CN107104890B - Multi-network communication system - Google Patents

Abstract

The invention discloses a multi-network communication system.A smart internet gateway is added on a short-wave radio station, an ultra-short-wave radio station, a mobile terminal, an RFID reading device and other terminals and can be accessed to the internet, and other communication terminals such as the short-wave radio station, the ultra-short-wave radio station, the mobile terminal, an SIP terminal, a PSTN voice gateway and the like are also connected on the internet; based on the intelligent interconnection gateway, each communication terminal has the capabilities of voice information processing, analysis of voice information containing instructions, communication protocol conversion, voice information forwarding and the like, can realize information intercommunication among a short-wave radio station, an ultra-short-wave radio station, a mobile terminal and RFID reading equipment, and can also realize information intercommunication among the short-wave radio station, the ultra-short-wave radio station, a PSTN telephone, SIP terminal equipment, the mobile terminal, the RFID reading equipment and other communication terminals by combining the Internet, realize intercommunication among all communication networks, and solve the problem of unsmooth communication among all communication networks.

Description

Multi-network communication system

Technical Field

The invention belongs to the technical field of data communication, and particularly relates to a multi-network communication system.

Background

Short-wave radio stations, ultra-short wave radio stations, CDMA public network radio stations, mobile phone terminals, SIP terminal equipment, PSTN phones and other communication networks are used independently, and intercommunication cannot be realized.

Taking the application of the existing marine fishery as an example, each fishing boat is provided with a short-wave radio station, an ultra-short wave radio station, a CDMA public network radio station, a public network mobile phone and the like, when voice communication is to be completed, a communication mode used by an opposite party to be communicated with the fishing boat cannot be known in advance, only the communication mode used by the opposite party can be judged manually, and a communication request is initiated by selecting a mode corresponding to the communication mode; if the two fishing boats do not have a device capable of communicating with each other, the two fishing boats cannot even communicate with each other.

Disclosure of Invention

The application provides a multi-network communication system, which solves the technical problem of unsmooth communication among various communication networks.

In order to solve the technical problems, the application adopts the following technical scheme:

a multi-network communication system is provided, which comprises a short-wave radio station and an ultra-short-wave radio station; the short-wave radio station and the ultra-short-wave radio station are both connected with an intelligent interconnection gateway; the intelligent internet gateway comprises a voice transceiving module, a voice analyzing module and a voice instruction processing module; the voice transceiving module is used for receiving and sending voice information; the voice analysis module is used for analyzing the instruction information contained in the voice information from the received voice information; the voice command processing module is used for executing the conversion of the communication protocol and executing control based on the command information analyzed by the voice analysis module.

Further, the system further comprises an RFID reading device; the RFID reading equipment is connected with the intelligent internet gateway and used for reading the internet of things information contained in the RFID label and storing the internet of things information on the intelligent internet gateway connected with the intelligent internet gateway.

Further, the system also comprises a first mobile terminal; the first mobile terminal is connected with the intelligent internet gateway.

Furthermore, the intelligent internet gateway is accessed to the internet; the intelligent internet gateway also comprises an internet transceiving module; the internet transceiving module is used for receiving information sent by an intelligent internet gateway and/or other equipment terminals connected with the internet and sending the information to the intelligent internet gateway and/or other equipment terminals connected with the internet.

Further, the system also comprises a second mobile terminal; and the second mobile terminal accesses the Internet.

Further, the system also comprises an internet of things server; and the Internet of things server is accessed to the Internet and used for receiving and processing the Internet of things information from the intelligent Internet gateway based on the Internet.

Further, the system also comprises SIP terminal equipment and/or a PSTN voice gateway, wherein the SIP terminal equipment is accessed to the Internet; the PSTN voice gateway is connected with a PSTN telephone, and the PSTN voice gateway is accessed to the Internet.

Further, the system also comprises a computer terminal; and the computer terminal is accessed to the Internet.

Further, the system also comprises an intelligent interconnection server; and the intelligent interconnection server is accessed to the Internet and is used for managing an intelligent interconnection gateway connected with the Internet.

Further, the ultrashort wave radio station is connected with the intelligent interconnection gateway through an ultrashort wave repeater.

Compared with the prior art, the application has the advantages and positive effects that: in the multi-network communication system provided by the application, an intelligent internet gateway is added on communication terminals such as a short-wave radio station, an ultra-short-wave radio station, an RFID reading device and a mobile terminal, the intelligent internet gateway can be accessed to the internet, and the internet is also connected with other communication terminals such as the short-wave radio station, the ultra-short-wave radio station, the mobile terminal, an SIP terminal and a PSTN voice gateway; based on the intelligent interconnection gateway, each communication terminal has the capabilities of voice information processing, voice information analysis containing instructions, communication protocol conversion, voice information forwarding and the like, can realize information intercommunication among a short-wave radio station, an ultra-short-wave radio station, a mobile terminal and RFID reading equipment, is combined with the Internet, can also realize information intercommunication among the communication terminals of the short-wave radio station, the ultra-short-wave radio station, a PSTN telephone, SIP terminal equipment, the mobile terminal, the RFID reading equipment and the like, does not need to know the communicable type of a target terminal in advance for a user, can still realize information intercommunication even if the target terminal does not have a communication terminal of the same type as the communication terminal of the target terminal, and realizes transparent communication among the communication terminals; the RFID tag can be used for reading RFID tag information remotely, realizing appointed frequency point communication of private network radio stations, completing communication with radio stations incapable of communicating by using nearby radio stations, and the like, and the technical problem of unsmooth communication among various existing communication networks is solved.

Other features and advantages of the present application will become more apparent from the detailed description of the embodiments of the present application when taken in conjunction with the accompanying drawings.

Drawings

Fig. 1 is a system block diagram of a multi-network communication system as set forth herein;

fig. 2 is a functional architecture diagram of an intelligent internetworking gateway according to the present application;

fig. 3 is a system architecture diagram of a multi-network communication system according to an embodiment of the present application;

fig. 4 is a system architecture diagram of a multi-network communication system according to a second embodiment of the present application;

fig. 5 is a system architecture diagram of a multi-network communication system according to a third embodiment of the present application;

fig. 6 is a system architecture diagram of a multi-network communication system according to a fourth embodiment of the present application;

fig. 7 is a system architecture diagram of a multi-network communication system according to a fifth embodiment of the present application;

fig. 8 is a system architecture diagram of a multi-network communication system according to a sixth embodiment of the present application;

fig. 9 is a system architecture diagram of a multi-network communication system according to a seventh embodiment of the present application;

fig. 10 is a system architecture diagram of a multi-network communication system according to a ninth embodiment of the present application.

Detailed Description

The following describes embodiments of the present application in further detail with reference to the accompanying drawings.

As shown in fig. 1, the multi-network communication system proposed in the present application includes a short-wave radio station 11 and an ultra-short-wave radio station 12; the short-wave radio station 11 and the ultra-short-wave radio station 12 are both connected with the intelligent interconnection gateway 10. Wherein, shortwave radio station 11 and ultrashort wave radio station 12 can connect simultaneously with a platform intelligent internet gateway, also can connect different intelligent internet gateways respectively.

As shown in fig. 2, the intelligent internet gateway 10 herein includes a voice transceiving module 101, a voice parsing module 102 and a voice command processing module 103; the voice transceiving module 101 is used for receiving and sending voice information; the voice analyzing module 102 is configured to analyze instruction information included in the voice information from the received voice information; the voice command processing module 103 is configured to perform conversion of a communication protocol and perform control based on command information analyzed by the voice analysis module.

In the above-mentioned multi-network communication system, the intelligent internet gateway 10 is added to the short wave radio station 11 and the ultrashort wave radio station 12, and based on the intelligent internet gateway 10, each communication terminal has the capabilities of processing voice information, analyzing the voice information containing instructions, converting communication protocols, and forwarding the voice information, for example, after the short wave radio station a receives the information containing instructions and voice sent by the short wave radio station B, the intelligent internet gateway analyzes the contained instructions and voice based on the intelligent internet gateway, if the content contained in the instructions is that the voice communication is realized with the ultrashort wave radio station B, the intelligent internet gateway connected with the short wave radio station a selects an ultrashort wave communication link according to the content of the instructions, and forwards the analyzed voice to the ultrashort wave radio station B through the ultrashort wave radio station a connected with the intelligent internet gateway, thereby realizing the information intercommunication between the short wave radio station and the ultrashort wave radio station, and the user does not need to know the communicable type of the target terminal in advance, even if the target terminal does not have the communication terminal with the same type as the self communication terminal, the information intercommunication can be realized, and the transparent communication among the communication terminals is realized.

As shown in fig. 1, the system further comprises an RFID reading device 13; the RFID reading equipment 13 is connected with the intelligent internet gateway 10 and is used for reading the internet of things information contained in the RFID tag and storing the internet of things information on the intelligent internet gateway 10 connected with the RFID tag; for example, after the internet of things information of a certain device is read by an RFID reading device, the internet of things information is stored in an intelligent internet gateway A connected with the RFID reading device, after a short wave radio station B sends voice information containing a data request, the short wave radio station A connected with the intelligent internet gateway A receives the voice information sent by the short wave radio station B, the intelligent internet gateway A analyzes the data request from the voice information, the short wave radio station A connected with the intelligent internet gateway A is selected according to the data request to send out the stored internet of things information, and after the short wave radio station B receives the internet of things information, the internet of things information is stored in the intelligent internet gateway B connected with the intelligent internet gateway A; when the intelligent internet gateway B is accessed to the internet, the acquired information of the internet of things can be forwarded based on the internet so as to realize the processing of the information of the internet of things.

As shown in fig. 1, the system further comprises a first mobile terminal 14, such as a smart phone, a PAD, a mobile computer, etc.; the first mobile terminal 14 is also connected to the intelligent internet gateway 10. When the first mobile terminal 14 wants to contact with the communication terminals of other communication networks, the information sent by the first mobile terminal can be sent out through the short-wave radio station 11 or the ultrashort-wave radio station 12 based on the intelligent internet gateway 10 and received by the other short-wave radio stations or the ultrashort-wave radio stations, so that the first mobile terminal 14 communicates with the communication terminals of other communication networks such as the short-wave radio station or the ultrashort-wave radio station.

The intelligent internet gateway 10 may also access the internet, and forward the instruction and the voice information based on the internet, and at this time, the intelligent internet gateway further includes an internet transceiver module 104; the internet transceiver module 104 is used for receiving information sent by the intelligent internet gateway and/or other device terminals connected with the internet and sending information to the intelligent internet and/or other device terminals connected with the internet. Here, the other terminal devices are, for example, short-wave radio stations, ultra-short-wave radio stations, mobile terminals, RFID reading devices, SIP terminal devices, PSTN voice gateways, internet of things servers, intelligent internet servers, or computer terminals, etc.

In order to manage each intelligent internet gateway connected with the internet, the system further comprises an intelligent internet server 23 which is connected with the internet and comprises modules for control, voice exchange, authorization, network transceiving and the like, so that management control of the intelligent internet gateway is realized.

In order to realize the management of the information of the internet of things, the system further comprises an internet of things server 24, and the internet of things server can receive the information of the internet of things stored in other intelligent internet gateways based on the internet and collect, store and process the information of the internet of things.

Specifically, as shown in fig. 1, the other terminal devices connected to the internet include, for example, other short-wave radio stations 21 connected to an intelligent internet gateway accessing the internet, other ultra-short-wave radio stations 22, a second mobile terminal 25, a SIP (Session Initiation Protocol) terminal device 26, a PSTN voice gateway 27 and/or a computer terminal 28; the PSTN voice gateway 27 is connected with a PSTN telephone 271, and the PSTN voice gateway 27 is also connected with the Internet; the computer terminal 28 accesses the internet. After the other short-wave radio station 21 or the other ultrashort-wave radio station 22 receives the voice information sent by the short-wave radio station 11 or the ultrashort-wave radio station 12, the content contained in the voice information can be forwarded to the SIP terminal device 26, the PSTN voice gateway 27 and/or the computer terminal based on the intelligent internet gateway 10 and the internet, so that communication of different types of terminals is realized, and the communication is transparent to users.

Wherein, the ultrashort wave radio station can pass through the ultrashort wave repeater and connect on intelligent internet gateway.

The following describes in detail a multi-network communication system provided by the present application with specific embodiments, so as to achieve the technical effects of transparent intercommunication between various types of communication terminals, complementary application of various communication links, dedicated network agreed frequency point communication, dedicated network remote control, and the like.

Example one

The short-wave radio station system is used for realizing remote sending and receiving of internet of things information in the embodiment, and as shown in fig. 3, the system comprises an intelligent internet gateway 410, a short-wave radio station 421, an intelligent internet gateway 420, an intelligent internet server 423 and an internet of things server 424, wherein the intelligent internet gateway 410 is connected with an RFID reading device 413, the short-wave radio station 411, the RFID reading device 413 and the short-wave radio station 411, and the intelligent internet gateway 420 is connected with the short-wave.

The realization process is as follows: 1. the RFID reading device 413 reads the internet of things information on the RFID tag; 2. the RFID reading device 413 stores the read ship Internet of things information in the ship-borne intelligent Internet gateway 410; 3. the intelligent internet gateway 410 waits for inquiry or sends voice information containing the internet of things information through the short wave radio station 411 when a set time interval is reached; the waiting query specifically includes: the short wave radio station 421 sends voice information containing the information of the internet of things, the short wave radio station 411 sends the voice information to the intelligent internet gateway 410 after receiving the voice information, and the intelligent internet gateway 410 analyzes the request for the information of the internet of things from the voice information and controls the short wave radio station 411 to send the voice information containing the information of the internet of things to the short wave radio station 421; 4. after receiving the voice information containing the internet of things information, the short wave radio station 421 transmits the voice information to the intelligent internet gateway 420; 5. after parsing the internet of things information from the voice information, the intelligent internet gateway 420 stores or transmits the internet of things information to the intelligent internet server 423 or the internet of things server 424 through the internet.

In the prior art, only when the terminal provided with the RFID tag is in the effective reading range of the RFID reading device, the information in the RFID tag can be read by the RFID reading device, and the effective reading range is smaller, so that the distance for reading the information of the RFID tag is shorter.

Example two

The embodiment is used for realizing the communication between the mobile terminal and other communication terminals. As shown in fig. 4, the system comprises a first ultrashort wave radio station 5121, a first intelligent internet gateway 5101, a smart phone 513, a second ultrashort wave radio station 5122 and a second intelligent internet gateway 5102.

The realization process is as follows: 1. the smart phone 513 initiates a call request; the request includes the ID of the radio station 5122 (target communication terminal) and the ID of the radio station itself; 2. the first intelligent internet gateway 5101 allocates an ultrashort wave communication link according to the call request, and ensures that voice information sent by the smart phone 513 is sent out by the first ultrashort wave radio 5121; 3. the smart phone 513 sends out voice information, and the voice information is sent to the second ultrashort wave radio station 5122 by the first ultrashort wave radio station 5121 based on the ultrashort wave communication link allocated by the first intelligent internet gateway 5101; the first ultrashort wave radio station 5121 receives the voice information returned by the second ultrashort wave radio station 5122; 4. the first ultrashort wave radio 5121 transmits the received voice information to the first intelligent internet gateway 5101; 5. the first intelligent internet gateway 5101 sends the voice information received by the first ultrashort wave radio station 5121 to the smart phone 513; 6. the communication is ended by the smartphone 513 or the second ultrashort wave radio station 5122.

By the aid of the method, communication between the smart phone and different types of communication terminals of the ultra-short wave radio station is realized, and the communication is transparent to users.

EXAMPLE III

The embodiment realizes the conversation of the appointed frequency point of the private network radio station. As shown in fig. 5, the system includes a first shortwave radio station 6111, a first intelligent internet gateway 6101, a second shortwave radio station 6112, and a second intelligent internet gateway 6102.

The realization process is as follows: 1. the first shortwave radio station 6111 synthesizes the self ID, the ID of the second shortwave radio station 6112, the appointed frequency point and other information into voice information based on the first intelligent internet gateway 6101 and sends the voice information out; then, the first intelligent internet gateway 6101 changes the communication frequency point of the first shortwave radio station 6111 into an agreed frequency point; 2. the second shortwave radio station 6112 receives the voice message and transmits the voice message to the second intelligent internet gateway 6102; of course, the voice message sent by the first short-wave radio station 6111 can be received by multiple short-wave radio stations within the coverage area, and is not limited to the second short-wave radio station 6112; 3. the second intelligent internet gateway 6102 analyzes the voice information, and modifies the communication frequency point of the second shortwave radio station 6112 to an agreed frequency point after the target communication terminal is judged to be the second shortwave radio station 6112; the second short-wave radio station 6112 returns a response to the first short-wave radio station 6111; 4. after the first short-wave radio station 6111 checks the response returned by the second short-wave radio station 6112, the first short-wave radio station and the second short-wave radio station communicate at the appointed frequency point; 5. either party of communication actively finishes the conversation or returns to the on duty channel after the communication does not occur for a set time.

Compared with the prior art, the private network can only communicate at fixed frequency points, the system provided by the application can realize communication at appointed frequency points, the flexibility of communication is improved, and confusion caused by communication of a plurality of short-wave radio stations is avoided.

Example four

The embodiment can realize the emergency notification of multiple targets. As shown in fig. 6, the system comprises a first short wave radio station 7111 and a first intelligent internet gateway 7101 which initiate emergency notification, and a plurality of targets which receive the emergency notification: the intelligent interconnection gateway comprises a second short-wave radio station 7112, a third short-wave radio station 7113, a fourth short-wave radio station 7114, … … and an Nth short-wave radio station 711N, and a second intelligent interconnection gateway 7102, a third intelligent interconnection gateway 7103, a … … and an Nth intelligent interconnection gateway 710N which are connected with each other.

The realization process is as follows: 1. the first short-wave radio station 7111 synthesizes the ID of the first short-wave radio station 7111, and the IDs, appointed frequency points and other information of all other second short-wave radio stations, third short-wave radio stations, fourth short-wave radio stations, … … and the Nth short-wave radio station for receiving the emergency notice into voice information based on the first intelligent internet gateway 7101, and sends the voice information; then, the first intelligent interconnected gateway 7101 changes the communication frequency point of the first short-wave radio station 7111 into an appointed frequency point; 2. other short-wave radio stations (not limited to the second to the Nth short-wave radio stations) receive the voice information and then transmit the voice information to the intelligent Internet gateway; 3. The intelligent internet gateway analyzes the voice information, and modifies the communication frequency point of the corresponding short-wave radio station to an appointed frequency point after judging that the target communication terminal to be subjected to emergency notification is the short-wave radio station connected with the intelligent internet gateway; and, return a response to the first short wave radio station 7111; 4. the first short-wave radio station 7111 sends emergency notification information after checking responses returned by other short-wave radio stations, and sends holding information when the time exceeds half a minute; 5. the first ultrashort wave radio station 7111 actively ends the call and returns to the on duty channel, and other ultrashort wave radio stations return to the on duty channel after not receiving the holding information after 1 minute.

EXAMPLE five

According to the embodiment, when a certain ship and a target ship are not in a communication range on a water area, the on-shore base station is requested to assist the ship and the target ship to realize transparent conversation. As shown in fig. 7, the system comprises a ship 1, an onshore short-wave base station 821, an onshore intelligent interconnection gateway 820 and a ship 2; a shipborne short wave radio station 8111 and a shipborne intelligent internet gateway 8101 are arranged on the ship 1; and a shipborne short wave radio station 8112 and a shipborne intelligent internet gateway 8102 are arranged on the ship 2.

The realization process is as follows: 1. the shipborne short-wave radio station 8111 on the ship 1 synthesizes the ID of the shipborne short-wave radio station 8112 on the ship 1, an agreed frequency point for preparing conversation, a conversation request and the like into a voice signal based on a shipborne intelligent internet gateway 8101, and sends the voice signal out to wait for response; 2. after receiving the voice information, the shore short-wave base station 821 analyzes that the target communication terminal is the shipborne short-wave radio station 8112 on the ship 2, and then transmits the voice information containing the call request and the appointed frequency point to the shipborne short-wave radio station 8112 on the ship 2; 3. after receiving the voice information sent by the shore short wave base station 821, the shipborne short wave radio station 8112 on the ship 2 changes the frequency point into a conversation frequency point ready for use; and returns a response; 4. the shore short wave base station 821 sends a response to the shipborne short wave radio station 8111 after receiving the response of the shipborne short wave radio station 8112, changes the communication frequency point of the shore short wave base station into an appointed frequency point and prepares for recording; 5. the shipborne short wave radio 8111 sends out voice and adds a finishing signal after finishing; recording by the shore short-wave base station 821, and playing the recording to the shipborne short-wave radio station 8112 after receiving the end signal; returning to a receiving state after the playing is finished; 6. the shore short-wave base station 821 returns to the duty channel after not receiving the voice sent by the shipborne short-wave radio 8111 or receiving the ending signal for more than 1 minute.

EXAMPLE six

The embodiment realizes transparent communication between the shipborne short-wave radio station and other communication terminals of the onshore non-short-wave radio station. As shown in fig. 8, the system comprises a ship-borne short-wave radio station 911, a ship-borne intelligent internet gateway 910, a shore-borne short-wave base station 921, a shore-borne intelligent internet gateway 920 and a shore-borne smart phone 925.

The realization process is as follows: 1. the shipborne short-wave radio station 911 synthesizes the ID of the shipborne short-wave radio station, the ID of the onshore smart phone 925, the appointed frequency point and the request information into voice information and sends the voice information; 2. after receiving the voice information, the shore short wave base station 921 analyzes the voice information, changes the communication frequency point into an appointed frequency point, and returns a response to the shipborne short wave radio station 911; 3. the shore short-wave base station 921 receives the voice data of the shipborne short-wave radio station 911 on an appointed frequency point; 4. the onshore intelligent internet gateway 920 forwards the voice information received by the onshore short wave base station 921 to the onshore intelligent mobile phone 925 based on the internet; 5. the shore smart phone 925 sends the voice returned to the shipborne short-wave radio station 911 to the shore smart internet gateway 920 based on the internet; 6. the shore intelligent internet gateway 920 sends the voice of the shore intelligent mobile phone 925 to the shipborne short-wave radio station 911 through the shore short-wave base station 921; 7. the shipborne short-wave radio station 911 returns a channel for keeping a value after receiving no voice information or ending information sent by the shore short-wave base station 921 in more than 1 minute.

EXAMPLE seven

The embodiment realizes transparent communication between other communication terminals of the onshore non-short-wave radio station and the shipborne short-wave radio station on the ship. As shown in fig. 9, the system comprises a shipborne short-wave radio station a11, a shipborne intelligent internet gateway a10, an onshore SIP terminal device a26, an onshore intelligent internet gateway a20 and an onshore short-wave base station a 21.

The realization process is as follows: 1. the method comprises the steps that a shore SIP terminal device A26 initiates a voice call, the voice information sent by the terminal device comprises an ID of the terminal device and an ID of a shipborne short-wave radio station A11, and the voice information is transmitted to a shore intelligent internet gateway A20 based on the internet; 2. the shore intelligent interconnection gateway A20 adds the voice information to an appointed frequency point used by the shore short-wave base station A21 for communication, and then sends the voice information out through the shore short-wave base station A21; 3. after the shipborne short-wave radio station A11 receives the voice information, the shipborne intelligent internet gateway A10 analyzes that the target terminal is the shipborne short-wave radio station A11 connected with the target terminal, and then changes the communication frequency point of the shipborne short-wave radio station A11 into an appointed frequency point; 4. the shore short-wave base station A21 receives voice information sent by a shore SIP terminal A26 from the Internet based on a shore intelligent Internet gateway A20, and sends the voice information to a shipborne short-wave radio station A11 by using a shore short-wave base station A21; 5. voice information sent by the shipborne short-wave radio station A11 is received by the shore short-wave base station A21 and is transmitted to the shore intelligent internet gateway A20, and the shore intelligent internet gateway A20 forwards the voice information to the shore SIP terminal equipment A26 based on the internet; 6. the shipborne short-wave radio A11 returns a channel for keeping a value after receiving no voice information or ending information for more than 1 minute.

Example eight

The embodiment realizes the broadcast of the alarm information. Including first shortwave radio station, first ultrashort wave radio station, first mobile terminal, first SIP terminal equipment, first PSTN pronunciation gateway, first intelligent internet gateway, second shortwave radio station, second ultrashort wave radio station and second intelligent internet gateway. The first short-wave radio station and the first ultra-short-wave radio station are connected with a first intelligent Internet gateway, and the first intelligent Internet gateway, the first mobile terminal, the first SIP terminal equipment and the first PSTN voice gateway are accessed to the Internet; and the second short-wave radio station and the second ultra-short-wave radio station are connected with a second intelligent interconnection gateway.

The realization process is as follows: 1. the method comprises the steps that a first mobile terminal, first SIP terminal equipment, a first PSTN voice gateway and the like send alarm information to a first intelligent Internet gateway based on the Internet; 2. the first intelligent internet gateway collects the alarm information sent by each communication terminal, and a short wave link and/or an ultra-short wave link are adopted, and a first short wave radio station and/or a first ultra-short wave radio station send voice information containing the alarm information; 3. and the second short-wave radio station and/or the second ultra-short-wave radio station receive the voice information containing the alarm information, and the alarm information is analyzed by the second intelligent internet gateway.

Example nine

According to the embodiment, when a certain request calling party and a target calling party are not in the communication range, a nearby radio station is requested to assist in communication with the target calling party. As shown in fig. 10, including a requesting party 1, a assisting party 2, and a target party 3; the calling party requesting 1 is provided with a first smart phone B13, a first short-wave radio station B111 and a first intelligent Internet gateway B101 connected with the first smart phone B13 and the first short-wave radio station B111; the assistant calling party 2 is provided with a second short-wave radio station B112, a second ultra-short-wave radio station B121 and a second intelligent Internet gateway B102 connected with the second short-wave radio station B112 and the second ultra-short-wave radio station B121; and the target calling party 3 is provided with a third ultrashort wave radio station B122 and a third intelligent interconnected gateway B103.

The realization process is as follows: 1. on the calling party 1, the first smart phone B13 sends out voice information containing target calling party information to be called through a first short-wave radio station B111 based on the first smart internet gateway B101; 2. the second short-wave radio stations B112 on the assisting call parties 2 adjacent to the requesting call party receive the voice information sent by the first short-wave radio station B111, the information of the target call party is analyzed from the voice information by the respective second intelligent internet gateways B102, whether the second short-wave radio stations can realize communication with the target call party or not is judged, and if yes, the assisting confirmation information is returned to the requesting call party; 3. after the first short-wave radio station B111 receives the returned confirmation information, the first intelligent Internet gateway B101 determines an assisting calling party and returns the assisting information to a second short-wave radio station B112 of the assisting calling party through the first short-wave radio station B111; 4. after receiving the assistance information, the second short-wave radio station B112 on the selected assistance calling party is sent out through the second ultrashort-wave radio station B121 after adding the agreed frequency point information in the assistance request by the second intelligent internet gateway B102; 5. after the third ultrashort wave radio station B122 on the target calling party receives the assisting information containing the appointed frequency point, the third intelligent interconnected gateway B103 changes the communication frequency point of the ultrashort wave communication link into the appointed frequency point, and the third ultrashort wave radio station B122 returns confirmation information to the selected assisting calling party; 6. after the selected second ultrashort wave radio station B121 assisting the calling party receives the confirmation, the communication frequency point of the ultrashort wave link of the second ultrashort wave radio station B is changed into an appointed frequency point based on the second intelligent interconnection gateway of the second ultrashort wave radio station B, and confirmation information capable of communicating is returned to the first shortwave radio station B111 requesting the calling party through the second shortwave radio station B112; 7. the calling party is requested to send voice information to a second short-wave radio station B112 assisting the calling party through a first short-wave radio station B111, and the voice information is forwarded by using a second ultra-short-wave radio station B121 based on a second intelligent Internet gateway B102; 8. the third ultra-short wave radio station B122 of the target calling party receives and forwards the voice information, and returns the voice information to the second ultra-short wave radio station B121 of the assisting calling party through the third ultra-short wave radio station B122; 9. the second short-wave radio station B112 assisting the calling party retransmits the returned voice information to the calling party requesting the calling party; 10. after receiving the end information or not receiving the information within 1 minute, any party of the call assists the second ultrashort wave radio station of the call party and the third ultrashort wave radio station of the target call party to return to the watching channel.

As can be seen from the above embodiments, the multi-network communication system provided by the present application can implement transparent intercommunication of different communication terminals, solve the technical problem of unsmooth communication among the existing communication networks, and implement complementary application of each communication link, communication of a dedicated network appointed frequency point, remote control of a dedicated network, and the like based on the same.

It should be noted that, based on the multi-network communication system proposed in the present application, the transparent interworking is not limited to the method proposed in the above embodiments, and the communication method implemented based on the communication architecture proposed in the present application is within the scope of protection of the present application.

It should be noted that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art should also make changes, modifications, additions or substitutions within the spirit and scope of the present invention.

Claims (10)

1. A multi-network communication system comprises a short-wave radio station and an ultra-short-wave radio station; it is characterized in that the preparation method is characterized in that,

the short-wave radio station and the ultra-short-wave radio station are both connected with an intelligent interconnection gateway;

the intelligent internet gateway comprises a voice transceiving module, a voice analyzing module and a voice instruction processing module; the voice transceiving module is used for receiving and sending voice information; the voice analysis module is used for analyzing the instruction information contained in the voice information from the received voice information; the voice instruction processing module is used for executing the conversion of a communication protocol and executing control based on the instruction information analyzed by the voice analysis module;

the system comprises a first intelligent interconnection gateway, a second intelligent interconnection gateway and a third intelligent interconnection gateway, wherein the first intelligent interconnection gateway is a calling party requesting a call and is provided with a first intelligent mobile phone and a first short-wave radio station, the second intelligent interconnection gateway is a calling party assisting the call and is provided with a second short-wave radio station and a second ultra-short-wave radio station, and the third intelligent interconnection gateway is a target calling party and is provided with a third ultra-short-wave radio station;

on the party requesting the call, the first intelligent mobile phone sends out voice information containing target party information to be called with the first intelligent internet gateway through the first short wave radio station based on the first intelligent internet gateway; a plurality of second short wave radio stations on the assisting call party close to the request call party receive the voice information sent by the first short wave radio station, and the respective second intelligent internet gateways analyze the information of the target call party from the voice information, judge whether the second short wave radio stations can realize communication with the target call party or not, and if so, return the assisting confirmation information to the request call party; after the first short-wave radio station receives the returned confirmation information, the first intelligent internet gateway determines an assistant calling party and returns the assistance information to a second short-wave radio station of the assistant calling party through the first short-wave radio station; after a second short-wave radio station on the selected call assisting party receives the assisting information, the second intelligent internet gateway adds appointed frequency point information in the assisting request and then sends the assisting information out through a second ultrashort-wave radio station; after the third ultrashort wave radio station on the target calling party receives the assistance information containing the appointed frequency point, the third intelligent interconnection gateway changes the communication frequency point of the ultrashort wave communication link into the appointed frequency point, and the third ultrashort wave radio station B122 returns confirmation information to the selected assistance calling party; after the selected second ultrashort wave radio station assisting the calling party receives the confirmation, the communication frequency point of the ultrashort wave link of the second ultrashort wave radio station is changed into an appointed frequency point based on the second intelligent internet gateway, and confirmation information capable of being communicated is returned to the first ultrashort wave radio station requesting the calling party through the second ultrashort wave radio station; the calling party is requested to send voice information to a second short-wave radio station of the assisting calling party through the first short-wave radio station, and the second intelligent internet gateway is used for forwarding the voice information by using the second ultra-short-wave radio station; a third ultra-short wave radio station of the target calling party receives and forwards the voice information and returns the voice information to a second ultra-short wave radio station of the assistant calling party through the third ultra-short wave radio station; and the second short-wave radio station assisting the calling party retransmits the returned voice information to the calling party.

2. The multi-network communication system according to claim 1, wherein the system further comprises an RFID reading device;

the RFID reading equipment is connected with the intelligent Internet gateway and used for reading the Internet of things information contained in the RFID label and storing the Internet of things information on the intelligent Internet gateway connected with the RFID label.

3. The multi-network communication system according to claim 1, wherein the system further comprises a first mobile terminal; the first mobile terminal is connected with the intelligent internet gateway.

4. The multi-network communication system according to claim 2, wherein the intelligent internet gateway accesses the internet;

the intelligent internet gateway also comprises an internet transceiving module; the internet transceiving module is used for receiving information sent by an intelligent internet gateway and/or other equipment terminals connected with the internet and sending the information to the intelligent internet gateway and/or other equipment terminals connected with the internet.

5. The multi-network communication system according to claim 4, wherein the system further comprises a second mobile terminal; and the second mobile terminal accesses the Internet.

6. The multi-network communication system according to claim 4, wherein the system further comprises an internet of things server; and the Internet of things server is accessed to the Internet and used for receiving and processing the Internet of things information from the intelligent Internet gateway based on the Internet.

7. The multi-network communication system according to claim 4, wherein the system further comprises a SIP terminal device and/or a PSTN voice gateway;

the SIP terminal equipment is accessed to the Internet;

the PSTN voice gateway is connected with a PSTN telephone, and the PSTN voice gateway is accessed to the Internet.

8. The multi-network communication system according to claim 4, wherein the system further comprises a computer terminal; and the computer terminal is accessed to the Internet.

9. The multi-network communication system according to claim 4, wherein the system further comprises an intelligent interconnection server; and the intelligent interconnection server is accessed to the Internet and is used for managing an intelligent interconnection gateway connected with the Internet.

10. The multi-network communication system according to claim 1, wherein the ultrashort wave radio station is connected to the intelligent interconnection gateway through an ultrashort wave repeater.

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