CN111641803A - Earthquake field command system, method and readable storage medium - Google Patents
Earthquake field command system, method and readable storage medium Download PDFInfo
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- CN111641803A CN111641803A CN202010542058.4A CN202010542058A CN111641803A CN 111641803 A CN111641803 A CN 111641803A CN 202010542058 A CN202010542058 A CN 202010542058A CN 111641803 A CN111641803 A CN 111641803A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/14—Systems for two-way working
- H04N7/15—Conference systems
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- G—PHYSICS
- G08—SIGNALLING
- G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
- G08C17/00—Arrangements for transmitting signals characterised by the use of a wireless electrical link
- G08C17/02—Arrangements for transmitting signals characterised by the use of a wireless electrical link using a radio link
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Abstract
The invention discloses an earthquake field command system, which comprises: the information acquisition module is used for acquiring seismic data information, image information and voice information; the communication module is used for establishing a plurality of mutually independent video call connections and voice call connections; and the data sharing module is used for uploading and downloading the seismic data information. The invention can preset a plurality of sections of video call connection and voice call connection, and can adopt other connections to continue on-site commanding even if one of the connections is disconnected, thereby enhancing the reliability of the earthquake on-site commanding system. The invention also discloses a method adopting the system and a readable storage medium.
Description
Technical Field
The invention relates to the technical field of communication equipment, in particular to an earthquake field command system, an earthquake field command method and a readable storage medium.
Background
When earthquake disasters occur, the earthquake disasters need to be mastered in real time, and the site needs to be instructed by an earthquake site command system.
At present, a video conference is established by an earthquake field command system through the internet, the video conference can be established through internet video software or a mobile phone APP, rescue workers in an earthquake field can report the field condition in the video conference, and commanders can remotely issue rescue commands to the earthquake field.
The existing earthquake field command system only establishes connection through a single internet, the earthquake field is close to an extremely earthquake region, uncertain factors of a network environment are large after an earthquake, the network interruption condition is easy to occur, the reliability is low, and rescue command cannot be continuously carried out if the network is interrupted.
Disclosure of Invention
One object of the present invention is to provide a more reliable seismic field command system.
A seismic site command system comprising:
the information acquisition module is used for acquiring seismic data information, image information and voice information;
the communication module is used for establishing a plurality of mutually independent video call connections and voice call connections;
and the data sharing module is used for uploading and downloading the seismic data information.
The invention has the beneficial effects that: the multi-section video call connection and the voice call connection can be preset, even if one of the connections is disconnected, other connections can be adopted to continue on-site commanding, and the reliability of the earthquake on-site commanding system is enhanced.
In addition, the earthquake field command system provided by the invention can also have the following additional technical characteristics:
further, the information acquisition module comprises:
a data input unit for inputting the seismic data information;
the image acquisition unit is used for shooting a scene earthquake picture and uploading the picture to the cloud server;
and the voice acquisition unit is used for receiving the voice information in real time and uploading the voice information to the cloud server.
Further, the communication module includes:
the video call unit is used for establishing the video call connection between the local equipment and a plurality of first channels, and each first channel is independent;
the voice call unit is used for establishing voice call connection between local equipment and a plurality of second channels through a satellite or a base station, and the second channels are mutually independent;
and the switching unit is used for changing the first channel and the second channel which establish communication connection with local equipment.
Further, the data sharing module includes:
the cloud storage unit is used for storing the seismic data information, the image information and the voice information;
the uploading unit is used for uploading the seismic data information, the image information and the voice information to the cloud storage unit;
and the downloading unit is used for downloading the seismic data information, the image information and the voice information from the cloud storage.
The invention also provides an earthquake field commanding method, which adopts the system and comprises the following steps:
presetting a plurality of transmission channels, and establishing real-time information transmission connection with any one of the transmission channels, wherein the information transmission connection is video call connection or voice call connection;
and if the information transmission connection is interrupted, establishing the information transmission connection with the other channel.
Further, the transmission channels include an internet channel, a satellite channel, and an intranet channel.
Further, the method further comprises:
when any one transmission channel is interrupted, sending channel interruption reminding information to a user, and recording the number of channel interruptions;
if the channel interruption number is larger than a threshold value, sending the seismic data information, the image information and the voice information to a plurality of preset mobile base stations, controlling the mobile base stations to move away from an earthquake field, and monitoring whether the interrupted transmission channels are connected again in real time in the moving process of the mobile base stations;
and if so, controlling the mobile base station to upload the seismic data information, the image information and the voice information to a cloud server.
Further, the step of controlling the mobile base station to move away from the seismic site includes:
and keeping a plurality of mobile base stations to continuously receive the seismic data information, the image information and the voice information in an earthquake field, and controlling more than 3 mobile base stations to move away from the earthquake field, wherein the motion directions of the mobile base stations are different.
Further, after controlling the mobile base station to upload the seismic data information, the image information, and the voice information to a cloud server, the method further includes:
recording the coordinate point of the mobile base station, and broadcasting the coordinate point to an intranet;
and controlling the mobile base station to return to the earthquake field, controlling the mobile base station remained on the earthquake field to move towards the coordinate point, uploading the earthquake data information, the image information and the voice information to a cloud server, controlling the mobile base station to return to the earthquake field, and circularly executing the operations.
The invention also proposes a readable storage medium having stored thereon computer instructions which, when executed by a processor, implement the method described above.
Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.
Drawings
The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
fig. 1 is a block diagram of the structure of a seismic site command system according to a first embodiment of the present invention;
FIG. 2 is a system interface diagram of the first embodiment of the present invention;
fig. 3 is a flow chart of a seismic field commanding method according to a third embodiment of the present invention.
Detailed Description
In order to make the objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. Several embodiments of the invention are presented in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
Referring to fig. 1, a first embodiment of the invention provides an earthquake scene commanding system, which includes the following modules.
(1) And the information acquisition module is used for acquiring seismic data information, image information and voice information.
In the information acquisition module, video conference terminals, network equipment, sound systems, displays, control systems, mixing matrixes and other equipment need to be prepared to be integrated together, and input and output equipment such as cameras, microphones, projections, sound boxes, satellite phones and the like are packaged in a unified mode.
In this embodiment, the information collecting module includes:
a data input unit for inputting the seismic data information;
the image acquisition unit is used for shooting a scene earthquake picture and uploading the picture to the cloud server;
and the voice acquisition unit is used for receiving the voice information in real time and uploading the voice information to the cloud server.
It should be noted that the data input unit may be understood as inputting professional seismic data in a PC computer and then transmitting to the cloud server through a network or a satellite.
(2) And the communication module is used for establishing a plurality of mutually independent video call connections and voice call connections.
Referring to fig. 2, in the embodiment, a treasury video conference terminal and a small fish easy-to-connect video conference terminal are adopted, and a microphone and a camera of a satellite phone function machine, a satellite phone smart machine and a small fish easy-to-connect video terminal, a microphone and a camera of the treasury video conference terminal, a central control tablet computer and other related accessories need to be arranged on an earthquake field. In other embodiments, more video conference terminals may be employed.
Specifically, the communication module includes:
the video call unit is used for establishing the video call connection between the local equipment and a plurality of first channels, and each first channel is independent;
the voice call unit is used for establishing voice call connection between local equipment and a plurality of second channels through a satellite or a base station, and the second channels are mutually independent;
and the switching unit is used for changing the first channel and the second channel which establish communication connection with local equipment.
It can be understood that, in this embodiment, a plurality of video call connections and voice call connections are preset at the same time, and when the connection of the video call or the voice call is interrupted, a channel can be switched on the local device, similarly, a software or a mobile phone APP is changed to retry the video call connection or the voice call connection.
In addition, in order to satisfy normal video or voice call, a mixing matrix, a control system, a wireless microphone host, a folding display, a wireless screen transmission box, a Huashi router and an integrated gateway are needed,
the integrated gateway provides a network interface for the video conference terminal of Baolitong and the video conference terminal of little fish easy to connect, and provides a wireless transmission channel for the central control system; the configured mixed matrix realizes free switching of audio and video, an external PC, a projector and conference system signals in the portable box, and images of mobile phone/IOS equipment and a computer can be wirelessly transmitted to the matrix through the matching of the screen transmission box.
It can be understood that, in order to command the earthquake scene more conveniently, the earthquake scene is also equipped with a projector (loose), a portable projector (polar meter), a portable projector (sony), an integrated microphone, an active sound box, a small fish screen projection amplifier easily connected with a video terminal, and the like.
(3) And the data sharing module is used for uploading and downloading the seismic data information.
It will be appreciated that the data sharing module enables the remote commander to obtain detailed seismic data information, particularly in the form of a file of tabular data, which is transparent to the conditions at the site.
In addition, in an extreme case, when all video connections and voice connections are unavailable, the images and voices of the earthquake scene can be downloaded through the cloud server so as to master the condition of the earthquake scene.
Specifically, the data sharing module includes:
the cloud storage unit is used for storing the seismic data information, the image information and the voice information;
the uploading unit is used for uploading the seismic data information, the image information and the voice information to the cloud storage unit;
and the downloading unit is used for downloading the seismic data information, the image information and the voice information from the cloud storage.
The invention has the advantages that the multi-section video call connection and the voice call connection can be preset, even if one of the connections is disconnected, other connections can be adopted to continue the on-site command, and the reliability of the earthquake on-site command system is enhanced.
Referring to fig. 3, a second embodiment of the present invention provides a method for commanding an earthquake scene, which adopts the system of the first embodiment, and includes the following steps.
S1, presetting a plurality of transmission channels, and establishing real-time information transmission connection with any one of the transmission channels, wherein the information transmission connection is video call connection or voice call connection.
In this embodiment, the transmission channels include an internet channel, a satellite channel and an intranet channel, that is, when any one of the channels is unstable or disconnected, another channel can be switched to, so as to ensure normal operation of a video or voice conference.
And S2, if the information transmission connection is interrupted, establishing the information transmission connection with the other channel.
It can be understood that a plurality of gateways may also exist in the internet channel, the satellite channel, and the intranet channel, for example, a plurality of types of video conference software may be performed using the internet channel, when connection of one type of video conference software is unstable, the video conference software may be replaced with different types of video conference software, and if a plurality of types of video conference software are unavailable, it may be considered that the internet channel is strongly interfered, cannot be normally used, and needs to be switched to the satellite channel or the intranet channel.
In this embodiment, the intranet accesses the internet of a communication operator to the integrated gateway, and gets through the industry intranet through the tunnel function of the integrated gateway, and may also access the industry intranet and the satellite network of a local earthquake department. In other embodiments, the intranet may also be an intranet separated from the internet and established by a plurality of routers or base stations.
A third embodiment of the invention provides a method for commanding an earthquake scene, which adopts the system of the first embodiment.
This embodiment is substantially the same as the second embodiment, except for the following.
The method further comprises the following steps:
when any one transmission channel is interrupted, sending channel interruption reminding information to a user, and recording the number of channel interruptions;
if the channel interruption number is larger than a threshold value, sending the seismic data information, the image information and the voice information to a plurality of preset mobile base stations, controlling the mobile base stations to move away from an earthquake field, and monitoring whether the interrupted transmission channels are connected again in real time in the moving process of the mobile base stations;
and if so, controlling the mobile base station to upload the seismic data information, the image information and the voice information to a cloud server.
It will be appreciated that, for example, when neither internet nor satellite connection is available, the intranet may be disconnected at any time, and when any channel is completely disconnected, a record is made, and the user is prompted to find out the cause for emergency repair, or to find out another communication method.
In the embodiment, the mobile base station is adopted to bring the seismic data information to the area where the channel can be normally connected for uploading, and the contact between the seismic site and the remote commander is completely interrupted. The mobile base station may be a network device provided in an automobile.
Specifically, the step of controlling the mobile base station to move away from the earthquake field includes:
and keeping a plurality of mobile base stations to continuously receive the seismic data information, the image information and the voice information in an earthquake field, and controlling more than 3 mobile base stations to move away from the earthquake field, wherein the motion directions of the mobile base stations are different.
Further, after controlling the mobile base station to upload the seismic data information, the image information, and the voice information to a cloud server, the method further includes:
recording the coordinate point of the mobile base station, and broadcasting the coordinate point to an intranet;
and controlling the mobile base station to return to the earthquake field, controlling the mobile base station remained on the earthquake field to move towards the coordinate point, uploading the earthquake data information, the image information and the voice information to a cloud server, controlling the mobile base station to return to the earthquake field, and circularly executing the operations.
In this embodiment, the intranet is an offline internal network established by a plurality of fixed base stations, and may not depend on the internet, or may use an intercom as the intranet.
It can be understood that, for example, 3 mobile base stations can be kept to continuously receive seismic data information at the seismic site, when the 3 mobile base stations that depart upload information to the cloud server, the 3 mobile base stations that depart at the seismic site can be notified to move toward the coordinate point, at this time, the 3 mobile base stations that depart earlier can return, continue to receive seismic data information and then depart again, and the cycle is repeated, so that the situation of the seismic site is continuously communicated to the remote commander.
It should be noted that the mobile base station can be remotely controlled, for example, an unmanned aerial vehicle or an unmanned automobile, and also can be manually driven to serve as the mobile base station.
A fourth embodiment of the invention proposes a readable storage medium having stored thereon computer instructions which, when executed by a processor, implement the method of the first embodiment.
In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., 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, the schematic representations of the terms used above 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.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.
Claims (10)
1. An earthquake scene commanding system, comprising:
the information acquisition module is used for acquiring seismic data information, image information and voice information;
the communication module is used for establishing a plurality of mutually independent video call connections and voice call connections;
and the data sharing module is used for uploading and downloading the seismic data information.
2. The seismic site command system of claim 1, wherein the information acquisition module comprises:
a data input unit for inputting the seismic data information;
the image acquisition unit is used for shooting a scene earthquake picture and uploading the picture to the cloud server;
and the voice acquisition unit is used for receiving the voice information in real time and uploading the voice information to the cloud server.
3. The seismic site command system of claim 1, wherein the communication module comprises:
the video call unit is used for establishing the video call connection between the local equipment and a plurality of first channels, and each first channel is independent;
the voice call unit is used for establishing voice call connection between local equipment and a plurality of second channels through a satellite or a base station, and the second channels are mutually independent;
and the switching unit is used for changing the first channel and the second channel which establish communication connection with local equipment.
4. The seismic site command system of claim 1, wherein the data sharing module comprises:
the cloud storage unit is used for storing the seismic data information, the image information and the voice information;
the uploading unit is used for uploading the seismic data information, the image information and the voice information to the cloud storage unit;
and the downloading unit is used for downloading the seismic data information, the image information and the voice information from the cloud storage.
5. An earthquake field commanding method using the system of any one of claims 1 to 4, characterized by comprising the steps of:
presetting a plurality of transmission channels, and establishing real-time information transmission connection with any one of the transmission channels, wherein the information transmission connection is video call connection or voice call connection;
and if the information transmission connection is interrupted, establishing the information transmission connection with the other channel.
6. The seismic site commanding method according to claim 5, characterised in that the transmission channels comprise internet channels, satellite channels and intranet channels.
7. The seismic site commanding method according to claim 5, further comprising:
when any one transmission channel is interrupted, sending channel interruption reminding information to a user, and recording the number of channel interruptions;
if the channel interruption number is larger than a threshold value, sending the seismic data information, the image information and the voice information to a plurality of preset mobile base stations, controlling the mobile base stations to move away from an earthquake field, and monitoring whether the interrupted transmission channels are connected again in real time in the moving process of the mobile base stations;
and if so, controlling the mobile base station to upload the seismic data information, the image information and the voice information to a cloud server.
8. The seismic site directing method of claim 7, wherein the step of controlling the mobile base station to move away from the seismic site comprises:
and keeping a plurality of mobile base stations to continuously receive the seismic data information, the image information and the voice information in an earthquake field, and controlling more than 3 mobile base stations to move away from the earthquake field, wherein the motion directions of the mobile base stations are different.
9. The method of claim 8, wherein the controlling the mobile base station to upload the seismic data information, the image information, and the voice information to a cloud server further comprises:
recording the coordinate point of the mobile base station, and broadcasting the coordinate point to an intranet;
and controlling the mobile base station to return to the earthquake field, controlling the mobile base station remained on the earthquake field to move towards the coordinate point, uploading the earthquake data information, the image information and the voice information to a cloud server, controlling the mobile base station to return to the earthquake field, and circularly executing the operations.
10. A readable storage medium having stored thereon computer instructions, characterized in that the instructions, when executed by a processor, implement the method of any one of claims 5 to 9.
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