CN114024848A - A method to improve system robustness by optimizing node communication - Google Patents

Abstract

The invention relates to the technical field of data processing, and discloses a method for improving system robustness by optimizing node communication, a method for improving system robustness by optimizing node communication, and achieving the effect of verification by optimizing nodes , thereby improving the robustness of the system, maximizing the transmission capacity of the network, and ensuring the efficiency of its transmission; the optimized communication node enhances its architectural robustness, and the specific steps are as follows: S1. Create a code and set parameters in Several communication nodes are formed in the communication system. A method of improving system robustness by optimizing node communication. By using genetic algorithm, it is ensured that after the structure of the communication network is optimized, the structure of the communication node reaches the optimal level, which greatly improves the communication transmission capacity of the communication node and maintains the information transmission of the network. The efficiency is not affected, and the degree of each node in the network remains unchanged, which meets the verification conditions of communication nodes in practical applications.

Description

Method for improving system robustness by optimizing node communication

Technical Field

The invention relates to the technical field of data processing, in particular to a method for improving system robustness by optimizing node communication.

Background

Computer and communication network systems are one of the most important infrastructures of today's society, and mobile terminals as service platforms access parties can provide various types of services for users, including social, commercial and financial, government services, and the like, and since various applications such as bank transfer can be gradually completed on mobile terminal equipment platforms, representative functions of mobile terminals are no longer satisfied or limited to voice communication or messaging functions.

In real life, mobile communication equipment has gradually become a common access and distribution approach of an external service platform, however, how to safely distribute multimedia services by a mobile terminal is always limited by the processing capability of the mobile terminal, since the birth of the mobile equipment, the computing processing capability of the mobile equipment inhibits the use of lightweight applications and complex security algorithms, so that a cloud computing architecture aiming at reducing the burden of the mobile equipment is provided, the cloud computing architecture can be completed by subscribing published mobile robust services to execute the lightweight multimedia applications and the complex security algorithms, and by using a cloud computing protocol management mode, the cloud computing protocol management mode is attempted to overcome the existing limitations of the mobile equipment in terms of providing multimedia sensing signal processing and application of mobile security services.

Disclosure of Invention

The invention provides a method for improving the robustness of a system by optimizing node communication, which has the advantage of improving the robustness and the stability of the system by optimizing the node communication and solves the problems in the prior art.

The invention provides the following technical scheme: a method for improving the robustness of the system by optimizing the node communication, the node is optimized to achieve the effect of verification, thereby improving the robustness of the system, improving the transmission capability of the network to the maximum extent and ensuring the transmission efficiency;

the optimized communication node enhances the building robustness, and comprises the following specific steps:

s1, creating codes for parameter setting

Forming a plurality of communication nodes in a communication system, connecting the communication nodes with each other to create a plurality of network schemes by new codes, setting initial parameters according to the characteristics of the nodes, and matching the initial parameters with the codes to establish connection between the two parties;

s2, network node initialization

Exchanging the connection modes of the coding network scheme formed by a plurality of network nodes, and verifying the state of the network nodes after the exchanged connection modes;

s3, reserving effective nodes

Adopting a mixed screening mode for the network nodes which do not pass the verification, recombining the nodes screened from useful information in the network nodes, and increasing the probability of the nodes to be reserved;

s4, data information recoding

The reserved useful nodes are paired again, and codes are randomly selected from two paired nodes to be interchanged to form a new cross node;

s5, publishing data information

Adding the obtained new cross node into a frame node data group for publishing;

s6, generating new node

Combining the nodes of the effective data in the data group to generate a brand new node;

s7, verifying the state of the recombinant node

And (3) repeating the operation in the step (2) to verify the brand-new node, outputting and storing the node after the verification is passed, recombining and verifying the node until the node passes the verification if the verification is not passed, and finishing the optimization.

Preferably, the step S1 specifically includes: and starting the server, creating codes and setting parameters by the client, and establishing connection between the client and the server.

Preferably, the step S2 specifically includes: the client end waits for data to be input, and the server waits for the client end data to be received from the network at the interface for initialization.

Preferably, the network nodes which fail to pass the verification are subjected to mixed screening, and useful information obtained by screening is recombined, so that the useful information can be retained to increase the probability of retention.

Preferably, the step S4 specifically includes: and carrying out re-pairing on the network nodes formed by the effective data information, and coding and exchanging the paired nodes to form a brand new cross node.

Preferably, the step S5 specifically includes: adding the obtained cross node data into the data group in the network system for publication.

Preferably, the step S6 specifically includes: the node combination of the effective data in the data group generates a new node for rearrangement.

Preferably, the step S7 specifically includes: returning the recombined node to the step of S2, making the network nodes mutually authenticate each other, and repeating the steps to make the nodes pass the authentication and then finishing the optimization.

The invention has the following beneficial effects:

according to the method for improving the system robustness by optimizing the node communication, the genetic algorithm is used, the communication node structure is guaranteed to reach the optimal level after the communication network is subjected to structure optimization, the communication transmission capacity of the communication node is greatly improved, the information transmission efficiency of the network is kept unaffected, the degree of each node in the network is kept unchanged, the verification condition of the communication node in practical application is met, the communication network is subjected to structure optimization by using a screening method, the structural distribution of the optimized communication node is kept unchanged, and the method can be used for optimizing different types of network optimization.

Drawings

FIG. 1 is a schematic flow chart of the steps of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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 invention.

A method for improving the robustness of the system by optimizing the node communication, the node is optimized to achieve the effect of verification, thereby improving the robustness of the system, improving the transmission capability of the network to the maximum extent and ensuring the transmission efficiency;

optimizing a communication node to enhance the building robustness, specifically comprising the following steps:

s1, creating codes for parameter setting

Forming a plurality of communication nodes in a communication system, connecting the communication nodes with each other to create a plurality of network schemes by new codes, and setting initial parameters according to the characteristics of the nodes;

s2, network node initialization

Exchanging the connection modes of the coding network scheme formed by a plurality of network nodes, and verifying the state of the network nodes after the exchanged connection modes;

s3, reserving effective nodes

Adopting a mixed screening mode for the network nodes which do not pass the verification, recombining the nodes screened from useful information in the network nodes, and increasing the probability of the nodes to be reserved;

s4, data information recoding

The reserved useful nodes are paired again, and codes are randomly selected from two paired nodes to be interchanged to form a new cross node;

s5, publishing data information

Adding the obtained new cross node into a frame node data group for publishing;

s6, generating new node

Combining the nodes of the effective data in the data group to generate a brand new node;

s7, verifying the state of the recombinant node

And (3) repeating the operation in the step (2) to verify the brand-new node, outputting and storing the node after the verification is passed, recombining and verifying the node until the node passes the verification if the verification is not passed, and finishing the optimization.

The step S1 specifically includes: starting a server, creating codes and setting parameters by a client, establishing connection between the two parties, wherein the step S2 specifically comprises the following steps: when the client is waiting to input data, the server waits for the client data to be received from the network at the interface for initialization, and the step S3 specifically includes: performing hybrid screening on network nodes which fail to pass the verification, and recombining useful information obtained by screening to enable the useful information to be reserved and increase the probability of the useful information being reserved, wherein the step S4 specifically includes: the network nodes formed by the effective data information are paired again, and the paired nodes are coded and exchanged to form a brand new cross node, so that the step S5 is specifically as follows: adding the obtained cross node data into a data group in the network system for publishing, wherein the step S6 specifically comprises the following steps: the combination of the nodes of the effective data in the data group generates a new node for rearrangement, and the step S7 specifically includes: returning the recombined node to the step of S2, making the network nodes mutually authenticate each other, and repeating the steps to make the nodes pass the authentication and then finishing the optimization.

It is noted that, herein, relational terms such as first and second, and the like may be 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.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A method for improving system robustness by optimizing node communication, it is characterized in that: by optimizing the node to make it achieve the effect of verification, thereby improving the robustness of the system, maximizing the transmission capacity of the network, and simultaneously ensure the efficiency of its transmission; The optimized communication node enhances its architectural robustness, and the specific steps are as follows: S1. Create code for parameter setting Several communication nodes are formed in the communication system, and several communication nodes are connected to each other to create new codes to form multiple network schemes, and initial parameters are set according to the node characteristics; S2, network node initialization Exchange the connection modes of the coding network scheme composed of many network nodes, and verify the status of the network nodes after the interchanged connection modes; S3, keep valid nodes The network nodes that fail to pass the verification adopt a hybrid screening method, and the nodes that screen out useful information in the network nodes are reorganized to increase the probability of their being retained; S4, data information reprogramming The reserved useful nodes are re-paired, and among the two nodes that are paired, the codes are randomly selected and exchanged to form a new cross node; S5. Data information release Add the obtained new cross node to the data group of rack nodes for publication; S6. Generate a new node Combine the nodes of valid data in the data group to generate a new node; S7, reorganization node status verification Repeat the operation in step 2 to verify the brand-new node. If the verification passes, save its output. If the verification fails, reorganize and verify until it passes the verification, and the optimization ends. 2. a method for improving system robustness by optimizing node communication according to claim 1, characterized in that: in the step S1, specifically: start the server, the client creates a code and performs parameter setting, and the connection between the two parties is established. . 3. A method for improving system robustness by optimizing node communication according to claim 1, characterized in that: the S2 step is specifically: the client is waiting to input data, and the server is waiting to receive data from the network at the interface Client data is initialized. 4. A method for improving system robustness by optimizing node communication according to claim 1, wherein the step S3 is specifically: performing mixed screening of network nodes that have not passed the verification, and screening the obtained Useful information is reorganized so that useful information can be retained to increase the probability of its retention. 5. A method for improving system robustness by optimizing node communication according to claim 1, wherein the step S4 is specifically: re-pairing the network nodes composed of valid data information, and pairing them with each other It can be completed by performing coding exchange between the two nodes to form a new cross node. 6. A method for improving system robustness by optimizing node communication according to claim 1, wherein the step S5 is specifically: adding the obtained cross-node data into the data group in the network system published in. 7. A method for improving system robustness by optimizing node communication according to claim 1, characterized in that: the step S6 is specifically: the node combination of valid data in the data group generates a brand-new node to renew it. Arrange groups. 8. A method for improving system robustness by optimizing node communication according to claim 1, wherein the step S7 is specifically: returning the reorganized node to the step of S2, making it several networks Mutual verification is performed in the nodes, and the optimization ends after repeating this to pass the verification.

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