device connected to at least one sub-collection device, and the flow data on each of the transfer devices is acquired according to each of the identification information, include:

   Obtain identification information and timestamp information in each data packet;

   Determining, according to the acquired identification information, the total number of the transmission devices, and determining the number of the sub-collection devices by using the acquired timestamp information;

   Allocating a transfer device for each of the sub-collection devices according to the total number of the transfer devices and the number of the sub-collection devices;

   Sending identification information of the transmitting device allocated to each of the sub-collecting devices to the sub-collecting device, so that each of the sub-collecting devices acquires flow data on the transmitting device assigned to the sub-collecting device according to the received identification information. ;

   Receiving traffic data transmitted by each of the sub-collection devices, wherein the traffic data is data acquired by each of the sub-collection devices in a transmission device allocated to the sub-collection device.
4. The method according to claim 3, wherein the determining the number of the sub-collection devices by the acquired time stamp information comprises:

   Acquiring a time delay of each of the transmitting devices, wherein the time delay is a difference between a timestamp when the data packet is received and a timestamp in the data packet;

   Acquiring an average time delay of the transmitting device according to a time delay of each of the transmitting devices, wherein the average time delay is a ratio of a sum of time delays of all transmitting devices to a total number of the transmitting devices;

   The number of the sub-collection devices is determined based on the average time delay.
5. The method of claim 4, wherein the determining the number of the sub-collection devices based on the average time delay comprises:

   Obtaining an acquisition efficiency requirement time and a number of concurrent acquisition devices, wherein the sub-collection concurrent number is used to indicate that the sub-collection device allows a maximum number of concurrent resources;

   The ratio of the product of the collection efficiency requirement time and the number of concurrent times of the sub-collection device to the average time delay is determined as the number of the sub-collection devices.
6. A device for obtaining traffic data, comprising:

   The obtaining module is configured to: obtain identification information of each transmitting device, where each of the identifier information is carried in a data packet broadcast by the corresponding transmitting device, and each of the identifier information is information used to identify the corresponding transmitting device ;

   The receiving module is configured to: obtain, according to each of the identification information acquired by the acquiring module, traffic data on each of the transmitting devices.
7. The apparatus according to claim 6, wherein the receiving module comprises:

   The obtaining unit is configured to: obtain identification information and timestamp information in each data packet;

   a determining unit, configured to: determine a total number of the transmitting devices according to the identifier information acquired by the acquiring unit, and determine, by using the timestamp information acquired by the acquiring unit, the number of the sub-collection devices;

   a distribution unit, configured to: allocate a transmission device for each of the sub-collection devices according to the total number of the transmission devices determined by the determining unit and the number of the sub-collection devices;

   a sending unit, configured to: send identification information of the transmitting device assigned to each of the sub-collection devices to the sub-collecting device, so that each of the sub-collecting devices receives the The identification information is obtained on the transmission device allocated to the sub-collection device;

   The receiving unit is configured to: receive traffic data sent by each of the sub-collection devices, wherein the traffic data is data acquired by each of the sub-collection devices in a transmission device allocated to the sub-collection device.
8. The apparatus according to claim 7, wherein the determining unit is configured to: acquire a time delay of each of the transmitting devices, and acquire an average time delay of the transmitting device according to a time delay of each of the transmitting devices Determining, according to the average time delay, the number of the sub-collection devices; wherein the time delay is a difference between a timestamp when the data packet is received and a timestamp in the data packet, where the average time delay is The ratio of the sum of the time delays of all transmitting devices to the total number of transmitting devices.
9. The apparatus according to claim 8, wherein the determining unit is configured to determine the number of the sub-collection devices according to the average time delay, including:

   Obtaining an acquisition efficiency requirement time and a number of concurrent acquisition devices, wherein the sub-collection concurrent number is used to indicate that the sub-collection device allows a maximum number of concurrent resources; and the product of the collection efficiency requirement time and the sub-collection device concurrent number is obtained. The ratio to the average time delay is determined as the number of sub-collection devices.
10. A method of obtaining traffic data, including:

    Obtaining identification information of the transmitting device, where the identifier information is used to identify the transmitting device;

    Generating a data packet including the identification information and time stamp information;

    Broadcasting the generated data packet, so that the data collection device that listens to the data packet acquires the identification information, and acquires traffic data on the transmission device according to the identification information.
11. A transfer device comprising:

    An acquiring module, configured to: obtain identification information of the transmitting device, where the identifier information is used to identify the transmitting device;

    a generating module, configured to: generate a data packet that includes timestamp information and identifier information acquired by the acquiring module;

    a broadcast module, configured to: broadcast the data packet generated by the generating module, so that the data collecting device that listens to the data packet acquires the identifier information, and acquires traffic on the transmitting device according to the identifier information data.

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