CN115243290B - Network acceleration method applied to network acceleration system - Google Patents

Abstract

The invention provides a 5G communication module network acceleration system and a method, wherein a transmission device for sending data to be transmitted, a target device for receiving the data to be transmitted and a cooperative transmission device for accelerating transmission are arranged, the cooperative transmission device comprises a wifi communication module or a wired communication module, the wifi communication module or the wired communication module is connected to a gateway device which is in the same network section with the transmission device, the transmission device and the cooperative transmission device are connected to the Internet through an optical fiber broadband network provided by the gateway device to establish communication connection with the target device, the cooperative transmission device further comprises a 5G communication module, and the 5G communication module is connected to the 5G network to accelerate the transmission of the data to be transmitted, so that the system has the characteristic of stable data transmission speed and can realize high-efficiency data transmission.

Description

Network acceleration method applied to network acceleration system

Technical Field

The invention relates to the technical field of communication, in particular to a network acceleration method applied to a network acceleration system.

Background

With the development and popularization of computer technology, internet technology and mobile communication technology, computers and smart phones have become indispensable electronic devices in daily life and work of people. In the daily use process, a large amount of data is generated by a computer or a smart phone, wherein the data comprises important data which needs to be reserved for a long time by a user, such as various work documents as electronic documents, electronic forms, design drawings and the like, and work or life related multimedia files such as photos, music, videos and the like. As the price of the large-sized easy data storage device is increasingly more and more popular, the data storage size of an ordinary household has reached the TB (Terabyte) level, and the storage size of commercial data, particularly commercial data of multimedia class and game class, and the storage size of industrial data have broken through the PB (Petabytes) level. The data transmission between two devices connected with the internet is a high-frequency requirement in daily life and work, but due to the limitation of transmission speed, a small amount of data can be transmitted only through the internet, and for data above the TB level, the most efficient data transmission means is still physical transportation at present, namely, the hard disk body filled with the data is transported to the position of the target device. The factors restricting data transmission are mainly network bandwidth and network delay, for example, a kilomega network which is popular at present, the theoretical peak transmission speed can reach 125MB/s (Megabytes per second ), the transmission of 1TB data theoretically takes 140 minutes, which is close to two half hours, the actual transmission speed often has very large fluctuation due to unstable factors such as network delay, the average transmission speed has a very large difference from the peak transmission speed, and the data transmission efficiency is very low.

Disclosure of Invention

Based on the problems, the invention provides a 5G communication module network acceleration system and method, which have the characteristic of stable data transmission speed and can realize high-efficiency data transmission.

In view of this, a first aspect of the present invention proposes a 5G communication module-based network acceleration system, including a transmission device for sending data to be transmitted, a target device for receiving the data to be transmitted, and a cooperative transmission device for accelerating transmission, where the cooperative transmission device includes a wifi communication module or a wired communication module, and is connected to a gateway device in the same network segment as the transmission device through the wifi communication module or the wired communication module, and the transmission device and the cooperative transmission device are connected to the internet through an optical fiber broadband network provided by the gateway device to establish a communication connection with the target device, and further includes a 5G communication module, and is connected to a 5G network through the 5G communication module to accelerate transmission of the data to be transmitted.

Further, in the above network acceleration system, the network acceleration system further includes a 5G mobile terminal device under the same network segment of the transmission device, where the 5G mobile terminal device includes a wifi communication module, and is connected to a gateway device of the same network segment of the transmission device through the wifi communication module, and the cooperative transmission device is further configured to register the 5G mobile terminal device as an auxiliary transmission device, so that when the 5G mobile terminal device meets an acceleration condition, the 5G mobile terminal device is used to accelerate transmission of the data to be transmitted.

The second aspect of the invention provides a 5G communication module network acceleration method, which comprises the following steps:

acquiring an IP address of target equipment;

acquiring at least one broadband network transmission path based on an optical fiber broadband network from a transmission device to a target device;

detecting a delay of each node in the broadband network transmission path;

acquiring at least one first 5G network transmission path based on a 5G network from the cooperative transmission device to the target device;

detecting the delay of each node in the first 5G network transmission path;

when each broadband network transmission path comprises at least one node with delay exceeding a threshold value, temporarily taking over the transmission of data to be transmitted by using the first 5G network transmission path.

Further, in the above network acceleration method, after the step of temporarily taking over the transmission of the data to be transmitted using the first 5G network transmission path, the method further includes:

and when the delay of all nodes of at least one broadband network transmission path is lower than a threshold value, transmitting the data to be transmitted by using the broadband network transmission path.

Further, in the above network acceleration method, the method further includes:

registering the 5G mobile terminal device as an auxiliary transmission device;

determining the connection state of the 5G mobile terminal equipment;

when the 5G mobile terminal equipment and the transmission equipment are in the same network segment, determining whether the 5G mobile terminal equipment accords with an acceleration condition;

acquiring at least one second 5G network transmission path based on a 5G network from the 5G mobile terminal equipment to the target equipment;

detecting a delay of each node in the second 5G network transmission path;

and when each broadband network transmission path comprises at least one node with delay exceeding a threshold value, temporarily taking over the transmission of data to be transmitted by using the second 5G network transmission path.

Further, in the network acceleration method, the step of determining whether the 5G mobile terminal device meets an acceleration condition specifically includes:

determining whether delays of all nodes of at least one of the first 5G network transmission paths are below a threshold.

Further, in the network acceleration method, the step of determining whether the 5G mobile terminal device meets an acceleration condition specifically includes:

and judging whether the residual flow and/or the residual bandwidth of the 5G mobile terminal equipment are/is higher than a threshold value.

Further, in the above network acceleration method, after the step of determining whether the remaining traffic and/or the remaining bandwidth of the 5G mobile terminal device is higher than a threshold, the method further includes:

and registering the auxiliary acceleration state of the 5G mobile terminal equipment as an available state or an unavailable state according to the judging result.

Further, in the above network acceleration method, the method further includes:

when the data to be transmitted is transmitted through the broadband network transmission path, the cooperative transmission equipment receives the feedback information of the receiving result of each data packet sent by the transmission equipment and returned by the target equipment through the first 5G network transmission path.

Further, in the above network acceleration method, after the step of receiving, by the cooperative transmission device, the reception result feedback information of each data packet sent by the transmission device and returned by the target device through the first 5G network transmission path, the method further includes:

the cooperative transmission equipment acquires a data packet needing to be retransmitted from the transmission equipment according to the feedback information;

and sending the data packet to be retransmitted to the target equipment through the first 5G network transmission path.

The invention provides a 5G communication module network acceleration system and a method, wherein a transmission device for sending data to be transmitted, a target device for receiving the data to be transmitted and a cooperative transmission device for accelerating transmission are arranged, the cooperative transmission device comprises a wifi communication module or a wired communication module, the wifi communication module or the wired communication module is connected to a gateway device which is in the same network section with the transmission device, the transmission device and the cooperative transmission device are connected to the Internet through an optical fiber broadband network provided by the gateway device to establish communication connection with the target device, the cooperative transmission device further comprises a 5G communication module, and the 5G communication module is connected to the 5G network to accelerate the transmission of the data to be transmitted, so that the system has the characteristic of stable data transmission speed and can realize high-efficiency data transmission.

Drawings

FIG. 1 is a schematic block diagram of a 5G communication module based network acceleration system according to one embodiment of the present invention;

fig. 2 is a flowchart of a method for accelerating a network based on a 5G communication module according to an embodiment of the present invention.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced otherwise than as described herein, and therefore the scope of the present invention is not limited to the specific embodiments disclosed below.

In the description of the present invention, the term "plurality" means two or more, unless explicitly defined otherwise, the orientation or positional relationship indicated by the terms "upper", "lower", etc. are based on the orientation or positional relationship shown in the drawings, merely for convenience of description of the present invention and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. The terms "coupled," "mounted," "secured," and the like are to be construed broadly, and may be fixedly coupled, detachably coupled, or integrally connected, for example; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of this specification, the terms "one embodiment," "some implementations," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

A system and method for accelerating a network based on a 5G communication module according to some embodiments of the present invention are described below with reference to the accompanying drawings.

As shown in fig. 1, a first aspect of the present invention proposes a network acceleration system based on a 5G communication module, which includes a transmission device for sending data to be transmitted, a target device for receiving the data to be transmitted, and a cooperative transmission device for accelerating transmission, where the cooperative transmission device includes a wifi communication module or a wired communication module, and is connected to a gateway device in the same network segment as the transmission device through the wifi communication module or the wired communication module, and the transmission device and the cooperative transmission device are connected to the internet through an optical fiber broadband network provided by the gateway device to establish a communication connection with the target device, and further includes a 5G communication module, and is connected to the 5G network through the 5G communication module to accelerate transmission of the data to be transmitted. Preferably, as shown in fig. 1, the cooperative transmission device is connected to the gateway device through a wired network. The cooperative transmission device may be a dedicated transmission acceleration device integrated with the wired communication module and the 5G communication module, or may be a personal computer or a workstation integrated with the wired communication module and the 5G communication module, where the cooperative transmission device runs a network acceleration program to accelerate transmission of data to be transmitted when the transmission device in the same network segment performs data transmission. The same network segment as the transmission equipment refers to a subnet mask set according to the cooperative transmission equipment and the transmission equipment, and the internal IP addresses of the cooperative transmission equipment and the transmission equipment belong to the same subnet.

With continued reference to fig. 1, in the above network acceleration system, the network acceleration system further includes a 5G mobile terminal device under the same network segment of the transmission device, where the 5G mobile terminal device includes a wifi communication module, and is connected to a gateway device of the same network segment as the transmission device through the wifi communication module, and the cooperative transmission device is further configured to register the 5G mobile terminal device as an auxiliary transmission device, so that when the 5G mobile terminal device meets an acceleration condition, the 5G mobile terminal device is used to accelerate transmission of the data to be transmitted. In this embodiment, the cooperative transmission device accelerates a transmission process of the transmission device to transmit the data to be transmitted to the target device through the 5G mobile device. Specifically, the transmission device, the target device and the 5G mobile device are all provided with a data transmission program matched with the cooperative transmission device, and when the transmission device transmits the data to be transmitted to the target device through the data transmission program, the transmission device is connected with a 5G network through the cooperative transmission device and a 5G communication module of the 5G mobile terminal device so as to perform data acceleration transmission.

As shown in fig. 2, a second aspect of the present invention proposes a 5G-based communication module network acceleration method, which is applied to the above 5G-based communication module network acceleration system, and the method includes:

acquiring an IP address of target equipment;

acquiring at least one broadband network transmission path based on an optical fiber broadband network from a transmission device to a target device;

detecting a delay of each node in the broadband network transmission path;

acquiring at least one first 5G network transmission path based on a 5G network from the cooperative transmission device to the target device;

detecting the delay of each node in the first 5G network transmission path;

when each broadband network transmission path comprises at least one node with delay exceeding a threshold value, temporarily taking over the transmission of data to be transmitted by using the first 5G network transmission path.

In some embodiments of the present invention, the transmission device detects the delay condition of each node of at least one broadband network transmission path between the transmission device and the target device in real time, and sends the delay condition to the cooperative transmission device. In other embodiments of the present invention, the cooperative transmission device detects a delay condition of each node of at least one broadband network transmission path between the cooperative transmission device and the target device, and since the cooperative transmission device and the transmission device are in the same network segment, the cooperative transmission device detects that the broadband network transmission path between the cooperative transmission device and the target device is substantially the same as the broadband network transmission path between the transmission device and the target device, and by detecting that the cooperative transmission device detects the delay condition of the broadband network transmission path between the cooperative transmission device and the target device, the delay condition of the broadband network transmission path between the transmission device and the target device can be obtained. For example, depending on the system platform on which the transmission device and the cooperative transmission device operate, a tracert command or traceroute command may be used to detect the delay condition of each node of at least one broadband network transmission path between the transmission device and the target device in real time. Likewise, the cooperative transmission apparatus may also detect the delay condition of each node in the first 5G network transmission path in the above manner.

In the above embodiment, when the transmission device or the cooperative transmission device detects that a node with a delay time greater than a threshold exists in any one of the broadband network transmission paths, the transmission device takes over the transmission of the data to be transmitted through the first 5G network transmission path. The threshold is a delay time threshold preconfigured by the cooperative transmission apparatus, and preferably, the delay time threshold is a value between 30ms (millisecond) and 100 ms. Specifically, the step of temporarily taking over the transmission of the data to be transmitted by using the first 5G network transmission path specifically includes:

when each broadband network transmission path is detected to contain at least one node with delay exceeding a threshold value, the cooperative transmission equipment is enabled to establish communication connection with the target equipment through a 5G network;

after the cooperative transmission equipment and the target equipment are successfully connected in a communication way, a data acquisition instruction is sent to the transmission equipment, and a data packet to be transmitted is acquired from a data transmission queue of the transmission equipment;

and transmitting the data packet to be transmitted to the target equipment through the first 5G network transmission path.

Specifically, the peak transmission speed of the broadband network is set as

The transmission device is +/every moment>

The real-time speed of transmitting data to the target device is +.>

A boundary value is pre-configured>

The method meets the following conditions:

wherein the method comprises the steps of

Is boundary coefficient, its value range is preferably +.>

。

In the technical solution of the above embodiment, when

Detecting, by the cooperative transmission device or the transmission device, a delay condition of each node of at least one broadband network transmission path when the following condition is satisfied:

wherein the method comprises the steps of

For the current moment +.>

For a predetermined time interval, the value range is preferably +.>

Sheet (S)The bits are seconds.

When (when)

When the conditions are not met, the detection command is not sent, so that the situation that a large number of devices frequently send the detection command to cause broadcast storm on the broadband network transmission path, network delay is increased, and network blocking is caused is avoided.

Further, in the above network acceleration method, after the step of temporarily taking over the transmission of the data to be transmitted using the first 5G network transmission path, the method further includes:

and when the delay of all nodes of at least one broadband network transmission path is lower than a threshold value, transmitting the data to be transmitted by using the broadband network transmission path.

When the transmission device needs to transmit data to the target device through the broadband network, it confirms an optimal transmission path in the broadband network to perform data transmission, where the optimal transmission path is a transmission path with the lowest delay condition of each node between the transmission device and the target device in the broadband network. Specifically, in the technical solution of the present invention, a delay time threshold is set, for example, a delay time between 30ms and 100ms is taken as the delay time threshold, and the cooperative transmission device or the transmission device detects the delay time of each node of the broadband network transmission path, and when the delay time of all nodes of at least one of the broadband network transmission paths is lower than the delay time threshold, uses the broadband network transmission path to transmit the data to be transmitted to the target device.

Further, in the above network acceleration method, the method further includes:

registering the 5G mobile terminal device as an auxiliary transmission device;

determining the connection state of the 5G mobile terminal equipment;

when the 5G mobile terminal equipment and the transmission equipment are in the same network segment, determining whether the 5G mobile terminal equipment accords with an acceleration condition;

acquiring at least one second 5G network transmission path based on a 5G network from the 5G mobile terminal equipment to the target equipment;

detecting a delay of each node in the second 5G network transmission path;

and when each broadband network transmission path comprises at least one node with delay exceeding a threshold value, temporarily taking over the transmission of data to be transmitted by using the second 5G network transmission path.

In the technical solution of the foregoing embodiment, the idle bandwidth of the 5G mobile terminal device in the same network segment is used as an assist to accelerate data transmission of the transmission device, so that when a plurality of transmission devices perform data transmission in the same network segment, the pressure of the cooperative transmission device is reduced, and the acceleration effect is improved.

Further, in the network acceleration method, the step of determining whether the 5G mobile terminal device meets an acceleration condition specifically includes:

determining whether delays of all nodes of at least one of the first 5G network transmission paths are below a threshold.

Further, in the network acceleration method, the step of determining whether the 5G mobile terminal device meets an acceleration condition specifically includes:

and judging whether the residual flow and/or the residual bandwidth of the 5G mobile terminal equipment are/is higher than a threshold value.

Further, in the above network acceleration method, after the step of determining whether the remaining traffic and/or the remaining bandwidth of the 5G mobile terminal device is higher than a threshold, the method further includes:

and registering the auxiliary acceleration state of the 5G mobile terminal equipment as an available state or an unavailable state according to the judging result.

Further, in the above network acceleration method, the method further includes:

when the data to be transmitted is transmitted through the broadband network transmission path, the cooperative transmission equipment receives the feedback information of the receiving result of each data packet sent by the transmission equipment and returned by the target equipment through the first 5G network transmission path.

Further, in the above network acceleration method, after the step of receiving, by the cooperative transmission device, the reception result feedback information of each data packet sent by the transmission device and returned by the target device through the first 5G network transmission path, the method further includes:

the cooperative transmission equipment acquires a data packet needing to be retransmitted from the transmission equipment according to the feedback information;

and sending the data packet to be retransmitted to the target equipment through the first 5G network transmission path.

In the technical solution of the foregoing embodiment, the transmitting device only needs to send a data packet to the target device through the broadband network transmission path according to a preset transmission rate, and does not need to send a subsequent data packet after receiving feedback information of the target device, so that when a delay condition of the broadband network transmission path is good, the transmitting device can transmit the data to be transmitted to the target device at a higher rate. The cooperative transmission equipment determines the packet loss condition of a data packet sent by the transmission equipment to the target equipment through the broadband network transmission path according to the feedback information sent by the target equipment, and calculates the actual transmission speed of the transmission equipment for transmitting data to the target equipment through the broadband network transmission path according to the packet loss condition

. Specifically, when the transmission device transmits a data packet to the target device through the broadband network transmission path, the target device does not receive the data packet within a preset time, for example, a time interval threshold value in a range of 500ms to 1000ms is set, when a data packet is transmitted from the transmission device and a time period equal to the time interval threshold value is elapsed, the target device does not receive the data packet, determines the data packet as a lost data packet, and sets a number that the transmission device has transmitted the time to the target device exceeding the time interval threshold valueThe number of packets is +.>

The target device has currently received +.>

A data packet, wherein the->

The data packets do not contain data packets whose transmission time does not exceed said time interval threshold but whose reception has been completed by said target device, i.e. the +.>

The data packet is the ∈>

A subset of the individual data packets, the number of lost packets by the current time is +.>

The transmission device transmits the actual transmission speed of the data to the target device through the broadband network transmission path:

wherein the method comprises the steps of

Is->

The size of the data packet whose transmission time exceeds said time interval threshold value is +.>

Is->

The size of the data packets whose transmission times currently have been received by the target device exceed the time interval threshold,

and sending the first data packet to the transmission device at the current time interval.

In the above embodiment, when the transmission device transmits the actual transmission speed of the data to the target device through the broadband network transmission path

The method meets the following conditions:

detecting, by the cooperative transmission device or the transmission device, a delay condition of each node of at least one broadband network transmission path, so as to determine whether to temporarily take over transmission of data to be transmitted by using the first 5G network transmission path or the second 5G network transmission path, or transmit a lost data packet through the first 5G network transmission path or the second 5G network transmission path.

The invention provides a 5G communication module network acceleration system and a method, wherein a transmission device for sending data to be transmitted, a target device for receiving the data to be transmitted and a cooperative transmission device for accelerating transmission are arranged, the cooperative transmission device comprises a wifi communication module or a wired communication module, the wifi communication module or the wired communication module is connected to a gateway device which is in the same network section with the transmission device, the transmission device and the cooperative transmission device are connected to the Internet through an optical fiber broadband network provided by the gateway device to establish communication connection with the target device, the cooperative transmission device further comprises a 5G communication module, and the 5G communication module is connected to the 5G network to accelerate the transmission of the data to be transmitted, so that the system has the characteristic of stable data transmission speed and can realize high-efficiency data transmission.

It should be noted that in this document relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Embodiments in accordance with the present invention, as described above, are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention and various modifications as are suited to the particular use contemplated. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (8)

1. A network acceleration method applied to a network acceleration system, wherein the network acceleration system includes a transmission device for transmitting data to be transmitted, a target device for receiving the data to be transmitted, and a cooperative transmission device for accelerating transmission, the cooperative transmission device includes a wifi communication module or a wired communication module, the wifi communication module or the wired communication module is connected to a gateway device in the same network segment as the transmission device, the transmission device and the cooperative transmission device are connected to the internet through an optical fiber broadband network provided by the gateway device to establish a communication connection with the target device, the cooperative transmission device further includes a 5G communication module, and the 5G communication module is connected to a 5G network to accelerate transmission of the data to be transmitted, the method includes:

the cooperative transmission equipment acquires an IP address of target equipment;

the cooperative transmission equipment acquires at least one broadband network transmission path from the transmission equipment to the target equipment based on the optical fiber broadband network;

the cooperative transmission equipment detects the delay of each node in the broadband network transmission path;

the cooperative transmission device acquires at least one first 5G network transmission path based on a 5G network from the cooperative transmission device to the target device;

the cooperative transmission equipment detects the delay of each node in the first 5G network transmission path;

when each broadband network transmission path comprises at least one node with delay exceeding a threshold value, the cooperative transmission equipment uses the first 5G network transmission path to temporarily take over the transmission of data to be transmitted;

the method further comprises the step of pre-configuring a boundary value by the cooperative transmission device

The method meets the following conditions:

，

wherein the method comprises the steps of

For the peak transmission speed of the broadband network, < >>

For each moment of the transmission device +.>

Real-time speed of data transmission to the target device,/->

Is a boundary coefficient;

when (when)

The cooperative transmission device detects a delay condition of each node of at least one broadband network transmission path when the following conditions are satisfied:

,

wherein the method comprises the steps of

For the current moment +.>

Is a preset time interval;

when (when)

When the conditions are not met, a detection instruction is not sent;

the step of temporarily taking over the transmission of the data to be transmitted by using the first 5G network transmission path specifically includes:

when each broadband network transmission path is detected to contain at least one node with delay exceeding a threshold value, the cooperative transmission equipment is enabled to establish communication connection with the target equipment through a 5G network;

after the cooperative transmission equipment and the target equipment are successfully connected in a communication way, a data acquisition instruction is sent to the transmission equipment, and a data packet to be transmitted is acquired from a data transmission queue of the transmission equipment;

and transmitting the data packet to be transmitted to the target equipment through the first 5G network transmission path.

2. The network acceleration method of claim 1, further comprising, after the step of temporarily taking over the transmission of the data to be transmitted using the first 5G network transmission path:

and when the delay of all nodes of at least one broadband network transmission path is lower than a threshold value, transmitting the data to be transmitted by using the broadband network transmission path.

3. The network acceleration method of claim 1, wherein the network acceleration system further comprises a 5G mobile terminal device under the same network segment of the transmission device, the 5G mobile terminal device comprising a wifi communication module, and the network acceleration system is connected to a gateway device of the same network segment as the transmission device through the wifi communication module, and the method further comprises:

registering the 5G mobile terminal device as an auxiliary transmission device;

determining the connection state of the 5G mobile terminal equipment;

when the 5G mobile terminal equipment and the transmission equipment are in the same network segment, determining whether the 5G mobile terminal equipment accords with an acceleration condition;

acquiring at least one second 5G network transmission path based on a 5G network from the 5G mobile terminal equipment to the target equipment;

detecting a delay of each node in the second 5G network transmission path;

and when each broadband network transmission path comprises at least one node with delay exceeding a threshold value, temporarily taking over the transmission of data to be transmitted by using the second 5G network transmission path.

4. The network acceleration method of claim 3, wherein the step of determining whether the 5G mobile terminal device meets an acceleration condition specifically comprises:

determining whether delays of all nodes of at least one of the first 5G network transmission paths are below a threshold.

5. The network acceleration method of claim 3, wherein the step of determining whether the 5G mobile terminal device meets an acceleration condition specifically comprises:

and judging whether the residual flow and/or the residual bandwidth of the 5G mobile terminal equipment are/is higher than a threshold value.

6. The network acceleration method according to claim 5, characterized in, that after the step of determining whether the residual traffic and/or residual bandwidth of the 5G mobile terminal device is above a threshold, further comprising:

and registering the auxiliary acceleration state of the 5G mobile terminal equipment as an available state or an unavailable state according to the judging result.

7. The network acceleration method of any one of the claims 2 to 6, further comprising:

when the data to be transmitted is transmitted through the broadband network transmission path, the cooperative transmission equipment receives the feedback information of the receiving result of each data packet sent by the transmission equipment and returned by the target equipment through the first 5G network transmission path.

8. The network acceleration method of claim 7, further comprising, after the step of receiving, by the cooperative transmission device via the first 5G network transmission path, reception result feedback information of each data packet sent by the transmission device and returned by the target device:

the cooperative transmission equipment acquires a data packet needing to be retransmitted from the transmission equipment according to the feedback information;

and sending the data packet to be retransmitted to the target equipment through the first 5G network transmission path.

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