CN114401033A - Portable wide-narrow band fusion satellite communication terminal and method - Google Patents

Abstract

The application discloses a portable wide-band and narrow-band integrated satellite communication terminal and a method. The terminal includes: a broadband satellite communication system and a narrowband satellite communication system; the broadband satellite communication system establishes broadband connection with a communication opposite end, establishes a first communication link and transmits broadband data through the first communication link; the narrow-band satellite communication system establishes narrow-band connection with a communication opposite end, establishes a second communication link and transmits narrow-band data through the second communication link; and if the first communication link is interrupted and the broadband satellite communication system cannot mutually transmit the video data with the opposite communication terminal, the narrowband satellite communication system is used for mutually transmitting the voice data with the opposite communication terminal through the second communication link. According to the method and the device, the narrow-band satellite communication system is arranged and used as a bottom-guaranteed communication system of the wide-band satellite communication system, when the first communication link cannot be used, the second communication link is used for backup, and the communication reliability is improved.

Description

Portable wide-narrow band fusion satellite communication terminal and method

Technical Field

The application relates to the field of satellite communication, in particular to a portable wide-band and narrow-band converged satellite communication terminal and a method.

Background

A broadband satellite communication system, such as a Ka satellite communication system, is often applied to outdoor rescue scenes, and the terminals can realize that users can be in contact with the outside in the field without a communication base station through a satellite, so that the broadband satellite communication system plays an important role in the outdoor rescue scenes. However, the influence of weather factors is relatively large, and under the condition of extreme severe weather, the broadband satellite communication link is interrupted, so that the condition of loss of connection occurs, and the rescue efficiency is influenced.

Disclosure of Invention

The present application is directed to a portable broadband and narrowband converged satellite communication terminal and method, so as to solve the above problems.

In order to achieve the above object, according to one aspect of the present application, there is provided a portable broadband and narrowband converged satellite communication terminal, comprising:

a broadband satellite communication system and a narrowband satellite communication system;

the broadband satellite communication system is used for establishing broadband connection with a communication opposite end through a high-throughput satellite, establishing a first communication link and transmitting broadband data through the first communication link;

the narrow-band satellite communication system establishes narrow-band connection with a communication opposite end through an skynet satellite, establishes a second communication link, and transmits narrow-band data through the second communication link;

and if the first communication link is interrupted and the broadband satellite communication system cannot mutually transmit the video data with the opposite communication terminal, the narrowband satellite communication system is used for mutually transmitting the voice data with the opposite communication terminal through the second communication link.

In one embodiment, the frequency band used by the narrowband satellite communication system is an S-band;

and if the first link is interrupted due to extreme severe weather, the narrowband communication system is used for carrying out voice data intercommunication with the opposite communication terminal through the second communication link.

In one embodiment, when the user beam information is updated, the satellite master station transmits the updated parameters to the narrowband communication system through the second link;

and the narrowband satellite communication system sends the updated parameters to the broadband satellite communication system so that the broadband satellite communication system updates the satellite antenna system and the satellite modem.

In one embodiment, the narrowband satellite communication system is further configured to obtain log data and device monitoring data of the broadband satellite communication system;

and sending the log data and the equipment monitoring data to a satellite main station through a second communication link.

In one embodiment, the broadband satellite communication system includes a satellite antenna system and a satellite modem;

the satellite antenna system comprises a base, a reflecting surface and a feed arm; the satellite modem is integrated in the base;

the narrow-band satellite communication system comprises a circuit board card and a passive antenna; the passive antenna is mounted on the base surface.

In one embodiment, the method further comprises: the router is used for providing a wireless local area network so that a user can carry out interface configuration on the converged satellite communication terminal through the wireless network by using an application program on the mobile terminal;

the first LAN port of the router is connected with the narrowband satellite communication system;

a second LAN port of the router is connected with a satellite antenna system in the broadband satellite communication system;

the WAN port of the router is connected with a satellite modem in the broadband satellite communication system;

a radio frequency interface of the router is connected with a WiFi antenna, and the WiFi antenna transmits WiFi signals to provide a wireless network for the mobile terminal;

and the high-density energy battery is used for supplying power to the converged satellite communication terminal.

In one embodiment, the reflective surface is assembled from a plurality of segments; the diameter is less than or equal to 0.8 meter.

In one embodiment, when voice data is transmitted to a correspondent node by using a second communication link, if an incoming call request of a user of the correspondent node is received, the incoming call request is pushed to a local high-priority user according to a preset priority.

In one embodiment, the system further comprises a mobile terminal; the mobile terminal is provided with an application program; the mobile terminal is connected with the wide-band and narrow-band integrated satellite communication terminal through WiFi; the priority is set by the page of the application.

In order to achieve the above object, according to another aspect of the present application, there is provided a wide-band and narrow-band converged satellite communication method, including:

the broadband satellite communication system establishes broadband connection with a communication opposite end, establishes a first communication link and transmits broadband data through the first communication link;

the narrowband satellite communication system establishes narrowband connection with a communication opposite terminal, establishes a second communication link, and transmits narrowband data through the second communication link;

and if the first communication link is interrupted and the video data can not be mutually transmitted with the opposite communication terminal, the second communication link is used for mutually transmitting the voice data with the opposite communication terminal.

In one embodiment, the frequency band used by the narrowband satellite communication system is an S-band; and if the first link is interrupted due to extreme weather, the second communication link of the narrow-band satellite communication system is used for carrying out voice data intercommunication with the opposite communication terminal.

In one embodiment, the narrowband satellite communication system receives a user beam update parameter transmitted by a satellite master station through a second communication link; and sending the updated parameters to the broadband satellite communication system so that the broadband satellite communication system updates the satellite antenna system and the satellite modem.

In one embodiment, after receiving log data and device monitoring data of the broadband satellite communication system, which are sent by the narrowband satellite communication system through the second communication link, the satellite master station updates the locally stored converged satellite communication terminal database according to the identifier of the converged satellite communication terminal.

In one embodiment, when a call is made through the narrowband satellite communication system, a user inputs a called number into an application page on the mobile terminal to perform dialing operation, and waits for the called user to be connected.

In one embodiment, when voice data is transmitted to a correspondent node by using a second communication link, if an incoming call request of a user of the correspondent node is received, the incoming call request is pushed to a local high-priority user according to a preset priority.

In one embodiment, when an incoming call from a correspondent terminal is received through the narrowband satellite communication system, the incoming call is pushed to a high-priority user according to a priority setting performed in advance.

In the embodiment of the application, the portable wide-band and narrow-band converged satellite communication system comprises a wide-band satellite communication system and a narrow-band satellite communication system; the narrow-band satellite communication system is used as a bottom-guaranteed communication system, so that the reliability of communication is improved. Illustratively, the broadband satellite communication system may be a Ka high-throughput satellite communication system; the narrowband communication system may be an aerospace satellite communication system. The integrated satellite communication terminal highly integrates two sets of Ka high-flux and skynet satellite communication systems with different communication systems, and can simultaneously realize high-speed data transmission and satellite communication. In addition, Ka broadband satellite communication system state monitoring information and log information can be returned through the skynet narrowband communication link as required, and remote operation configuration is supported.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, serve to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the invention and do not limit it. In the drawings:

fig. 1 is a schematic structural diagram of a portable broadband and narrowband converged satellite communication terminal according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of another portable broadband and narrowband converged satellite communication terminal according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of another portable broadband and narrowband converged satellite communication terminal according to an embodiment of the present application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. 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 application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the invention and its embodiments and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meanings of these terms in the present invention can be understood by those skilled in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meanings of the above terms in the present invention can be understood by those of ordinary skill in the art according to specific situations.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

How to quickly establish communication links of a three-level emergency command system of a forward rescue team, a front line command department and a rear command center under the conditions that the road and ground communication infrastructure is damaged or lacked in the rescue scene of major safety accidents such as natural disasters such as earthquakes and floods and in remote parks and the like, and the real-time return of multimedia data of the forward rescue team and the timely issuing of front finger and rear finger decision information are guaranteed, so that the method is an important problem in the construction of emergency communication guarantee systems in the current stage of China. The satellite communication has the advantages of wide communication range, no influence of regions and the like, is an important technical means for realizing smooth emergency rescue communication, and particularly, the portable Ka satellite communication terminal based on the high-flux satellite is light in weight, high in transmission rate and widely applied to the field of emergency communication. However, under the limitation of conditions such as extreme severe weather, main station beam change or equipment abnormal operation, the portable Ka satellite communication terminal can have the phenomenon that the portable Ka satellite communication terminal cannot be accessed to a broadband satellite communication network, so that an emergency forward rescue team cannot effectively communicate with the outside due to the limitation of emergency field terminal equipment, and the rescue situation cannot be effectively fed back to a command center, so that the emergency rescue efficiency is low.

Based on this, the present application provides a portable wideband and narrowband converged satellite communication terminal, refer to the schematic structural diagram of a portable wideband and narrowband converged satellite communication terminal shown in fig. 1; the terminal includes:

a broadband satellite communication system 10 and a narrowband satellite communication system 11;

the broadband satellite communication system 10 establishes broadband connection with a communication opposite end, establishes a first communication link, and transmits broadband data through the first communication link;

specifically, the broadband satellite communication system 10 may establish a broadband connection with a correspondent node via a high-throughput satellite.

High-throughput satellites are used exclusively for transmitting broadband data. The broadband data may be video data.

The narrow-band satellite communication system 11 establishes narrow-band connection with a communication opposite end, establishes a second communication link, and transmits narrow-band data through the second communication link;

specifically, the narrowband satellite communication system 11 may establish a narrowband connection with a communication counterpart through an skyward satellite.

The heaven-earth satellite is dedicated to transmitting narrow-band data. The narrowband data may be voice, short message data.

If the first communication link is interrupted and the broadband satellite communication system 10 cannot carry out video data intercommunication with the opposite communication terminal, the narrowband satellite communication system 11 is used for carrying out voice data intercommunication with the opposite communication terminal through the second communication link.

The narrow-band satellite communication system 11 serves as a backup of the wide-band satellite communication system 10, when the wide-band satellite communication system 10 cannot communicate due to various reasons, the narrow-band satellite communication system 11 can be used for communicating, the function of bottom-guaranteed communication is achieved, and the reliability of the whole converged satellite communication terminal device is improved.

There are many situations in which the broadband satellite communication system 10 cannot communicate for various reasons, one of which is an extremely severe weather effect, and in the process of emergency rescue in the field, the weather factor is a very important factor, and if rainstorm weather is encountered in the scene of emergency rescue in the field, the broadband satellite communication system cannot normally contact with the outside. Therefore, in one embodiment, the frequency band used by the narrowband satellite communication system is the S-band; the S frequency band has strong rain attenuation resistance and is suitable for working in a bad weather state.

For example, if the weather is rainstorm and the broadband satellite communication system 10 cannot transmit video data to the correspondent node, the user can use a mobile phone to make a phone call to perform voice communication with the correspondent node through the narrowband satellite communication system 11. Thus, the broadband satellite communication system can be prevented from losing contact with the outside due to bad weather.

The narrowband satellite communication system 11 also has the function of updating parameters of the satellite antenna system and the satellite modem, and in one embodiment, when the user beam information is updated, the satellite master station transmits the updated parameters to the narrowband satellite communication system through the second communication link; the narrowband satellite communication system sends the updated parameters to the broadband satellite communication system so that the broadband satellite communication system updates the satellite antenna system and the satellite modem.

The narrowband satellite communication system may also transmit assistance data to the satellite master station. In one embodiment, the narrowband satellite communication system is further configured to obtain log data and device monitoring data of the broadband satellite communication system;

and sending the log data and the equipment monitoring data to a satellite main station through a second communication link.

The satellite master station obtains the auxiliary data through the second link, and does not occupy the first link, so that the bandwidth occupation of the first communication link can be reduced.

In particular, the narrowband satellite communication system supports either automatic timed transmission or manual on-demand transmission, the behaviour being selected by the user in the mobile terminal application APP. The satellite master station can send a remote control instruction to the converged satellite communication system through a short message or a data link of the narrow-band satellite communication system, and the functions of parameter configuration, restarting and the like of the portable wide-band and narrow-band converged satellite communication terminal are realized.

See fig. 2 for a connection diagram of a broadband satellite communication system and a narrowband satellite communication system. The broadband satellite communication system 10 includes a base 101, a reflector 102, and a feed arm 103. The reflecting surface 102 is formed by assembling a plurality of split petals; preferably, the diameter of the reflecting surface is less than or equal to 0.8 meter; convenient disassembly and assembly and convenient carrying.

The narrowband satellite communication system 11 comprises a circuit board card and a passive antenna 112; the passive antenna 112 is installed on the surface of the base 101; the circuit board card is installed inside the base 101, and the drawing is not shown. And the circuit board card is provided with electronic components such as a memory, a processor and the like.

The high-density energy battery is integrated in the base 101 and used for supplying power to the integrated satellite communication terminal and is convenient to use in the field operation scene.

The portable wide-narrow band integrated satellite communication terminal has the advantages of being simple to use, high in reliability and diversified in functions, and meeting practical use requirements.

In one embodiment, the method further comprises: the router is used for providing a wireless local area network so that a user can carry out interface configuration on the converged satellite communication terminal through the wireless network by using an application program on the mobile terminal;

the first LAN port of the router is connected with the narrowband satellite communication system;

a second LAN port of the router is connected with a satellite antenna system in the broadband satellite communication system;

the WAN port of the router is connected with a satellite modem in the broadband satellite communication system;

a radio frequency interface of the router is connected with a WiFi antenna, and the WiFi antenna transmits WiFi signals to provide a wireless network for the mobile terminal;

and the high-density energy battery is used for supplying power to the converged satellite communication terminal.

For example, refer to the schematic structural diagram of another portable broadband and narrowband converged satellite communication terminal shown in fig. 3; the converged satellite communication terminal mainly comprises: the system comprises a broadband satellite communication system, a narrowband satellite communication system, a router and a power supply module;

it is worth emphasizing that the broadband satellite communication system comprises a Ka satellite antenna system and a satellite modem;

the narrow-band satellite communication system comprises an antenna communication module and an antenna, wherein the antenna communication module is integrated in the box body 111;

the ka satellite antenna system comprises modules such as an antenna controller and the like, and is further provided with a one-key satellite-alignment key, a liquid crystal display screen and a state indicator lamp.

The heaven communication module is connected with a LAN port of the router through an RJ45 interface. The other LAN port of the router is connected to a broadband satellite communication system. When the portable wide-band and narrow-band integrated satellite communication terminal is used, a matched mobile phone application program APP is required. The WAN mouth of router passes through the net twine and is connected with satellite modem's LAN mouth, and the radio frequency interface connection wiFi antenna of router launches the wiFi signal, and user's cell-phone installation APP connects wiFi, can realize pronunciation and SMS conversation, monitoring information passback and remote operation configuration function through APP operation interface.

The method for using the portable broadband and narrowband converged satellite communication terminal is described in detail below.

After the portable wide-band and narrow-band integrated satellite communication terminal is started, a one-key satellite alignment key is pressed, satellite alignment on-line is automatically completed, and a Wi-Fi hotspot for accessing external equipment (such as a mobile phone) is provided.

And video acquisition equipment such as a user mobile phone or a control ball is connected with a Wi-Fi hotspot provided by the converged satellite communication terminal, and a high-speed satellite communication link is established with the command center to realize high-definition video transmission. By means of an APP visual operation interface, narrow-band voice and short message communication and remote monitoring functions are achieved.

And the user opens the special APP of the mobile phone, inputs the called number, performs dialing operation and waits for the connection of the called user. And the call request is pushed to the high-priority user according to the priority setting.

The user can apply for the switching priority to the converged satellite communication terminal through the permission switching key of the APP. When the low-priority users apply for the use right, the converged satellite communication terminal checks the priority of all the current connected users, and if all the low-priority users are low-priority users, the converged satellite communication terminal directly allocates high priority. If the high-priority user exists, the converged satellite communication terminal sends permission application release information, and after the user releases permission, the applicant can have the high priority. However, only one user mobile phone can realize the narrowband voice function at the same time, when one user mobile phone performs narrowband voice service, the other user mobile phones need to wait for the narrowband voice service to be idle to perform service.

The user can edit and check the short message by using the mobile phone APP, and multiple mobile phones of the user can receive and send the short message at the same time.

The state monitoring and log information of the broadband satellite communication system is transmitted back to the satellite master station through a narrow-band short message or a data link, automatic timing transmission or manual transmission according to needs is supported, and the behavior is selected by a user in an APP. The satellite master station can send a remote control instruction to the converged satellite communication terminal through a narrow-band short message or a data link, and the functions of parameter configuration, restarting and the like of the portable wide-band and narrow-band converged satellite communication terminal are realized.

A user can enjoy the Ka broadband satellite communication network and the heaven-earth communication network simultaneously by purchasing a set of portable broadband and narrowband integrated satellite communication terminal equipment, so that the occupied equipment space can be saved, and the investment of the user on engineering and operation and maintenance is reduced. When the Ka broadband satellite communication system cannot normally carry out satellite online, the heaven-through narrowband satellite communication system is used for carrying out backup communication, so that the communication link and the operation step of a user can be omitted, and the problem solving efficiency is improved. Meanwhile, the satellite master station can collect and master equipment fault log information at the first time, and the establishment of a product problem library is facilitated.

According to a second aspect of the embodiments of the present invention, the present application further provides a method for wideband-narrowband converged satellite communication, where the method includes:

step S301, a broadband satellite communication system establishes broadband connection with a communication opposite terminal, establishes a first communication link, and transmits broadband data through the first communication link; step S302, a narrow-band satellite communication system establishes narrow-band connection with a communication opposite terminal, establishes a second communication link, and transmits narrow-band data through the second communication link; step S303, if the first communication link is interrupted and the broadband satellite communication system cannot mutually transmit the video data with the opposite communication terminal, the narrowband satellite communication system is used for mutually transmitting the voice data with the opposite communication terminal through the second communication link.

In one embodiment, in operation, a narrowband satellite communication system obtains log data and device monitoring data of the broadband satellite communication system; and sending the log data and the equipment monitoring data to a satellite main station through a second communication link.

In one embodiment, the frequency band used by the narrowband satellite communication system is an S-band; and if the first communication link is interrupted due to extreme weather, the second communication link of the narrow-band satellite communication system is used for carrying out voice data intercommunication with the opposite communication terminal.

In one embodiment, the narrowband satellite communication system receives a user beam update parameter transmitted by a satellite master station through a second communication link; and sending the updated parameters to the broadband satellite communication system so that the broadband satellite communication system updates the satellite antenna system and the satellite modem.

In one embodiment, after receiving log data and device monitoring data of the broadband satellite communication system, which are sent by the narrowband satellite communication system through the second communication link, the satellite master station updates the locally stored converged satellite communication terminal database according to the identifier of the converged satellite communication terminal.

In one embodiment, when a call is made through the narrowband satellite communication system, a user inputs a called number into an application page on the mobile terminal to perform dialing operation, and waits for the called user to be connected.

In one embodiment, when voice data is transmitted to a correspondent node by using a second communication link, if an incoming call request of a user of the correspondent node is received, the incoming call request is pushed to a local high-priority user according to a preset priority.

Specifically, priority switching can also be performed, when a low-priority user applies for a use right, the convergence satellite communication terminal checks the priorities of all current connection users, and if all the low-priority users apply for the use right, the convergence satellite communication terminal directly allocates a high priority;

if the high-priority user exists, the converged satellite communication terminal sends permission application release information, and after the user releases permission, the applicant can have the high priority.

Illustratively, if there is no group leader in a rescue team, then all are low priority. If someone in the group applies for high priority, the user is directly given high priority, group leader level.

If there is already a group leader and there are other users in the group applying for the group leader, the priority of the group leader needs to be adjusted down first, and then the priority of the user needs to be adjusted up.

Preferably, the differentiated setting may be formed by setting a plurality of different high and low levels according to the level of the priority. For example, in a rescue team, the called priority of the mobile phone number of each member can be set from high to low in sequence. When the called party is called, if the calling time of the called number exceeds the preset time period threshold value and no one answers, the next low-level number is automatically switched to answer.

The time period threshold may be flexibly set, for example, to 15 seconds, and the application is not limited thereto.

In one embodiment, when an incoming call from a correspondent terminal is received through the narrowband satellite communication system, the incoming call is pushed to a high-priority user according to a priority setting performed in advance.

Illustratively, in a rescue team, the team leader has the highest priority and the team members have lower priorities. Therefore, the priority of the telephone number of the small group leader is set to be the highest, and when the incoming call is received through the narrow-band satellite communication system, the mobile phone number of the small group leader is pushed to carry out answering on the incoming call in a limited way.

In one implementation mode, when an authority application sent by a user is received, whether the authority of the user is a low-priority authority is judged; if yes, checking the priority authorities of all users; and if the priority authorities of all the users are all the low priority authorities, allocating the high priority authority to the users.

Specifically, an authority switching key is arranged on an application program on a mobile terminal of a user; the user can apply for the switching priority from the converged satellite communication terminal through the authority switching key. If the high-priority user exists, the converged satellite communication terminal sends permission application release information, and after the user releases permission, the applicant can have the high priority.

However, only one user mobile phone can realize the narrowband voice function at the same time, when one user mobile phone performs narrowband voice service, the other user mobile phones need to wait for the narrowband voice service to be idle to perform service.

It should be noted that the steps illustrated in the flowcharts of the figures may be performed in a computer system such as a set of computer-executable instructions and that, although a logical order is illustrated in the flowcharts, in some cases, the steps illustrated or described may be performed in an order different than presented herein.

It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and they may alternatively be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, or fabricated separately as individual integrated circuit modules, or fabricated as a single integrated circuit module from multiple modules or steps. Thus, the present invention is not limited to any specific combination of hardware and software.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A portable wide-narrow band converged satellite communication terminal, comprising:

a broadband satellite communication system and a narrowband satellite communication system;

the broadband satellite communication system establishes broadband connection with a communication opposite end, establishes a first communication link and transmits broadband data through the first communication link;

the narrow-band satellite communication system establishes narrow-band connection with the opposite communication terminal, establishes a second communication link and transmits narrow-band data through the second communication link;

and if the first communication link is interrupted and the broadband satellite communication system cannot mutually transmit the video data with the opposite communication terminal, using the narrowband satellite communication system to mutually transmit the voice data with the opposite communication terminal through the second communication link.

2. The portable broadband-narrowband converged satellite communication terminal of claim 1,

the frequency band used by the narrow-band satellite communication system is an S frequency band;

and if the first communication link is interrupted due to extreme severe weather, the narrowband satellite communication system is used for carrying out voice data intercommunication with the opposite communication terminal through the second communication link.

3. The portable broadband and narrowband converged satellite communication system according to claim 1, wherein when user beam information is updated, the satellite master station issues the updated parameters to the narrowband satellite communication system through the second communication link;

and the narrowband satellite communication system sends the updated parameters to the broadband satellite communication system so that the broadband satellite communication system updates the satellite antenna system and the satellite modem.

4. The portable broadband converged satellite communication system of claim 1,

the narrow-band satellite communication system is also used for acquiring log data and equipment monitoring data of the wide-band satellite communication system;

and sending the log data and the equipment monitoring data to a satellite main station through the second communication link.

5. The portable broadband-narrowband converged satellite communication terminal of claim 1,

the broadband satellite communication system comprises a satellite antenna system and a satellite modem;

the satellite antenna system comprises a base, a reflecting surface and a feed arm; the satellite modem is integrated in the base;

the narrow-band satellite communication system comprises a circuit board card and a passive antenna; the passive antenna is mounted on the base surface.

6. The portable broadband-narrowband converged satellite communication terminal of claim 5,

further comprising: the router is used for providing a wireless local area network so that a user can carry out interface configuration on the converged satellite communication terminal through the wireless network by using an application program on the mobile terminal;

the first LAN port of the router is connected with the narrowband satellite communication system;

a second LAN port of the router is connected with a satellite antenna system in the broadband satellite communication system;

the WAN port of the router is connected with a satellite modem in the broadband satellite communication system;

a radio frequency interface of the router is connected with a WiFi antenna, and the WiFi antenna transmits WiFi signals to provide a wireless network for the mobile terminal;

and the high-density energy battery is used for supplying power to the converged satellite communication terminal.

7. The portable broadband-narrowband converged satellite communication terminal of claim 5,

the reflecting surface is formed by assembling a plurality of split petals; the diameter is less than or equal to 0.8 meter.

8. The terminal according to claim 1, wherein when transmitting voice data to the opposite end using the second communication link, if an incoming call request from the user at the opposite end is received, the incoming call request is pushed to a local user with a high priority according to a preset priority.

9. The broadband-narrowband converged communication terminal of claim 1, further comprising a mobile terminal; the mobile terminal is provided with an application program; the mobile terminal is connected with the portable wide-band and narrow-band integrated satellite communication terminal through WiFi; the priority is set by the page of the application.

10. A method for communicating with a wide-band and narrow-band converged satellite, comprising:

the broadband satellite communication system establishes broadband connection with a communication opposite terminal, establishes a first communication link, and transmits broadband data through the first communication link;

the narrow-band satellite communication system establishes narrow-band connection with the opposite communication terminal, establishes a second communication link and transmits narrow-band data through the second communication link;

and if the first communication link is interrupted and the broadband satellite communication system cannot mutually transmit the video data with the opposite communication terminal, using the narrowband satellite communication system to mutually transmit the voice data with the opposite communication terminal through the second communication link.

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