CN115242624A - Configuration-free and opening-free air defense weapon communication system and method - Google Patents

Abstract

The embodiment of the application discloses an air defense weapon communication system and method free of configuration opening, and the system comprises: a first communication party and a second communication party; the first communication party comprises a first comprehensive communication service unit which is used for configuring first communication parameters of the first communication party to obtain first configuration information; the first communication system parameter adaptive algorithm module is used for receiving the first configuration information and planning the first configuration information to obtain first planned information; the first Beidou time service positioning system is used for receiving the first planned information and carrying out information interaction with the second Beidou time service positioning system; the second communication party comprises a second comprehensive communication service unit, a second Beidou time service positioning system and a second communication system parameter self-adaptive algorithm module. The method and the device solve the problems that a traditional air defense weapon communication system needs to complete a large amount of parameter setting when being opened, configuration and debugging work is heavy, opening time is slow, and requirements for professionals are high.

Description

Configuration-free and opening-free air defense weapon communication system and method

Technical Field

The present application relates to the field of communications technologies, and in particular, to a configuration-free open air defense weapon communication system and method.

Background

The field air defense weapons are gradually enhanced in combat capability, equipment types and quantity are increased, the deployed distances among the equipment are more dispersed, and wireless communication is the basic guarantee capability of the weapon system for exerting the combat capability in order to realize quick maneuvering and quick combat deployment under actual combat conditions. The weapon system is limited by the influence of various factors such as transmission distance, bandwidth, transmission information types, terrain characteristics and electromagnetic wave transmission characteristics, and the communication problem of the weapon system is solved by additionally arranging various transmission systems such as short waves, ultra-short waves, microwaves and scattering. At present, the wireless communication of a weapon system is opened, all parameters including communication means, frequency points (or frequency hopping tables), grouping setting and the like which need to be communicated are completely consistent, and under the condition that the weapon system cannot be opened, the communication product is difficult to determine whether the communication product is in fault or the parameter setting is inconsistent.

Disclosure of Invention

The invention aims to provide a configuration-free opening air defense weapon communication system and method, and solves the problems that a large amount of parameter setting needs to be completed when a traditional air defense weapon communication system is opened, configuration and debugging work is heavy, the opening time is slow, and requirements on professionals are high.

In order to achieve at least one of the above purposes, the following technical scheme is adopted in the application:

the application provides in a first aspect a provisioning-free open air defense weapon communication system, comprising:

a first communication party and a second communication party;

the first communication party comprises a first comprehensive communication service unit, a first Beidou time service positioning system and a first communication system parameter adaptive algorithm module;

the second communication party comprises a second comprehensive communication service unit, a second Beidou time service positioning system and a second communication system parameter adaptive algorithm module;

the first integrated communication service unit is used for configuring a first communication parameter of the first communication party to obtain first configuration information;

the first communication system parameter adaptive algorithm module is used for receiving the first configuration information and planning the first configuration information to obtain first planned information;

the first Beidou time service positioning system is used for receiving the first planned information and carrying out information interaction with the second Beidou time service positioning system;

the second integrated communication service unit is configured to configure the communication parameters of the second communication party to obtain second configuration information;

the second communication system parameter adaptive algorithm module is used for receiving the second configuration information and planning the second configuration information to obtain second planned information;

and the second Beidou time service positioning system is used for receiving the second planned information and carrying out information interaction with the first Beidou time service positioning system.

In a specific embodiment, after the first Beidou time service positioning system and the second Beidou time service positioning system carry out information interaction,

the first communication system parameter adaptive algorithm module is further configured to receive the second planned information, perform identification and judgment to obtain second demand configuration information of the second communication party, and distribute the second demand configuration information to the first integrated communication service unit;

the first integrated communication service unit is further configured to receive the second requirement configuration information, and dynamically adjust the first configuration information according to the second requirement configuration information, so as to complete link establishment between the first communication party and the second communication party;

the second communication system parameter adaptive algorithm module is further configured to receive the first planned information, perform identification and judgment to obtain first demand configuration information of the first communication party, and distribute the first demand configuration information to the second integrated communication service unit;

the second integrated communication service unit is further configured to receive the first requirement configuration information, and dynamically adjust the second configuration information according to the first requirement configuration information, so as to complete the link establishment between the first communication party and the second communication party.

In one embodiment, the first integrated communication service unit and the second integrated communication service unit internally integrate short wave, ultra short wave, microwave, optical fiber and coated wire communication means.

In one particular embodiment of the method of the invention,

the first communication system parameter adaptive algorithm module further comprises:

a first parameter collection module for receiving the first configuration information of different communication means of the first integrated communication service unit;

the first parameter planning module is used for automatically planning the first configuration information to obtain the first planned information;

the first automatic identification module is used for automatically identifying second planned information of the second communication party to obtain second demand configuration information of the second communication party and judging whether the second communication party needs to access a communication network;

the first automatic distribution module is used for selecting parameters required in the second requirement configuration information of the second communication party according to the identification of the first automatic identification module and automatically distributing the parameters to the first comprehensive communication service unit;

the second communication system parameter adaptive algorithm module further comprises:

a second parameter collection module for receiving the second configuration information of a different communication means of the second integrated communication service unit;

the second parameter planning module is used for automatically planning the second configuration information to obtain second planned information;

the second automatic identification module is used for automatically identifying the first planned information of the first communication party to obtain first demand configuration information of the first communication party and judging whether the first communication party needs to access a communication network or not;

and the second automatic distribution module is used for selecting parameters required in the first requirement configuration information of the first communication party according to the identification of the second automatic identification module and automatically distributing the parameters to the second comprehensive communication service unit.

In a specific embodiment, the first beidou time service positioning system and the second beidou time service positioning system support short message communication. The second aspect of the present application further provides a configuration-free open air defense weapon communication method, including:

the first integrated communication service unit of the first communication party performs initial configuration on the first communication parameters to obtain first configuration information,

a second integrated communication service unit of a second communication party performs initial configuration on a second communication parameter to obtain second configuration information;

the first communication system parameter self-adaptive algorithm module plans the first configuration information to obtain first planned information,

the second communication system parameter adaptive algorithm module plans the second configuration information to obtain second planned information;

and the first Beidou time service positioning system and the second Beidou positioning system carry out information interaction on the first planned information and the second planned information.

In a specific embodiment, the method further comprises:

after the first Beidou time service positioning system and the second Beidou positioning system carry out information interaction on the first planned information and the second planned information,

the first communication system parameter adaptive algorithm module receives the second planned information, performs identification and judgment to obtain second demand configuration information of the second communication party, and distributes the second demand configuration information to the first comprehensive communication service unit;

the second communication system parameter adaptive algorithm module receives the first planned information, performs identification and judgment to obtain first requirement configuration information of the first communication party, and distributes the first requirement configuration information to the second comprehensive communication service unit;

the first integrated communication service unit receives the second requirement configuration information and dynamically adjusts the first configuration information according to the second requirement configuration information;

the second integrated communication service unit receives the first requirement configuration information and dynamically adjusts the second configuration information according to the first requirement configuration information;

and completing the chain establishment of the first communication party and the second communication party.

In one particular embodiment of the method of the invention,

the first requirement configuration information is:

the first communication system parameter self-adaptive algorithm module forms parameter information which needs to be synchronized with the second communication party according to the second configuration information;

the second requirement configuration information is:

and the second communication system parameter self-adaptive algorithm module forms parameter information which needs to be synchronized with the first communication party according to the first configuration information.

In one particular embodiment of the present invention,

the first communication system parameter adaptive algorithm module receives the second planned information, performs identification and judgment to obtain second demand configuration information of the second communication party, and distributes the second demand configuration information to the first integrated communication service unit, and the method further includes:

automatically identifying and judging the second planned information through algorithm demodulation, and automatically distributing the second demand configuration information;

the second communication system parameter adaptive algorithm module receives the first planned information, performs identification and judgment to obtain first requirement configuration information of the first communication party, and distributes the first requirement configuration information to the second integrated communication service unit, and the method further includes:

and automatically identifying and judging the first planned information through algorithm demodulation, and automatically distributing the first demand configuration information.

The beneficial effect of this application is as follows:

aiming at the problems in the prior art, the invention provides a configuration-free and open-free air defense weapon communication system and method based on Beidou No. three for the first time, a first communication system parameter self-adaptive algorithm module of a first communication party collects communication parameter configuration information of a first comprehensive communication service unit for planning, and formed first planned information is sent out through a first Beidou time service positioning system based on Beidou No. three; and a second communication system parameter self-adaptive algorithm module of the second communication party receives first planned information transmitted by a first Beidou time service positioning system of the first communication party, automatically identifies the first planned information through algorithm demodulation to form parameters needing synchronization, obtains first requirement configuration information, automatically distributes the first requirement configuration information, and transmits the first requirement configuration information to a second comprehensive communication service unit of the second communication party, and the second comprehensive communication service unit automatically and dynamically adjusts configuration information of a communication system of the second communication party according to the received first requirement configuration information to complete parameter information configuration and complete establishment of communication links of the two parties.

The method based on the Beidou I is adopted for the first time, the communication system can be opened and built without manual configuration, the problems that the traditional air defense weapon communication system is complicated in terms of geographic environment and electromagnetic environment when opened, vehicles and troops are spread and dispersed, a large amount of parameter setting needs to be completed when contact is difficult, configuration and debugging work is heavy, opening time is slow, requirements for professionals are high, and configuration-free opening of the communication system is achieved.

Drawings

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

FIG. 1 shows a schematic diagram of a provisioning free open air defense weapon communication system in one embodiment of the present application.

Fig. 2 shows a flow chart of a configuration-free open air defense weapon communication method in one embodiment of the present application.

Detailed Description

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of one or more embodiments. It may be evident, however, that such embodiment(s) may be practiced without these specific details.

In the description of the present application, it should be noted that the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are merely for convenience of describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present application. Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

It is further noted that, in the description of the present application, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

To solve the problems in the prior art, an embodiment of the present application provides a configuration-free open air defense weapon communication system, as shown in fig. 1, including:

a first communication party and a second communication party;

the first communication party comprises a first comprehensive communication service unit, a first Beidou time service positioning system and a first communication system parameter adaptive algorithm module;

the second communication party comprises a second comprehensive communication service unit, a second Beidou time service positioning system and a second communication system parameter adaptive algorithm module;

the first integrated communication service unit is used for configuring a first communication parameter of the first communication party to obtain first configuration information;

the second integrated communication service unit is used for configuring the communication parameters of the second communication party to obtain second configuration information;

in one embodiment, the first integrated communication service unit and the second integrated communication service unit internally integrate short wave, ultra short wave, microwave, optical fiber and coated wire communication means.

According to the communication system and the communication method, the communication service unit is used for automatically configuring the communication parameters of the communication service unit according to the requirement configuration information of the other party of communication, and the manual configuration and debugging of professionals are not needed, so that the configuration-free effect of the communication system is realized.

The first communication system parameter adaptive algorithm module is used for receiving the first configuration information and planning the first configuration information to obtain first planned information;

the second communication system parameter adaptive algorithm module is used for receiving the second configuration information and planning the second configuration information to obtain second planned information;

in a specific embodiment, the first communication system parameter adaptive algorithm module plans the first configuration information into a parameter form suitable for identification, so that transmission of the first Beidou time service positioning system and identification and judgment of the second communication system parameter adaptive algorithm module are facilitated, and therefore the first required configuration information is obtained and distributed;

the second communication system parameter adaptive algorithm module plans the second configuration information as above, which is not described herein again.

In one particular embodiment of the method of the invention,

the first communication system parameter adaptive algorithm module further comprises:

a first parameter collection module for receiving the first configuration information of different communication means of the first integrated communication service unit;

the first parameter planning module is used for automatically planning the first configuration information to obtain the first planned information;

the first automatic identification module is used for automatically identifying second planned information of the second communication party to obtain second demand configuration information of the second communication party and judging whether the second communication party needs to access a communication network;

the first automatic distribution module is used for selecting parameters required in the second requirement configuration information of the second communication party according to the identification of the first automatic identification module and automatically distributing the parameters to the first comprehensive communication service unit;

the second communication system parameter adaptive algorithm module further comprises:

a second parameter collecting module for receiving the second configuration information of different communication means of the second integrated communication service unit;

the second parameter planning module is used for automatically planning the second configuration information to obtain second planned information;

the second automatic identification module is used for automatically identifying the first planned information of the first communication party to obtain first demand configuration information of the first communication party and judging whether the first communication party needs to access a communication network;

and the second automatic distribution module is used for selecting parameters required in the first requirement configuration information of the first communication party according to the identification of the second automatic identification module and automatically distributing the parameters to the second comprehensive communication service unit.

The communication system parameter self-adaptive algorithm module plans and identifies the configuration information of the comprehensive communication service unit, and distributes the required configuration information to the comprehensive communication service unit to dynamically adjust the parameters, so that the communication link establishment is realized.

The first Beidou time service positioning system is used for receiving the first planned information and carrying out information interaction with the second Beidou time service positioning system;

and the second Beidou time service positioning system is used for receiving the second planned information and carrying out information interaction with the first Beidou time service positioning system.

In a specific embodiment, the first beidou time service positioning system and the second beidou time service positioning system support short message communication.

According to the communication system parameter self-adaptive algorithm module, planned information is interacted through a Beidou time service positioning system based on the Beidou I, the planned information is transmitted to the communication system parameter self-adaptive algorithm module of the other side to be identified and judged to obtain requirement configuration information, and then the requirement configuration information is distributed to the comprehensive communication service unit to dynamically adjust parameters, so that communication link establishment is achieved.

According to the method, the parameter interaction method based on the Beidou I is adopted for the first time, the configuration information can be more accurately and automatically interacted without being manually used as a medium for the interaction of the configuration information, the configuration information is planned and identified through a communication system parameter self-adaptive algorithm module, the configuration information is planned into a parameter form suitable for identification, the required configuration information is obtained through identification, the required configuration information is distributed, the configuration information is dynamically adjusted through a comprehensive communication service unit, the parameter configuration and debugging are not required to be manually carried out, the automatic configuration of the communication parameters is realized, the problems that when a traditional air defense weapon communication system is opened, the situation that the situation is complex in the face of geographic environment and electromagnetic environment, vehicles and troops are spread and dispersed, a large amount of parameter setting needs to be completed when contact is difficult, the configuration and debugging work is heavy, the opening time is slow, and the requirement on professionals is high are solved, and the configuration-free opening of the communication system is realized.

In one particular embodiment of the present invention,

after the first Beidou time service positioning system and the second Beidou time service positioning system carry out information interaction,

the first communication system parameter adaptive algorithm module is further configured to receive the second planned information, perform identification and judgment to obtain second demand configuration information of the second communication party, and distribute the second demand configuration information to the first integrated communication service unit;

the first integrated communication service unit is further configured to receive the second requirement configuration information, and dynamically adjust the first configuration information according to the second requirement configuration information, so as to complete the link establishment between the first communication party and the second communication party;

the second communication system parameter adaptive algorithm module is further configured to receive the first planned information, perform identification and judgment to obtain first demand configuration information of the first communication party, and distribute the first demand configuration information to the second integrated communication service unit;

the second integrated communication service unit is further configured to receive the first requirement configuration information, and dynamically adjust the second configuration information according to the first requirement configuration information, so as to complete the link establishment between the first communication party and the second communication party.

In a specific embodiment, the first communication party is a communication system, and the second communication party is a communication system vehicle to be accessed. The second aspect of the present application further provides a configuration-free open air defense weapon communication method, as shown in fig. 2, including:

s100, the first integrated communication service unit of the first communication party performs initial configuration on the first communication parameter to obtain first configuration information,

a second integrated communication service unit of a second communication party performs initial configuration on a second communication parameter to obtain second configuration information;

s200, the first communication system parameter adaptive algorithm module plans the first configuration information to obtain first planned information,

the second communication system parameter adaptive algorithm module plans the second configuration information to obtain second planned information;

s300, the first Beidou time service positioning system and the second Beidou positioning system carry out information interaction on the first planned information and the second planned information.

In a specific embodiment, the method further comprises:

s400, the first communication system parameter adaptive algorithm module receives the second planned information, performs identification and judgment to obtain second demand configuration information of the second communication party, and distributes the second demand configuration information to the first comprehensive communication service unit;

the second communication system parameter adaptive algorithm module receives the first planned information, performs identification and judgment to obtain first demand configuration information of the first communication party, and distributes the first demand configuration information to the second comprehensive communication service unit;

in one particular embodiment of the present invention,

the first requirement configuration information is:

the first communication system parameter self-adaptive algorithm module forms parameter information which needs to be synchronized with the second communication party according to the second configuration information;

the second requirement configuration information is:

and the second communication system parameter self-adaptive algorithm module forms parameter information which needs to be synchronized with the first communication party according to the first configuration information.

In a specific embodiment, the second planned information is automatically identified and judged through algorithm demodulation, and the second demand configuration information is automatically distributed;

s500, the first integrated communication service unit receives the second requirement configuration information and dynamically adjusts the first configuration information according to the second requirement configuration information;

the second integrated communication service unit receives the first requirement configuration information and dynamically adjusts the second configuration information according to the first requirement configuration information;

and completing the chain establishment of the first communication party and the second communication party.

The application provides a configuration-free and opening air defense weapon communication system and method, a first communication system parameter self-adaptive algorithm module of a first communication party collects communication parameter configuration information of a first comprehensive communication service unit, planning is carried out, and formed first planned information is sent out through a first Beidou time service positioning system; the parameter self-adaptive algorithm module of the second communication system of the second communication party receives first planned information transmitted by the Beidou time service positioning system of the first communication party, the first planned information is automatically identified through algorithm demodulation to form parameters needing synchronization, first requirement configuration information is obtained and automatically distributed, and the parameters are transmitted to a second comprehensive communication service unit of the second communication party, the second comprehensive communication service unit dynamically adjusts the configuration information of the communication system of the second communication party according to the received first requirement configuration information, parameter information configuration is completed, establishment of communication links of the two parties is completed, the establishment and opening of the communication links can be achieved without manual parameter configuration and debugging in the whole process, configuration-free opening of the communication system is achieved, and the problems that when a traditional air defense weapon communication system is opened, the geographic environment and the electromagnetic environment are complex, spreading and dispersing between vehicles and troops are caused, when communication is difficult, a large amount of parameter setting is needed, configuration and debugging work is heavy, the opening time is slow, and requirements for professionals are high are solved.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and it will be obvious to those skilled in the art that other variations or modifications may be made on the basis of the above description, and all embodiments may not be exhaustive, and all obvious variations or modifications may be included within the scope of the present invention.

Claims (9)

1. A provisioning-free open air defense weapon communication system, comprising:

a first party and a second party;

the first communication party comprises a first comprehensive communication service unit, a first Beidou time service positioning system and a first communication system parameter adaptive algorithm module;

the second communication party comprises a second comprehensive communication service unit, a second Beidou time service positioning system and a second communication system parameter adaptive algorithm module;

the first integrated communication service unit is used for configuring a first communication parameter of the first communication party to obtain first configuration information;

the first communication system parameter adaptive algorithm module is used for receiving the first configuration information and planning the first configuration information to obtain first planned information;

the first Beidou time service positioning system is used for receiving the first planned information and carrying out information interaction with the second Beidou time service positioning system;

the second integrated communication service unit is used for configuring the communication parameters of the second communication party to obtain second configuration information;

the second communication system parameter adaptive algorithm module is used for receiving the second configuration information and planning the second configuration information to obtain second planned information;

and the second Beidou time service positioning system is used for receiving the second planned information and carrying out information interaction with the first Beidou time service positioning system.

2. The system of claim 1,

after the first Beidou time service positioning system and the second Beidou time service positioning system carry out information interaction,

the first communication system parameter adaptive algorithm module is further configured to receive the second planned information, perform identification and judgment to obtain second demand configuration information of the second communication party, and distribute the second demand configuration information to the first integrated communication service unit;

the first integrated communication service unit is further configured to receive the second requirement configuration information, and dynamically adjust the first configuration information according to the second requirement configuration information, so as to complete the link establishment between the first communication party and the second communication party;

the second communication system parameter adaptive algorithm module is further configured to receive the first planned information, perform identification and judgment to obtain first demand configuration information of the first communication party, and distribute the first demand configuration information to the second integrated communication service unit;

the second integrated communication service unit is further configured to receive the first requirement configuration information, and dynamically adjust the second configuration information according to the first requirement configuration information, so as to complete the link establishment between the first communication party and the second communication party.

3. The system of claim 1,

the first integrated communication service unit and the second integrated communication service unit integrate short wave, ultra short wave, microwave, optical fiber and coated wire communication means inside.

4. The system of claim 3,

the first communication system parameter adaptive algorithm module further comprises:

a first parameter collection module for receiving the first configuration information of different communication means of the first integrated communication service unit;

the first parameter planning module is used for automatically planning the first configuration information to obtain the first planned information;

the first automatic identification module is used for automatically identifying second planned information of the second communication party to obtain second demand configuration information of the second communication party and judging whether the second communication party needs to access a communication network;

the first automatic distribution module is used for selecting parameters required in the second requirement configuration information of the second communication party according to the identification of the first automatic identification module and automatically distributing the parameters to the first comprehensive communication service unit;

the second communication system parameter adaptive algorithm module further comprises:

a second parameter collection module for receiving the second configuration information of a different communication means of the second integrated communication service unit;

the second parameter planning module is used for automatically planning the second configuration information to obtain second planned information;

the second automatic identification module is used for automatically identifying the first planned information of the first communication party to obtain first demand configuration information of the first communication party and judging whether the first communication party needs to access a communication network;

and the second automatic distribution module is used for selecting parameters required in the first requirement configuration information of the first communication party according to the identification of the second automatic identification module and automatically distributing the parameters to the second comprehensive communication service unit.

5. The system of claim 1,

the first Beidou time service positioning system and the second Beidou time service positioning system support short message communication.

6. A method of provisioning-free open air defense weapon communication, comprising:

the first integrated communication service unit of the first communication party performs initial configuration on the first communication parameters to obtain first configuration information,

a second integrated communication service unit of a second communication party performs initial configuration on a second communication parameter to obtain second configuration information;

the first communication system parameter self-adaptive algorithm module plans the first configuration information to obtain first planned information,

the second communication system parameter adaptive algorithm module plans the second configuration information to obtain second planned information;

and the first Beidou time service positioning system and the second Beidou positioning system carry out information interaction on the first planned information and the second planned information.

7. The method of claim 6, further comprising:

after the first Beidou time service positioning system and the second Beidou positioning system carry out information interaction on the first planned information and the second planned information,

the first communication system parameter adaptive algorithm module receives the second planned information, performs identification and judgment to obtain second demand configuration information of the second communication party, and distributes the second demand configuration information to the first comprehensive communication service unit;

the second communication system parameter adaptive algorithm module receives the first planned information, performs identification and judgment to obtain first demand configuration information of the first communication party, and distributes the first demand configuration information to the second comprehensive communication service unit;

the first integrated communication service unit receives the second requirement configuration information and dynamically adjusts the first configuration information according to the second requirement configuration information;

the second integrated communication service unit receives the first requirement configuration information and dynamically adjusts the second configuration information according to the first requirement configuration information;

and completing the chain establishment of the first communication party and the second communication party.

8. The method of claim 7,

the first requirement configuration information is:

the first communication system parameter adaptive algorithm module forms parameter information which needs to be synchronized with the second communication party according to the second configuration information;

the second requirement configuration information is:

and the second communication system parameter self-adaptive algorithm module forms parameter information which needs to be synchronized with the first communication party according to the first configuration information.

9. The method of claim 7,

the first communication system parameter adaptive algorithm module receives the second planned information, performs identification and judgment to obtain second demand configuration information of the second communication party, and distributes the second demand configuration information to the first integrated communication service unit, and the method further includes:

automatically identifying and judging the second planned information through algorithm demodulation, and automatically distributing the second demand configuration information;

the second communication system parameter adaptive algorithm module receives the first planned information, performs identification and judgment to obtain first requirement configuration information of the first communication party, and distributes the first requirement configuration information to the second integrated communication service unit, and the method further includes:

and automatically identifying and judging the first planned information through algorithm demodulation, and automatically distributing the first demand configuration information.

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