CN116209014A - Communication cluster system and communication method - Google Patents

Abstract

The invention discloses a communication cluster system and a communication method, which belong to the technical field of communication cluster systems, wherein the communication cluster systems are interconnected to form an decentralized communication network system, a communication cluster system is assisted by the interconnection of block chain nodes to construct the decentralized communication network system, collected data is transmitted to the communication cluster system, the data transmitted between the communication cluster systems are encrypted and transmitted by adopting block chain link points, the communication cluster system is established to form the decentralized communication network system, and the communication cluster system is assisted by the interconnection of block chain link points to construct the decentralized communication network system, so that the node data of the communication cluster system and a communication record are stored in a block chain, and the problems of single-point fault and data leakage and data falsification are avoided.

Description

Communication cluster system and communication method

Technical Field

The invention relates to a communication cluster system, and also relates to a communication method of the communication cluster system, belonging to the technical field of the communication cluster system.

Background

The communication cluster system is a distributed computing system, and is composed of a plurality of computing nodes, is used for processing large-scale data and realizing high-throughput communication, can provide functions of high availability, expandability, load balancing and the like, and is commonly used for large-scale communication application in the fields of telecommunication, internet, finance and the like.

The communication cluster system is generally composed of control nodes and data nodes, wherein the control nodes are responsible for tasks, resource management, fault processing and the like, the data nodes are used for storing and processing data, the communication cluster system can realize communication and cooperation among the nodes through various technologies, such as distributed locks, message queues, RPC (remote procedure call) and the like, the performance, reliability and stability of the communication system can be effectively improved, and the communication cluster system is an indispensable important component in a modern communication system.

In the prior art, a communication cluster system is a solution for providing communication services by forming a cluster by a plurality of servers, and the defects mainly include the following points:

single point of failure: in a conventional cluster system, there is a problem that a single node fails to cause the whole cluster to be inoperable, which may bring a risk of service unavailability to a user.

In clustered systems, since data is stored between multiple servers, there may be security issues, such as data leakage, data tampering.

Disclosure of Invention

The invention mainly aims to provide a communication cluster system and a communication method, wherein the communication cluster system is interconnected to form a decentralization communication network system, a block chain node interconnection auxiliary communication cluster system is used for constructing the decentralization communication network system, collected data is transmitted to the communication cluster system, the data transmitted between the communication cluster systems are encrypted and transmitted by adopting block chain link points, the communication cluster system interconnection is established to form the decentralization communication network system, and the block chain link point interconnection auxiliary communication cluster system is used for constructing the decentralization communication network system, so that the node data and the communication records of the communication cluster system are stored in a block chain, and the problems of single-point fault, data leakage and data tampering are avoided.

The aim of the invention can be achieved by adopting the following technical scheme:

a communication cluster system comprises a plurality of groups of communication cluster systems, external data and block chain nodes;

the communication cluster system is interconnected to form a decentralised communication network system, and is used for carrying out interconnection control and data distribution on the communication cluster control nodes and the data nodes;

the block chain node interconnection auxiliary communication cluster system constructs a decentralization communication network system and is used for storing the node data and the communication record of the communication cluster system in a block chain;

and the external data coupling communication cluster system is used for transmitting the acquired data to the communication cluster system.

Preferably, the communication cluster system comprises a dispatching desk, a cluster core network, a transmission module, a cluster base station, a TD-LTE base station and a block chain node;

the dispatching desk is used for carrying out task dispatching, resource management, fault detection, safety management and integrated management on the communication data;

the cluster core network is used for carrying out data transmission, load balancing, fault tolerance processing and safety management on the communication data;

the transmission module is used for carrying out data transmission, data reception, data distribution and data synchronization on the communication data;

the cluster base station and the TD-LTE base station are used for carrying out user access, signal transmission, data processing, load balancing and system management on communication data;

and the blockchain node is used for storing blockchain data, realizing a consensus mechanism, executing intelligent contracts, participating in blockchain management and maintaining network security for communication data.

Preferably, the external data includes user data packets, control data packets, management data packets, external service data packets, security data packets, and other data packets.

Preferably, the trunking base station is connected with the trunking terminal, and the TD-LTE base station is connected with the TD-LTE terminal;

the cluster terminal is used for carrying out voice communication, data transmission, positioning navigation, emergency call, group management and system setting;

the TD-LTE terminal is used for high-speed data transmission, voice communication, group communication, positioning navigation, emergency call, various application support and security guarantee.

Preferably, the method for controlling and storing the safety protection of the communication cluster system data comprises the following steps:

s11: deploying an intelligent contract into a communication cluster system, and defining data access and storage rules;

s12: defining a data structure for the smart contract, including data fields and access rights;

s13: processing and verifying the data according to rules set by the intelligent contract;

s14: reading and modifying data by the smart contract, wherein the smart contract controls access and modification of the data according to the set rights and rules;

s5: and backing up and recovering the data according to the intelligent contract.

Preferably, the intelligent contract is used for performing authority control, data encryption transmission, data backup and recovery, data audit and supervision and data transaction management on data access.

Preferably, the encrypted data transmission adopts an asymmetric encryption algorithm to realize encrypted data transmission, and a public key cryptosystem based on an RSA algorithm comprises the following steps:

s21: a receiver generates a pair of public and private keys in a communication cluster system, the public keys are disclosed to a sender and used for encrypting data, and the private keys are not exposed to the outside and are used for decrypting the data;

s22: the sender encrypts data to be transmitted by using a public key of the receiver to obtain a ciphertext;

s23: the receiving party decrypts the ciphertext by using the private key of the receiving party, and original data is restored.

Preferably, the transmission module comprises a protocol converter, a router, a 5G network module and a satellite transmission module;

the protocol converter is used for carrying out protocol conversion, data format conversion, data analysis and encapsulation, message routing and message filtering on the communication data;

the 5G network module is used for 5G network connection management, data transmission, network optimization, safety protection and network management and monitoring;

the satellite transmission module is used for carrying out data transmission, signal modulation and demodulation, network management and optimization, safety protection and multi-satellite support on communication data.

Preferably, the clustered core network comprises eMME, eHSS, xGW, TCF and TMF;

an eMME for a mobility management entity responsible for mobility management and bearer management;

the eHSS is used for a broadband cluster user server which is responsible for cluster system subscription data management and maintenance;

xGW, an integrated gateway for supporting cluster service bearer management, data routing and forwarding;

the TCF is used for a cluster control function module responsible for cluster service scheduling management;

TMF, cluster media function module for data transmission of cluster service.

A communication method of a communication cluster system, comprising the steps of:

step one: the communication cluster systems are interconnected to form a decentralised communication network system;

step two: constructing a decentralised communication network system by interconnecting auxiliary communication cluster systems of block chain nodes;

step three: transmitting the acquired data to a communication cluster system;

step four: and encrypting and transmitting the data transmitted between the communication cluster systems by adopting block link points.

The beneficial technical effects of the invention are as follows:

the communication cluster system is interconnected to form the decentralization communication network system, the decentralization communication network system is constructed through the auxiliary communication cluster system for interconnecting the block chain nodes, collected data is transmitted to the communication cluster system, the data transmitted between the communication cluster systems are encrypted and transmitted through the block chain nodes, the decentralization communication network system is constructed through the interconnection of the communication cluster systems, and the auxiliary communication cluster system for interconnecting the block chain nodes is constructed, so that the decentralization communication network system is used for storing the node data of the communication cluster system and the communication record in the block chain, and the problems of single-point fault, data leakage and data tampering are avoided.

Drawings

Fig. 1 is a system overall frame structure diagram of a communication cluster system and a communication method according to a preferred embodiment of the present invention.

Fig. 2 is a communication cluster system diagram of a preferred embodiment of a communication cluster system and a communication method according to the present invention.

Fig. 3 is a system diagram of a transmission module according to a preferred embodiment of a communication cluster system and a communication method according to the present invention.

Fig. 4 is a diagram of a trunking core network system according to a preferred embodiment of a communication trunking system and communication method of the present invention.

Detailed Description

In order to make the technical solution of the present invention more clear and obvious to those skilled in the art, the present invention will be described in further detail with reference to examples and drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1 to fig. 4, the communication cluster system provided in this embodiment includes a plurality of groups of communication cluster systems, external data and blockchain nodes;

the communication cluster system is interconnected to form a decentralised communication network system, and is used for carrying out interconnection control and data distribution on the communication cluster control nodes and the data nodes;

the block chain node interconnection auxiliary communication cluster system constructs a decentralization communication network system and is used for storing the node data and the communication record of the communication cluster system in a block chain;

and the external data coupling communication cluster system is used for transmitting the acquired data to the communication cluster system.

In this embodiment, the communication trunking system includes a dispatching desk, a trunking core network, a transmission module, a trunking base station, a TD-LTE base station, and a blockchain node;

the dispatching desk is used for carrying out communication data:

task scheduling: the dispatching desk can dynamically allocate tasks to different server nodes for processing according to different load conditions and server performances so as to achieve the effect of load balancing.

And (3) resource management: the dispatching desk can monitor the resource use condition of each node in the cluster, such as CPU occupancy rate, memory occupancy rate, hard disk space and the like, so as to know the running state of the cluster in real time and make corresponding optimization and adjustment.

And (3) fault detection: the dispatching desk can monitor the running state of each node in the cluster, discover the fault node in time and repair or replace the fault node so as to ensure the stability and reliability of the cluster.

And (3) safety management: the dispatching desk can set access authority and security policy of the cluster, limit unauthorized access and operation and ensure the security of the cluster.

And (3) integrated management: the dispatching desk can also perform integrated management on different services in the cluster, such as unified management on services such as message queues, caches, databases and the like, so that the overall performance and efficiency of the cluster are improved.

The cluster core network is used for carrying out communication data:

and (3) data transmission: the cluster core network may carry data transmissions between nodes, including task assignments, data exchanges, and the like.

Load balancing: in a cluster system, load balancing is crucial, and a cluster core network can realize load balancing through traffic distribution, route forwarding and other modes, so that the overall performance of a cluster is improved.

Fault tolerance processing: the cluster core network can also realize fault-tolerant processing, for example, when a certain node fails, tasks are automatically transferred to other nodes for execution, and smooth completion of the tasks is ensured.

And (3) safety management: the trunking core network also needs to have higher security, for example, by adopting means of encryption communication protocol, access control and the like, so as to ensure that the intra-trunking communication is not interfered or destroyed by hackers or malicious attacks.

The transmission module is used for carrying out communication data:

and (3) data transmission: the communication cluster system can send the data to be transmitted to a designated receiving end through a network.

And (3) data receiving: the communication cluster system can receive and process data sent by other nodes.

And (3) data distribution: when a plurality of nodes need to access the same data, the communication cluster system can distribute the data to different nodes for processing according to a load balancing strategy so as to improve the performance and efficiency of the cluster.

Backing up data: in order to ensure the reliability and safety of the data, the communication cluster system can backup the data to a plurality of nodes so as to cope with the conditions of node faults or data damage and the like.

Data synchronization: in a distributed environment, the communication cluster system also needs to realize the function of data synchronization, so that the data consistency among all nodes is ensured;

the cluster base station and the TD-LTE base station are used for carrying out communication data:

user access: the trunking base station may provide an interface for the user to access the communication trunking system, connecting the user equipment to the trunking system.

And (3) signal transmission: the trunking base station can forward the signals sent by the user equipment to the trunking system for processing, and transmit the signals returned by the trunking system back to the user equipment.

And (3) data processing: the trunking base station can preprocess data sent by the user equipment, such as compression, encryption, decryption, etc., so as to improve efficiency and security of data transmission.

Load balancing: under the condition of large user quantity, the cluster base station also needs to realize the function of load balancing, and the user equipment is distributed to different cluster nodes for processing so as to ensure the performance and stability of the cluster system.

And (3) system management: the cluster base station also needs to realize some system management functions, such as monitoring the cluster node state, maintaining hardware equipment and the like, so as to ensure the normal operation of the cluster system.

The block link point is used for carrying out communication data:

blockchain data storage: the block chain node is responsible for storing transaction information and block data generated in the block chain network locally and guaranteeing the consistency and reliability of the data through a consensus algorithm.

The consensus mechanism is realized: the blockchain nodes participate in a consensus mechanism to verify, package, and broadcast transaction information and blockdata according to different consensus algorithms.

Intelligent contract execution: the blockchain node may execute the intelligent contract code, complete the corresponding business logic operation, and record the result on the blockchain.

Blockchain management participates in: the blockchain node can participate in blockchain management \ uff c\u5305 to conduct voting, proposal discussion and the like, and decision is made on the development and upgrading of the blockchain network.

Network security maintenance: the block chain link point needs to monitor the running state of the whole block chain network, discover and process possible attack behaviors, and maintain the safe and stable running of the network.

In this embodiment, the external data includes a user data packet, a control data packet, a management data packet, an external service data packet, a security data packet, and other data packets.

User data packet: the data packet sent by the user equipment to the communication cluster system comprises various types of texts, pictures, audio, video and the like.

Control data packet: refers to a data packet for controlling the operation of a communication network, including routing information, qoS parameters, MAC protocol control information, etc.

Management data package: refers to a data packet for managing a communication network device, including diagnostic information, configuration information, additional function information, etc.

External service data packet: refers to service data packets transmitted from an external system or network, such as data exchange, file transfer, etc.

And (3) a safety data packet: refers to data packets used to secure a communication network, including encryption, authentication, digital signatures, and the like.

Other data packets: other types of data packets may also be included, such as routing advertisements, time synchronization, multicasting, etc.

In this embodiment, the trunking base station is connected to a trunking terminal, and the TD-LTE base station is connected to a TD-LTE terminal;

the cluster terminal is used for:

voice communication: the trunking terminal can carry out voice communication, and real-time communication among people is realized through interphone, telephone and other devices.

And (3) data transmission: the cluster terminal can perform data transmission, including various types of data such as characters, pictures, videos and the like, and supports point-to-point or group transmission.

Positioning and navigation: the cluster terminal is provided with a positioning device (such as a GPS) and can send position information to other users or background servers and can receive the position information sent from the other users or the background servers.

Emergency call: the trunking terminal can send out an emergency call signal through an emergency call key, and the trunking terminal draws attention and responses of other users.

Group management: the cluster terminals can be added into different groups, so that users can conveniently carry out grouping management and mutual communication.

And (3) system setting: the cluster terminal may make some system settings such as volume adjustment, channel setting, language selection, screen display, etc.

The TD-LTE terminal is used for:

high-speed data transmission: the TD-LTE terminal can realize high-speed data transmission through the TD-LTE network and support data transmission of various formats such as video, audio and images.

Voice communication: the TD-LTE terminal supports voice communication and can communicate in real time through interphones, telephones and the like.

Group communication: the TD-LTE terminal can be added into different groups, so that the user can conveniently carry out grouping management and mutual communication.

Positioning and navigation: the TD-LTE terminal is equipped with a positioning device (such as GPS), and can send and receive location information to and from other users or a background server.

Emergency call: the TD-LTE terminal can send out an emergency call signal through an emergency call key, and the TD-LTE terminal draws attention and responds of other users.

A variety of applications support: the TD-LTE terminal can support various application programs, such as short messages, mails, browsers and the like, and provides richer services.

Safety guarantee: the TD-LTE terminal adopts a series of security measures to ensure the security and reliability of data transmission.

In this embodiment, the method for controlling and storing security protection of communication cluster system data is included:

s11: deploying an intelligent contract into a communication cluster system, and defining data access and storage rules;

s12: defining a data structure for the smart contract, including data fields and access rights;

s13: processing and verifying the data according to rules set by the intelligent contract;

s14: reading and modifying data by the smart contract, wherein the smart contract controls access and modification of the data according to the set rights and rules;

s5: and backing up and recovering the data according to the intelligent contract.

In this embodiment, the smart contracts are used for performing rights control, data encryption transmission, data backup and recovery, data audit and supervision, and data transaction management on data access.

In this embodiment, the encrypted data transmission adopts an asymmetric encryption algorithm to realize encrypted data transmission, and the public key cryptosystem based on the RSA algorithm includes the following steps:

s21: a receiver generates a pair of public and private keys in a communication cluster system, the public keys are disclosed to a sender and used for encrypting data, and the private keys are not exposed to the outside and are used for decrypting the data;

s22: the sender encrypts data to be transmitted by using a public key of the receiver to obtain a ciphertext;

s23: the receiving party decrypts the ciphertext by using the private key of the receiving party, and original data is restored.

In this embodiment, the transmission module includes a protocol converter, a router, a 5G network module, and a satellite transmission module;

the protocol converter is used for carrying out protocol conversion, data format conversion, data analysis and encapsulation, message routing and message filtering on the communication data;

the 5G network module is used for 5G network connection management, data transmission, network optimization, safety protection and network management and monitoring;

the satellite transmission module is used for carrying out data transmission, signal modulation and demodulation, network management and optimization, safety protection and multi-satellite support on communication data.

In this embodiment, the cluster core network includes eMME, eHSS, xGW, TCF and TMF;

an eMME for a mobility management entity responsible for mobility management and bearer management;

the eHSS is used for a broadband cluster user server which is responsible for cluster system subscription data management and maintenance;

xGW, an integrated gateway for supporting cluster service bearer management, data routing and forwarding;

the TCF is used for a cluster control function module responsible for cluster service scheduling management;

TMF, cluster media function module for data transmission of cluster service.

A communication method of a communication cluster system, comprising the steps of:

step one: the communication cluster systems are interconnected to form a decentralised communication network system;

step two: constructing a decentralised communication network system by interconnecting auxiliary communication cluster systems of block chain nodes;

step three: transmitting the acquired data to a communication cluster system;

step four: and encrypting and transmitting the data transmitted between the communication cluster systems by adopting block link points.

The above is merely a further embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art will be able to apply equivalents and modifications according to the technical solution and the concept of the present invention within the scope of the present invention disclosed in the present invention.

Claims (10)

1. A communication cluster system, characterized in that: the system comprises a plurality of groups of communication cluster systems, external data and block chain nodes;

the communication cluster system is interconnected to form a decentralised communication network system, and is used for carrying out interconnection control and data distribution on the communication cluster control nodes and the data nodes;

the block chain node interconnection auxiliary communication cluster system constructs a decentralization communication network system and is used for storing the node data and the communication record of the communication cluster system in a block chain;

and the external data coupling communication cluster system is used for transmitting the acquired data to the communication cluster system.

2. A communication cluster system according to claim 1, characterized in that: the communication cluster system comprises a dispatching desk, a cluster core network, a transmission module, a cluster base station, a TD-LTE base station and a block chain node;

the dispatching desk is used for carrying out task dispatching, resource management, fault detection, safety management and integrated management on the communication data;

the cluster core network is used for carrying out data transmission, load balancing, fault tolerance processing and safety management on the communication data;

the transmission module is used for carrying out data transmission, data reception, data distribution and data synchronization on the communication data;

the cluster base station and the TD-LTE base station are used for carrying out user access, signal transmission, data processing, load balancing and system management on communication data;

and the blockchain node is used for storing blockchain data, realizing a consensus mechanism, executing intelligent contracts, participating in blockchain management and maintaining network security for communication data.

3. A communication cluster system according to claim 2, characterized in that: the external data includes user data packets, control data packets, management data packets, external service data packets, security data packets, and other data packets.

4. A communication cluster system according to claim 3, characterized in that: the cluster base station is connected with the cluster terminal, and the TD-LTE base station is connected with the TD-LTE terminal;

the cluster terminal is used for carrying out voice communication, data transmission, positioning navigation, emergency call, group management and system setting;

the TD-LTE terminal is used for high-speed data transmission, voice communication, group communication, positioning navigation, emergency call, various application support and security guarantee.

5. A communication cluster system according to claim 4, characterized in that: the method comprises the following steps of:

s11: deploying an intelligent contract into a communication cluster system, and defining data access and storage rules;

s12: defining a data structure for the smart contract, including data fields and access rights;

s13: processing and verifying the data according to rules set by the intelligent contract;

s14: reading and modifying data by the smart contract, wherein the smart contract controls access and modification of the data according to the set rights and rules;

s5: and backing up and recovering the data according to the intelligent contract.

6. A communication cluster system according to claim 5, characterized in that: the intelligent contract is used for performing authority control, data encryption transmission, data backup and recovery, data audit and supervision and data transaction management on data access.

7. A communication cluster system according to claim 6, characterized in that: the encryption transmission of data is realized by adopting an asymmetric encryption algorithm, and a public key cryptosystem based on an RSA algorithm comprises the following steps:

s21: a receiver generates a pair of public and private keys in a communication cluster system, the public keys are disclosed to a sender and used for encrypting data, and the private keys are not exposed to the outside and are used for decrypting the data;

s22: the sender encrypts data to be transmitted by using a public key of the receiver to obtain a ciphertext;

s23: the receiving party decrypts the ciphertext by using the private key of the receiving party, and original data is restored.

8. A communication cluster system according to claim 7, characterized in that: the transmission module comprises a protocol converter, a router, a 5G network module and a satellite transmission module;

the protocol converter is used for carrying out protocol conversion, data format conversion, data analysis and encapsulation, message routing and message filtering on the communication data;

the 5G network module is used for 5G network connection management, data transmission, network optimization, safety protection and network management and monitoring;

the satellite transmission module is used for carrying out data transmission, signal modulation and demodulation, network management and optimization, safety protection and multi-satellite support on communication data.

9. A communication cluster system according to claim 8, characterized in that: the cluster core network includes eMME, eHSS, xGW, TCF and TMF;

an eMME for a mobility management entity responsible for mobility management and bearer management;

the eHSS is used for a broadband cluster user server which is responsible for cluster system subscription data management and maintenance;

xGW, an integrated gateway for supporting cluster service bearer management, data routing and forwarding;

the TCF is used for a cluster control function module responsible for cluster service scheduling management;

TMF, cluster media function module for data transmission of cluster service.

10. A communication cluster system according to claim 9, characterized in that: the communication method comprising the communication cluster system specifically comprises the following steps:

step one: the communication cluster systems are interconnected to form a decentralised communication network system;

step two: constructing a decentralised communication network system by interconnecting auxiliary communication cluster systems of block chain nodes;

step three: transmitting the acquired data to a communication cluster system;

step four: and encrypting and transmitting the data transmitted between the communication cluster systems by adopting block link points.

Images