CN117478707B - Multi-target energy management data transmission method - Google Patents

Abstract

The invention relates to the field of energy management data transmission, in particular to a multi-target energy management data transmission method, which comprises the following steps: s1, establishing a basic data transmission channel according to multi-target energy management data to be transmitted; s2, acquiring a plurality of data transmission lines by utilizing the basic data transmission channel; s3, completing transmission of the multi-target energy management data to be transmitted according to the plurality of data transmission lines, building a self-adaptive transmission network based on the energy management data, building reasonable connection with data transmission verification by applying a multi-iteration self-verification theoretical system, achieving the multi-target transmission purpose, having strong adaptability to different environments or application backgrounds, and guaranteeing high efficiency and reliability of scheme implementation.

Description

Multi-target energy management data transmission method

Technical Field

The invention relates to the field of energy management data transmission, in particular to a multi-target energy management data transmission method.

Background

Along with the transition of global energy structures, green, clean and renewable energy sources have become the focus of attention, and for large factories or industrial parks, energy management data gradually become effective reference indexes for improving energy utilization efficiency, reducing carbon emission and improving enterprise competitiveness, but the traditional basic data transmission scheme has low efficiency, is extremely easy to generate errors in the transmission processing of large-area multi-type energy management data, cannot establish an adaptive transmission network and cannot conduct targeted transmission processing, so a feasible energy management data transmission scheme is needed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a multi-target energy management data transmission method, which is used for executing data transmission and reasonably verifying by establishing an adaptive energy management data transmission network, thereby improving the transmission efficiency and stability.

In order to achieve the above object, the present invention provides a multi-target energy management data transmission method, including:

s1, establishing a basic data transmission channel according to multi-target energy management data to be transmitted;

S2, acquiring a plurality of data transmission lines by utilizing the basic data transmission channel;

And S3, completing transmission of the multi-target energy management data to be transmitted according to the plurality of data transmission lines.

Preferably, the establishing a basic data transmission channel according to the multi-target energy management data to be transmitted includes:

acquiring corresponding energy types of multi-target energy management data to be transmitted as data tags;

Establishing the number of channels of a basic data transmission channel according to the number of the data tags;

and establishing a corresponding number of basic data transmission channels according to the number of the channels.

Further, the acquiring a plurality of data transmission lines by using the basic data transmission channel includes:

s2-1, acquiring a corresponding hardware device address according to the data tag;

s2-2, establishing a single data transmission line according to the basic data transmission channel and the corresponding hardware equipment address;

S2-3, establishing a plurality of data transmission lines by utilizing the single data transmission lines corresponding to the multi-target energy management data to be transmitted.

Further, establishing a single data transmission line according to the basic data transmission channel and the corresponding hardware device address includes:

using the hardware device address as a single data transmission line starting point;

And establishing a single data transmission line according to the basic data transmission channel by utilizing the single data transmission line starting point.

Further, establishing a plurality of data transmission lines by using the single data transmission line corresponding to the multi-target energy management data to be transmitted includes:

S2-3-1, judging whether the line end points of the single data transmission lines corresponding to the multi-target energy management data to be transmitted are the same, if so, executing S2-3-2, otherwise, establishing different end point lines by using the single data transmission lines corresponding to the multi-target energy management data to be transmitted as a plurality of data transmission lines;

S2-3-2, judging whether the single data transmission lines corresponding to the multi-target energy management data to be transmitted overlap, if so, acquiring the single data transmission lines with the overlapping, and performing overlapping line processing, otherwise, establishing a common line end point line by using the single data transmission lines corresponding to the multi-target energy management data to be transmitted as a multi-data transmission line.

Further, establishing a distinct endpoint line using the single data transmission line corresponding to the multi-target energy management data to be transmitted includes:

s2-3-1-1, dividing transmission characteristics according to line end points of the single data transmission lines corresponding to the multi-target energy management data to be transmitted;

s2-3-1-2, acquiring a corresponding data tag according to the transmission characteristic;

S2-3-1-3, establishing transmission data channel mapping with the corresponding data tag by utilizing the transmission characteristics to serve as a transmission data channel tag;

s2-3-1-4, establishing a different terminal line by utilizing the single data transmission line and the corresponding transmission data channel label.

Further, performing the overlapping line processing includes:

S2-3-2-1, judging whether the data labels corresponding to the single data transmission lines with the overlapping exist or not, if so, dividing additional single data transmission lines by utilizing the single data transmission lines corresponding to the single data transmission lines with the downstream data labels with the relevance, returning to S2-3-2, otherwise, executing S2-3-2-2;

S2-3-2-2, judging whether the corresponding data starting moments of the single data transmission lines with the overlapping are consistent, if so, establishing a twin single data transmission line by using the single data transmission lines with the overlapping, otherwise, dividing additional single data transmission lines by using the single data transmission lines with the opposite data starting moments, and returning to S2-3-2;

The correlation data labels correspond to the multi-target energy management data to be transmitted, and the correlation downstream data labels are correlation data labels and downstream data labels.

Further, completing transmission of the multi-target energy management data to be transmitted according to the plurality of data transmission lines includes:

s3-1, transmitting multi-target energy management data to be transmitted by utilizing the plurality of data transmission lines to obtain an initial transmission result;

S3-2, carrying out transmission verification according to a plurality of data transmission lines by utilizing the initial transmission result to obtain a transmission verification result, and completing transmission.

Further, the transmitting the multi-target energy management data to be transmitted by using the plurality of data transmission lines to obtain an initial transmission result includes:

s3-1-1, respectively transmitting the multi-target energy management data to be transmitted according to a plurality of data transmission lines to obtain initial multi-data transmission results;

S3-1-2, judging whether the initial multiple data transmission results are complete, if yes, executing S3-1-3, otherwise, returning to S3-1-1;

S3-1-3, judging whether the initial multi-item data transmission result completely corresponds to a data tag of multi-target energy management data to be transmitted, if so, executing S3-1-4, otherwise, returning to S2-2;

S3-1-4, judging whether the initial multiple data transmission results correspond to multiple data transmission lines and overlap, if so, returning to S2-3-2-1, otherwise, outputting the initial multiple data transmission results as initial transmission results.

Further, performing transmission verification according to the plurality of data transmission lines by using the initial transmission result to obtain a transmission verification result, and completing transmission includes:

s3-2-1, judging whether the initial transmission result of the same multi-target energy management data to be transmitted corresponds to the execution cycle number of 1, if so, directly outputting a transmission verification result to be normal, and finishing transmission, otherwise, executing S3-2-2;

S3-2-2, judging whether all the steps corresponding to the execution cycle times are S3-1, if yes, transmitting a verification result to be normal, outputting all data labels corresponding to a plurality of data transmission lines at the current moment and an initial transmission result to finish transmission, and if not, executing S3-2-3;

s3-2-3, judging whether the execution times of the S2-3-2 are greater than 2, if so, outputting a transmission verification result to be abnormal, and outputting a single data transmission line corresponding to a plurality of data transmission lines at the current moment to complete transmission with an initial transmission result, otherwise, outputting an initial transmission result to complete transmission, wherein the transmission verification result is normal;

Wherein the execution cycle number is the execution return step number.

Compared with the closest prior art, the invention has the following beneficial effects:

Based on the energy management data, a self-adaptive transmission network is established, a self-verification theoretical system of multiple iterations is applied, a transmission channel is established to be reasonably connected with data transmission verification, the purpose of multi-target transmission is achieved, the self-adaptive transmission network has strong adaptability to different environments or application backgrounds, and the implementation efficiency and reliability of a scheme can be guaranteed.

Drawings

Fig. 1 is a flowchart of a multi-objective energy management data transmission method provided by the present invention.

Detailed Description

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

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1: the invention provides a multi-target energy management data transmission method, as shown in figure 1, comprising the following steps:

s1, establishing a basic data transmission channel according to multi-target energy management data to be transmitted;

S2, acquiring a plurality of data transmission lines by utilizing the basic data transmission channel;

And S3, completing transmission of the multi-target energy management data to be transmitted according to the plurality of data transmission lines.

S1 specifically comprises:

s1-1, acquiring corresponding energy types of multi-target energy management data to be transmitted as data tags;

S1-2, establishing the channel number of basic data transmission channels according to the number of the data tags;

S1-3, establishing a corresponding number of basic data transmission channels according to the number of the channels.

In this embodiment, the energy types include water, electricity, gas, and other parameters, and the usage data includes peak, flat, valley total power consumption, forward and reverse active power, reactive power, water consumption, gas consumption, and the like.

In this embodiment, a multi-target energy management data transmission method, in the energy management data acquisition, processing and transmission, has the following common structure:

Perception layer: the sensor is connected to the network and used for collecting and measuring parameters such as water, electricity, gas and the like;

Network layer: the intelligent gateway collects equipment layer data, performs protocol conversion and storage, and uploads the data to the management platform;

Platform layer: the system comprises an application server and a data server, and can realize application at a PC end or a mobile end;

The applied position of the scheme is from the sensing layer to the network layer, and the data channel from the network layer to the platform layer is established and transmitted.

S2 specifically comprises:

s2-1, acquiring a corresponding hardware device address according to the data tag;

s2-2, establishing a single data transmission line according to the basic data transmission channel and the corresponding hardware equipment address;

S2-3, establishing a plurality of data transmission lines by utilizing the single data transmission lines corresponding to the multi-target energy management data to be transmitted.

S2-2 specifically comprises:

s2-2-1, using the hardware device address as a single data transmission line starting point;

s2-2-2, utilizing the single data transmission line starting point to establish a single data transmission line according to the basic data transmission channel.

S2-3 specifically comprises:

S2-3-1, judging whether the line end points of the single data transmission lines corresponding to the multi-target energy management data to be transmitted are the same, if so, executing S2-3-2, otherwise, establishing different end point lines by using the single data transmission lines corresponding to the multi-target energy management data to be transmitted as a plurality of data transmission lines;

S2-3-2, judging whether the single data transmission lines corresponding to the multi-target energy management data to be transmitted overlap, if so, acquiring the single data transmission lines with the overlapping, and performing overlapping line processing, otherwise, establishing a common line end point line by using the single data transmission lines corresponding to the multi-target energy management data to be transmitted as a multi-data transmission line.

S2-3-1 specifically comprises:

s2-3-1-1, dividing transmission characteristics according to line end points of the single data transmission lines corresponding to the multi-target energy management data to be transmitted;

s2-3-1-2, acquiring a corresponding data tag according to the transmission characteristic;

S2-3-1-3, establishing transmission data channel mapping with the corresponding data tag by utilizing the transmission characteristics to serve as a transmission data channel tag;

s2-3-1-4, establishing a different terminal line by utilizing the single data transmission line and the corresponding transmission data channel label.

S2-3-2 specifically comprises:

S2-3-2-1, judging whether the data labels corresponding to the single data transmission lines with the overlapping exist or not, if so, dividing additional single data transmission lines by utilizing the single data transmission lines corresponding to the single data transmission lines with the downstream data labels with the relevance, returning to S2-3-2, otherwise, executing S2-3-2-2;

S2-3-2-2, judging whether the corresponding data starting moments of the single data transmission lines with the overlapping are consistent, if so, establishing a twin single data transmission line by using the single data transmission lines with the overlapping, otherwise, dividing additional single data transmission lines by using the single data transmission lines with the opposite data starting moments, and returning to S2-3-2;

The correlation data labels correspond to the multi-target energy management data to be transmitted, and the correlation downstream data labels are correlation data labels and downstream data labels.

In this embodiment, the relationship between the interactions is that when some type of data changes, other data will be affected, and the affected data can be regarded as upstream data and downstream data.

S3 specifically comprises:

s3-1, transmitting multi-target energy management data to be transmitted by utilizing the plurality of data transmission lines to obtain an initial transmission result;

S3-2, carrying out transmission verification according to a plurality of data transmission lines by utilizing the initial transmission result to obtain a transmission verification result, and completing transmission.

S3-1 specifically comprises:

s3-1-1, respectively transmitting the multi-target energy management data to be transmitted according to a plurality of data transmission lines to obtain initial multi-data transmission results;

S3-1-2, judging whether the initial multiple data transmission results are complete, if yes, executing S3-1-3, otherwise, returning to S3-1-1;

S3-1-3, judging whether the initial multi-item data transmission result completely corresponds to a data tag of multi-target energy management data to be transmitted, if so, executing S3-1-4, otherwise, returning to S2-2;

S3-1-4, judging whether the initial multiple data transmission results correspond to multiple data transmission lines and overlap, if so, returning to S2-3-2-1, otherwise, outputting the initial multiple data transmission results as initial transmission results.

S3-2 specifically comprises:

s3-2-1, judging whether the initial transmission result of the same multi-target energy management data to be transmitted corresponds to the execution cycle number of 1, if so, directly outputting a transmission verification result to be normal, and finishing transmission, otherwise, executing S3-2-2;

S3-2-2, judging whether all the steps corresponding to the execution cycle times are S3-1, if yes, transmitting a verification result to be normal, outputting all data labels corresponding to a plurality of data transmission lines at the current moment and an initial transmission result to finish transmission, and if not, executing S3-2-3;

s3-2-3, judging whether the execution times of the S2-3-2 are greater than 2, if so, outputting a transmission verification result to be abnormal, and outputting a single data transmission line corresponding to a plurality of data transmission lines at the current moment to complete transmission with an initial transmission result, otherwise, outputting an initial transmission result to complete transmission, wherein the transmission verification result is normal;

Wherein the execution cycle number is the execution return step number.

It will be appreciated by those skilled in the art that embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Finally, it should be noted that: the above embodiments are only for illustrating the technical aspects of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the above embodiments, it should be understood by those of ordinary skill in the art that: modifications and equivalents may be made to the specific embodiments of the invention without departing from the spirit and scope of the invention, which is intended to be covered by the claims.

Claims (2)

1. A multi-target energy management data transmission method, comprising:

s1, establishing a basic data transmission channel according to multi-target energy management data to be transmitted;

s1-1, acquiring corresponding energy types of multi-target energy management data to be transmitted as data tags;

S1-2, establishing the channel number of basic data transmission channels according to the number of the data tags;

S1-3, establishing a corresponding number of basic data transmission channels according to the number of channels;

S2, acquiring a plurality of data transmission lines by utilizing the basic data transmission channel;

s2-1, acquiring a corresponding hardware device address according to the data tag;

s2-2, establishing a single data transmission line according to the basic data transmission channel and the corresponding hardware equipment address;

s2-3, establishing a plurality of data transmission lines by utilizing the single data transmission lines corresponding to the multi-target energy management data to be transmitted;

S2-3-1, judging whether the line end points of the single data transmission lines corresponding to the multi-target energy management data to be transmitted are the same, if so, executing S2-3-2, otherwise, establishing different end point lines by using the single data transmission lines corresponding to the multi-target energy management data to be transmitted as a plurality of data transmission lines;

s2-3-1-1, dividing transmission characteristics according to line end points of the single data transmission lines corresponding to the multi-target energy management data to be transmitted;

s2-3-1-2, acquiring a corresponding data tag according to the transmission characteristic;

S2-3-1-3, establishing transmission data channel mapping with the corresponding data tag by utilizing the transmission characteristics to serve as a transmission data channel tag;

S2-3-1-4, establishing a different terminal line by utilizing the single data transmission line and the corresponding transmission data channel label;

s2-3-2, judging whether overlapping exists in the single data transmission lines corresponding to the multi-target energy management data to be transmitted, if so, acquiring the single data transmission lines with the overlapping, and performing overlapping line processing, otherwise, establishing a common line end point line by using the single data transmission lines corresponding to the multi-target energy management data to be transmitted as a multi-data transmission line;

S2-3-2-1, judging whether the data labels corresponding to the single data transmission lines with the overlapping exist or not, if so, dividing additional single data transmission lines by utilizing the single data transmission lines corresponding to the single data transmission lines with the downstream data labels with the relevance, returning to S2-3-2, otherwise, executing S2-3-2-2;

S2-3-2-2, judging whether the corresponding data starting moments of the single data transmission lines with the overlapping are consistent, if so, establishing a twin single data transmission line by using the single data transmission lines with the overlapping, otherwise, dividing additional single data transmission lines by using the single data transmission lines with the opposite data starting moments, and returning to S2-3-2;

The correlation data labels correspond to the multi-target energy management data to be transmitted, and the correlation downstream data labels are correlation data labels and downstream data labels;

s3, completing transmission of the multi-target energy management data to be transmitted according to the plurality of data transmission lines;

s3-1, transmitting multi-target energy management data to be transmitted by utilizing the plurality of data transmission lines to obtain an initial transmission result;

s3-1-1, respectively transmitting the multi-target energy management data to be transmitted according to a plurality of data transmission lines to obtain initial multi-data transmission results;

S3-1-2, judging whether the initial multiple data transmission results are complete, if yes, executing S3-1-3, otherwise, returning to S3-1-1;

S3-1-3, judging whether the initial multi-item data transmission result completely corresponds to a data tag of multi-target energy management data to be transmitted, if so, executing S3-1-4, otherwise, returning to S2-2;

S3-1-4, judging whether the initial multiple data transmission results correspond to multiple data transmission lines and overlap, if so, returning to S2-3-2-1, otherwise, outputting the initial multiple data transmission results as initial transmission results;

s3-2, carrying out transmission verification according to a plurality of data transmission lines by utilizing the initial transmission result to obtain a transmission verification result to finish transmission;

s3-2-1, judging whether the initial transmission result of the same multi-target energy management data to be transmitted corresponds to the execution cycle number of 1, if so, directly outputting a transmission verification result to be normal, and finishing transmission, otherwise, executing S3-2-2;

S3-2-2, judging whether all the steps corresponding to the execution cycle times are S3-1, if yes, transmitting a verification result to be normal, outputting all data labels corresponding to a plurality of data transmission lines at the current moment and an initial transmission result to finish transmission, and if not, executing S3-2-3;

s3-2-3, judging whether the execution times of the S2-3-2 are greater than 2, if so, outputting a transmission verification result to be abnormal, and outputting a single data transmission line corresponding to a plurality of data transmission lines at the current moment to complete transmission with an initial transmission result, otherwise, outputting an initial transmission result to complete transmission, wherein the transmission verification result is normal;

Wherein the execution cycle number is the execution return step number.

2. The method of claim 1, wherein establishing a single data transmission line according to the basic data transmission channel and the corresponding hardware device address comprises:

using the hardware device address as a single data transmission line starting point;

And establishing a single data transmission line according to the basic data transmission channel by utilizing the single data transmission line starting point.