CN114867064A - Aggregation communication system and method - Google Patents

Abstract

The invention discloses a method and a system for aggregated communication, which comprises the following steps: a terminal, a router, a broadband network, a cellular network, a server and a destination server; the terminal is connected with the router and used for sending the data packet to the router; the router is connected with the broadband network and the cellular network and used for splitting the data packet and distributing a specified IP address to obtain a data sub-packet, detecting the operation states of the broadband network and the cellular network and distributing and sending the data sub-packet to the broadband network and the cellular network in good operation states; the broadband network and the cellular network are connected with the plurality of servers and are used for receiving the data sub-packets sent by the router in a shunting way and sending the data sub-packets to the servers where the designated IP addresses are located; the invention can realize high-quality information transmission through a multi-path network.

Description

Aggregation communication system and method

Technical Field

The present invention relates to the field of communications, and in particular, to an aggregation communication system and method.

Background

In the current mobile payment scene, the cash register device needs to have reliable network connection, and a network fault always exists in a single broadband network or a 4G/5G network, so that network interruption of business systems such as cash register and the like is caused.

Disclosure of Invention

The invention aims to provide an aggregation communication system and method, aiming at solving the problem of unreliable communication network connection.

The present invention provides an aggregated communication system, comprising,

a terminal, a router, a broadband network, a cellular network, a server and a destination server;

the terminal is connected with the router and used for sending the data packet to the router;

the router is connected with the broadband network and the cellular network, and is used for splitting the data packet and allocating a designated IP address to obtain the data packet, and detecting the operation states of the broadband network and the cellular network, wherein the operation states include: the method comprises the steps of analyzing and extracting a big data analysis state by using a signal strength RSSI, a signal receiving power RSRP, a signal receiving quality RSRQ, a signal interference noise SINR, a ping packet delay return value of a fixed IP and network operation data of a user, and shunting and sending data packets to a broadband network and a cellular network in a good operation state;

the broadband network and the cellular network are connected with the plurality of servers and are used for receiving the data sub-packets sent by the router in a shunting way and sending the data sub-packets to the server where the designated IP address is located;

the server is connected with the target server and used for receiving the data sub-packets sent by the broadband network and the cellular network, aggregating the data sub-packets into the data packets and sending the data packets to the target server;

and the destination server is used for receiving the data packet sent by the server to complete the communication between the terminal and the destination server.

The invention also provides an aggregation communication method, which comprises the following steps,

s61, sending the data packet to the router through the terminal;

s62, splitting the data packet and distributing the appointed IP address to obtain the data packet through the router, detecting the operation state of the broadband network and the cellular network, wherein the operation state comprises: the method comprises the steps of analyzing and extracting a big data analysis state by using a signal strength RSSI, a signal receiving power RSRP, a signal receiving quality RSRQ, a signal interference noise SINR, a ping packet delay return value of a fixed IP and network operation data of a user, and shunting and sending data packets to a broadband network and a cellular network in a good operation state;

s63, receiving the data sub-package distributed and sent by the router through the broadband network and the cellular network and sending the data sub-package to the server where the designated IP address is located;

s64, receiving data sub-packets sent by the broadband network and the cellular network through the server, aggregating the data sub-packets into the data packets, and sending the data packets to a destination server;

and S65, the destination server receives the data packet sent by the server to complete the communication between the terminal and the destination server.

By adopting the embodiment of the invention, high-quality information transmission can be realized through a multi-path network.

The above description is only an overview of the technical solutions of the present invention, and the present invention can be implemented in accordance with the content of the description so as to make the technical means of the present invention more clearly understood, and the above and other objects, features, and advantages of the present invention will be more clearly understood.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic diagram of an aggregated communication system of an embodiment of the present invention;

fig. 2 is a detailed schematic diagram of an aggregated communication system of an embodiment of the present invention;

fig. 3 is a schematic diagram of a router of an aggregated communication system of an embodiment of the present invention;

fig. 4 is a schematic device structure diagram of an aggregation communication system according to an embodiment of the present invention;

fig. 5 is a terminal-to-destination server communication flow diagram of an aggregated communication method of an embodiment of the present invention;

fig. 6 is a destination server to terminal communication flow diagram of an aggregated communication method of an embodiment of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

System embodiment

According to an embodiment of the present invention, an aggregation communication system is provided, and fig. 1 is a schematic diagram of the aggregation communication system according to the embodiment of the present invention, as shown in fig. 1, specifically including:

a terminal, a router, a broadband network, a cellular network, a server and a destination server;

the terminal is connected with the router and used for sending the data packet to the router;

the router is connected with the broadband network and the cellular network, and is used for splitting the data packet and allocating a designated IP address to obtain the data packet, and detecting the operation states of the broadband network and the cellular network, wherein the operation states include: the method comprises the steps of analyzing and extracting a big data analysis state by using a signal strength RSSI, a signal receiving power RSRP, a signal receiving quality RSRQ, a signal interference noise SINR, a ping packet delay return value of a fixed IP and network operation data of an existing user, and shunting and sending data packets to a broadband network and a cellular network in a good operation state;

the broadband network and the cellular network are connected with the plurality of servers and are used for receiving the data sub-packets sent by the router in a shunting way and sending the data sub-packets to the server where the designated IP address is located;

the server is connected with the target server and used for receiving the data sub-packets sent by the broadband network and the cellular network, aggregating the data sub-packets into the data packets and sending the data packets to the target server;

and the destination server is used for receiving the data packet sent by the server to complete the communication between the terminal and the destination server.

The router specifically includes: the WIFI module is connected with the terminal and used for receiving the data packet sent by the terminal and sending the data packet to the main control module;

the main control module is connected with the broadband module and the honeycomb module and used for receiving the data packets sent by the WIFI module, splitting the data packets, distributing designated IP addresses to obtain data sub-packets, distributing and sending the data sub-packets to the broadband module and the honeycomb module and detecting the running states of the broadband network and the honeycomb network;

the main control module is also used for aggregating the bandwidths of the cellular network card and the broadband module to obtain an aggregation module.

The broadband module is connected with the broadband network and used for receiving the data sub-package sent by the main control module and sending the data sub-package to the broadband network with good running state;

and the cellular module is connected with the cellular network and used for receiving the data sub-packets sent by the main control module and sending the data sub-packets to the cellular network in a good operation state.

The router also comprises a plurality of USB interfaces and a plurality of honeycomb network cards, the USB interfaces are connected with the main control module, the USB interfaces are connected with the honeycomb network cards, the honeycomb network cards are connected with the honeycomb network, the main control module sends data sub-packets to the honeycomb network cards through the USB interfaces, and the honeycomb network cards are used for sending the data sub-packets to the honeycomb network.

The system is further configured to:

the target server sends the data packet to the server;

the server splits the data packet and allocates a designated IP address to obtain a data sub-packet, detects the operating states of the broadband network and the cellular network, and transmits the data sub-packet to the broadband network and the cellular network in good operating states in a shunting manner;

the broadband network and the cellular network receive the data sub-packets sent by the server in a shunting way and send the data sub-packets to the router where the designated IP address is located;

the router receives data sub-packets sent by a broadband network and a cellular network, aggregates the data sub-packets into the data packets, and sends the data packets to the terminal;

and the terminal receives the data packet sent by the router to complete the communication between the destination server and the terminal.

The specific implementation method comprises the following steps:

fig. 2 is a detailed schematic diagram of an aggregated communication system according to an embodiment of the present invention, as shown in fig. 2;

the invention adopts the technical scheme that the broadband and the plurality of cellular networks are mutually prepared, and a user can only use broadband connection as a common router under the condition of not needing a high-reliability network; if a user needs reliable connection, the user can connect a broadband and insert a plurality of 4G USB Dongle peripherals, the 4G USB Dongle peripherals are cellular network cards, the equipment can be connected with a network through the 4G USB Dongle, and mutually equipped with the broadband network, and a plurality of 4G USB dongles can also be mutually equipped, and the broadband or 4GUSB Dongle with good network is selected for communication.

Fig. 3 is a schematic diagram of a router of an aggregated communication system, as shown in fig. 3, according to an embodiment of the present invention;

in addition, a plurality of 4G USB dongles and a broadband can be selected, and a network bandwidth is concurrent (for example, the broadband is 100Mbps, one 4G USB Dongle is 50Mbps, and if 3 4G USB dongles are connected, the total bandwidth is 100+50 × 3 — 250 Mbps).

The high-reliability aggregation router continuously detects the network conditions of wireless honeycomb and wired broadband, and sends the request of the terminal connection equipment to a specified server through splitting a network data packet and then through the network (honeycomb or broadband) after evaluation.

The network state is determined by several parameters:

1. and evaluating signal related parameters, including signal strength RSSI, signal received power RSRP, signal received quality RSRQ, signal interference noise SINR and the like.

2. And returning the value of ping packet delay aiming at a fixed IP.

3. And (4) based on the network big data evaluation of the geographic position, analyzing the network operation data of the existing user and extracting a big data analysis index.

After receiving the data message, the server performs splicing reduction and forwards the data message to a target server after the data message is reduced.

Fig. 4 is a schematic structural diagram of an apparatus of an aggregation communication system according to an embodiment of the present invention, as shown in fig. 4;

the bottom layer of the multi-path aggregation mode adopts a centralized directory type P2P mode, data packets are processed on a TCP/IP layer, target IP distributed by a server is recorded through a center, data are unpacked and distributed to a specified IP address, and services of the IP address are combined.

Each cellular 4G USB Dongle of the multi-path aggregation router is a Node (Node), the wired broadband is a Node, P2P communication is not carried out among a plurality of local nodes, and P2P communication is carried out between the Node and an IP designated by a server.

The method can make full use of network resources, and in the case of a single 4/5G cellular network or a broadband network, the problems of unstable signals and unstable network transmission caused by various limitations are solved by a multi-path aggregation method. And the network built in this mode is more reliable.

Method embodiment

According to an embodiment of the present invention, an aggregation communication system is provided, and fig. 5 is a communication flow diagram of a terminal to a destination server of an aggregation communication method according to an embodiment of the present invention, as shown in fig. 5, specifically including:

s61, sending the data packet to the router through the terminal;

s62, splitting the data packet and distributing the appointed IP address to obtain the data packet through the router, detecting the operation state of the broadband network and the cellular network, wherein the operation state comprises: the method comprises the steps of analyzing and extracting a big data analysis state by using a signal strength RSSI, a signal receiving power RSRP, a signal receiving quality RSRQ, a signal interference noise SINR, a ping packet delay return value of a fixed IP and network operation data of a user, and shunting and sending data packets to a broadband network and a cellular network in a good operation state;

s63, receiving the data sub-package distributed and sent by the router through the broadband network and the cellular network and sending the data sub-package to the server where the designated IP address is located;

s64, receiving data sub-packets sent by the broadband network and the cellular network through the server, aggregating the data sub-packets into the data packets, and sending the data packets to a destination server;

and S65, the destination server receives the data packet sent by the server to complete the communication between the terminal and the destination server.

S62 specifically includes: receiving a data packet sent by a terminal through a WIFI module and sending the data packet to a main control module;

receiving a data packet sent by the WIFI module through the main control module, splitting the data packet, distributing an appointed IP address to obtain a data sub-packet, distributing and sending the data sub-packet to the broadband module and the cellular module, and detecting the running states of the broadband network and the cellular network;

receiving the data sub-package sent by the main control module through the broadband module and sending the data sub-package to a broadband network with a good running state;

and receiving the data sub-package sent by the main control module through the cellular module and sending the data sub-package to the cellular network in a good operation state.

Receiving the data sub-packets sent by the master control module through the cellular module and sending the data sub-packets to the cellular network further comprises: and the plurality of cellular network cards transmit the data sub-packets to a cellular network.

Receive the data packet that the WIFI module sent and with the data packet split and assign appointed IP address and obtain the data packet through host system, detect the running state of broadband network and cellular network, divide the data packet to distribute and send to the good broadband network and the cellular network of running state and further include: the data packet sent by the WIFI module is received through the main control module, the data packet is split and assigned with an appointed IP address to obtain a data sub-packet, the operation states of the broadband network and the cellular network are detected, the bandwidths of the cellular network card and the broadband module are aggregated to obtain an aggregation module, and the data sub-packet is distributed and sent to the broadband network and the cellular network in good operation states through the aggregation module and the cellular module.

Fig. 6 is a destination server-to-terminal communication flow diagram of an aggregated communication method, as shown in fig. 6,

s71, sending the data packet to the server through the destination server;

s72, the data packet is split and assigned with a designated IP address by the server to obtain a data packet, and the operation states of the broadband network and the cellular network are detected, wherein the operation states include: the method comprises the steps of analyzing and extracting a big data analysis state by using a signal strength RSSI, a signal receiving power RSRP, a signal receiving quality RSRQ, a signal interference noise SINR, a ping packet delay return value of a fixed IP and network operation data of a user, and shunting and sending data packets to a broadband network and a cellular network in a good operation state;

s73, receiving the data sub-packets sent by the server by the broadband network and the cellular network and sending the data sub-packets to the router where the designated IP address is located;

s74, receiving data sub-packets sent by the broadband network and the cellular network through the router, aggregating the data sub-packets into the data packets, and sending the data packets to the terminal;

and S75, the destination server and the terminal are communicated by the terminal receiving the data packet sent by the router.

The embodiment of the present invention is a method embodiment corresponding to the system embodiment described above, and specific operations of each module may be understood with reference to the description of the method embodiment, which is not described herein again.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; however, these modifications or alternative technical solutions of the embodiments of the present invention do not depart from the scope of the present invention.

Claims (10)

1. An aggregated communication system, comprising,

a terminal, a router, a broadband network, a cellular network, a server and a destination server;

the terminal is connected with the router and used for sending the data packet to the router;

the router is connected with the broadband network and the cellular network, and is used for splitting the data packet and allocating a designated IP address to obtain the data packet, and detecting the operation states of the broadband network and the cellular network, wherein the operation states include: the method comprises the steps of analyzing and extracting a big data analysis state by using a signal strength RSSI, a signal receiving power RSRP, a signal receiving quality RSRQ, a signal interference noise SINR, a ping packet delay return value of a fixed IP and network operation data of a user, and shunting and sending data packets to a broadband network and a cellular network in a good operation state;

the broadband network and the cellular network are connected with the plurality of servers and are used for receiving the data sub-packets sent by the router in a shunting way and sending the data sub-packets to the server where the designated IP address is located;

the server is connected with the target server and used for receiving the data sub-packets sent by the broadband network and the cellular network, aggregating the data sub-packets into the data packets and sending the data packets to the target server;

and the destination server is used for receiving the data packet sent by the server to complete the communication between the terminal and the destination server.

2. The system of claim 1, wherein the router specifically comprises: the WIFI module is connected with the terminal and used for receiving the data packet sent by the terminal and sending the data packet to the main control module;

the main control module is connected with the broadband module and the honeycomb module and used for receiving the data packets sent by the WIFI module, splitting the data packets, distributing designated IP addresses to obtain data sub-packets, distributing and sending the data sub-packets to the broadband module and the honeycomb module and detecting the running states of the broadband network and the honeycomb network;

the broadband module is connected with the broadband network and used for receiving the data sub-package sent by the main control module and sending the data sub-package to the broadband network with good running state;

and the cellular module is connected with the cellular network and used for receiving the data sub-packets sent by the main control module and sending the data sub-packets to the cellular network in a good operation state.

3. The system of claim 2, wherein the router further comprises a plurality of USB interfaces and a plurality of cellular network cards, wherein the plurality of USB interfaces are connected to the main control module, the plurality of USB interfaces are connected to the plurality of cellular network cards, the plurality of cellular network cards are connected to the cellular network, the main control module sends the data packets to the plurality of cellular network cards through the plurality of USB interfaces, and the plurality of cellular network cards are configured to send the data packets to the cellular network.

4. The system of claim 3, wherein the main control module is further configured to aggregate bandwidths of the cellular network card and the broadband module to obtain an aggregation module.

5. The system of claim 4, wherein the system is further configured to:

the target server sends the data packet to the server;

the server splits the data packet and allocates a designated IP address to obtain a data sub-packet, detects the operating states of the broadband network and the cellular network, and transmits the data sub-packet to the broadband network and the cellular network in good operating states in a shunting manner;

the broadband network and the cellular network receive the data sub-packets distributed and sent by the server and send the data sub-packets to the router where the designated IP address is located;

the router receives data sub-packets sent by a broadband network and a cellular network, aggregates the data sub-packets into the data packets, and sends the data packets to the terminal;

and the terminal receives the data packet sent by the router to complete the communication between the destination server and the terminal.

6. An aggregated communication method, characterized in that the system according to any one of claims 1 to 5 comprises,

s61, sending the data packet to the router through the terminal;

s62, splitting the data packet and distributing the appointed IP address to obtain the data packet through the router, detecting the operation state of the broadband network and the cellular network, wherein the operation state comprises: the method comprises the steps of analyzing and extracting a big data analysis state by using a signal strength RSSI, a signal receiving power RSRP, a signal receiving quality RSRQ, a signal interference noise SINR, a ping packet delay return value of a fixed IP and network operation data of a user, and shunting and sending data packets to a broadband network and a cellular network in a good operation state;

s63, receiving the data sub-package distributed and sent by the router through the broadband network and the cellular network and sending the data sub-package to the server where the designated IP address is located;

s64, receiving data sub-packets sent by the broadband network and the cellular network through the server, aggregating the data sub-packets into the data packets, and sending the data packets to a destination server;

and S65, the destination server receives the data packet sent by the server to complete the communication between the terminal and the destination server.

7. The method according to claim 6, wherein the S62 specifically includes: receiving a data packet sent by a terminal through a WIFI module and sending the data packet to a main control module;

receiving a data packet sent by the WIFI module through the main control module, splitting the data packet, distributing an appointed IP address to obtain a data sub-packet, distributing and sending the data sub-packet to the broadband module and the cellular module, and detecting the running states of the broadband network and the cellular network;

receiving the data sub-package sent by the main control module through the broadband module and sending the data sub-package to a broadband network with a good running state;

and receiving the data sub-package sent by the main control module through the cellular module and sending the data sub-package to the cellular network in a good operation state.

8. The method of claim 7, wherein receiving, by the cellular module, the data sub-packets sent by the master control module and sending the data sub-packets to the cellular network further comprises: the main control module sends data to the USB interface, the USB interface sends data sub-packets to the plurality of cellular network cards, and the plurality of cellular network cards send the data sub-packets to the cellular network.

9. The method of claim 8, wherein the receiving, by the main control module, the data packet sent by the WIFI module, splitting the data packet and allocating a designated IP address to obtain a data sub-packet, detecting the operating states of the broadband network and the cellular network, and sending the data sub-packet to the broadband network and the cellular network in good operating states in a split-flow manner further comprises: the data packet sent by the WIFI module is received through the main control module, the data packet is split and assigned with an appointed IP address to obtain a data sub-packet, the operation states of the broadband network and the cellular network are detected, the bandwidths of the cellular network card and the broadband module are aggregated to obtain an aggregation module, and the data sub-packet is distributed and sent to the broadband network and the cellular network in good operation states through the aggregation module and the cellular module.

10. The method of claim 9, further comprising:

s71, sending the data packet to the server through the destination server;

s72, splitting the data packet through the server and distributing the appointed IP address to obtain a data sub-packet, detecting the operation state of the broadband network and the cellular network, and distributing and sending the data sub-packet to the broadband network and the cellular network with good operation state;

s73, receiving the data sub-packets sent by the server by the broadband network and the cellular network and sending the data sub-packets to the router where the designated IP address is located;

s74, receiving data sub-packets sent by the broadband network and the cellular network through the router, synthesizing the data sub-packets into the data packets, and sending the data packets to the terminal;

and S75, the destination server and the terminal are communicated by the terminal receiving the data packet sent by the router.

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