CN116566766A - Intelligent power gateway management and control method and system - Google Patents

Abstract

The invention provides a method and a system for managing and controlling an intelligent power gateway, and relates to the technical field of data processing. In the invention, for each gateway device of the internet of things in communication connection, the current binding power energy data acquisition terminal device of the gateway device of the internet of things is determined and processed to output a first binding device set corresponding to the gateway device of the internet of things. And for each electric power energy data acquisition terminal device, carrying out feature extraction processing on the electric power energy data acquisition terminal device so as to output device feature information corresponding to the electric power energy data acquisition terminal device. And updating the first binding equipment set corresponding to each Internet of things gateway equipment according to the equipment characteristic information corresponding to each electric power energy data acquisition terminal equipment so as to output a second binding equipment set corresponding to each Internet of things gateway equipment. Based on the method, the control effect of the power gateway can be improved.

Description

Intelligent power gateway management and control method and system

Technical Field

The invention relates to the technical field of data processing, in particular to a method and a system for controlling an intelligent power gateway.

Background

The monitoring of energy data consumed by the electric energy consuming device is one of the important means for monitoring the electric energy consuming device. The corresponding electric power energy data acquisition terminal equipment is generally deployed aiming at the electric power energy consumption equipment so as to acquire electric power energy data. Moreover, as the number of the electric power energy consumption devices is large, the corresponding electric power energy data acquisition terminal devices are also large, so that a plurality of gateway devices can be deployed to forward the electric power energy data acquired by the electric power energy data acquisition terminal devices. However, in the prior art, after the electric power energy data acquisition terminal device is bound with the gateway device, the binding relationship is not controlled any more, so that there may be a problem that the effect of controlling the gateway device is poor.

Disclosure of Invention

Therefore, the present invention is directed to a method and a system for intelligent power gateway management and control, so as to improve the power gateway management and control effect.

In order to achieve the above purpose, the embodiment of the present invention adopts the following technical scheme:

an intelligent power gateway control method is applied to an energy management and control server, and comprises the following steps:

For each of a plurality of internet of things gateway devices in communication connection, determining and processing the current binding power energy data acquisition terminal device of the internet of things gateway device to output a first binding device set corresponding to the internet of things gateway device;

for each electric power energy data acquisition terminal device bound by the plurality of internet of things gateway devices, performing feature extraction processing on the electric power energy data acquisition terminal device to output device feature information corresponding to the electric power energy data acquisition terminal device;

and updating the first binding equipment set corresponding to each Internet of things gateway equipment according to the equipment characteristic information corresponding to each electric power energy data acquisition terminal equipment so as to output the second binding equipment set corresponding to each Internet of things gateway equipment, and performing data interaction operation on each electric power energy data acquisition terminal equipment and the energy management and control server according to the Internet of things gateway equipment corresponding to the second binding equipment set.

In some preferred embodiments, in the foregoing smart power gateway management and control method, the step of determining, for each of the plurality of internet of things gateway devices in communication connection, a current power energy data acquisition terminal device to which the internet of things gateway device is currently bound, so as to output a first binding device set corresponding to the internet of things gateway device includes:

For each of a plurality of internet of things gateway devices in communication connection, determining historical power energy monitoring data forwarded by the internet of things gateway device to output a historical monitoring data set corresponding to the internet of things gateway device;

for each of the plurality of internet of things gateway devices, analyzing and processing each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device to output power energy data acquisition terminal equipment corresponding to each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device;

and for each of the plurality of internet of things gateway devices, performing device deduplication screening processing according to the power energy data acquisition terminal device corresponding to each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device, so as to construct and output a first binding device set corresponding to the internet of things gateway device.

In some preferred embodiments, in the foregoing smart power gateway management and control method, the step of determining, for each of the plurality of internet of things gateway devices in communication connection, historical power energy monitoring data forwarded by the internet of things gateway device to output a historical monitoring data set corresponding to the internet of things gateway device includes:

For each of a plurality of internet of things gateway devices in communication connection, determining historical power energy monitoring data forwarded by the internet of things gateway device to output a to-be-determined historical monitoring data set corresponding to the internet of things gateway device;

for each of the plurality of internet of things gateway devices, analyzing each piece of historical power energy monitoring data included in the to-be-determined historical monitoring data set corresponding to the internet of things gateway device to output data forming time corresponding to each piece of historical power energy monitoring data included in the to-be-determined historical monitoring data set;

and for each of the plurality of internet of things gateway devices, screening historical power energy monitoring data included in the to-be-determined historical monitoring data set corresponding to the internet of things gateway device according to the latest time of updating the historical first binding device set and the data forming time corresponding to each piece of historical power energy monitoring data so as to form a historical monitoring data set corresponding to the internet of things gateway device.

In some preferred embodiments, in the smart power gateway management and control method, the step of performing feature extraction processing on the power energy data acquisition terminal device for each of the power energy data acquisition terminal devices bound to the plurality of internet of things gateway devices to output device feature information corresponding to the power energy data acquisition terminal device includes:

for each electric power energy data acquisition terminal device bound by the plurality of internet of things gateway devices, performing device feature extraction processing on electric power energy consumption devices corresponding to the electric power energy data acquisition terminal devices to output consumption device feature information corresponding to the electric power energy consumption devices, wherein the consumption device feature information at least comprises device positions of the corresponding electric power energy consumption devices;

and for each electric power energy data acquisition terminal device, marking the consumption device characteristic information corresponding to the electric power energy consumption device corresponding to the electric power energy data acquisition terminal device to form the device characteristic information corresponding to the electric power energy data acquisition terminal device.

In some preferred embodiments, in the foregoing smart power gateway management and control method, the step of updating the first binding device set corresponding to each of the internet of things gateway devices according to the device feature information corresponding to each of the power energy data acquisition terminal devices to output the second binding device set corresponding to each of the internet of things gateway devices includes:

For each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, performing device correlation determination processing on the two electric power energy data acquisition terminal devices according to device characteristic information corresponding to the two electric power energy data acquisition terminal devices so as to output device correlation between the two electric power energy data acquisition terminal devices;

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, determining whether the two electric power energy data acquisition terminal devices belong to the same first binding device set, and updating the device correlation between the two electric power energy data acquisition terminal devices according to the corresponding determination result so as to output the target device correlation between the two electric power energy data acquisition terminal devices;

and binding the electric power energy data acquisition terminal equipment with the plurality of internet of things gateway equipment according to the correlation degree of target equipment between every two electric power energy data acquisition terminal equipment so as to output a second binding equipment set corresponding to each internet of things gateway equipment.

In some preferred embodiments, in the foregoing smart power gateway management and control method, the step of performing, for each two power energy data collection terminal devices bound to the plurality of internet of things gateway devices, a device correlation determination process on the two power energy data collection terminal devices according to device feature information corresponding to the two power energy data collection terminal devices, so as to output a device correlation between the two power energy data collection terminal devices includes:

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, performing similarity calculation processing on device characteristic information corresponding to the two electric power energy data acquisition terminal devices so as to output characteristic similarity between the two electric power energy data acquisition terminal devices;

and for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, performing device correlation determination processing on the two electric power energy data acquisition terminal devices according to the feature similarity between the two electric power energy data acquisition terminal devices so as to output the device correlation between the two electric power energy data acquisition terminal devices, wherein the device correlation has a correlation with at least one parameter, and the parameter at least comprises the feature similarity.

In some preferred embodiments, in the foregoing smart power gateway management and control method, the step of determining, for each two power energy data collection terminal devices bound to the plurality of internet of things gateway devices, whether the two power energy data collection terminal devices belong to the same first binding device set, and updating, according to a corresponding determination result, a device correlation between the two power energy data collection terminal devices to output a target device correlation between the two power energy data collection terminal devices includes:

for each two electric power energy data acquisition terminal devices bound by the plurality of gateway devices of the internet of things, determining whether the two electric power energy data acquisition terminal devices belong to the same first binding device set or not so as to output a corresponding determination result;

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, marking the device correlation degree between the two electric power energy data acquisition terminal devices as the target device correlation degree between the two electric power energy data acquisition terminal devices under the condition that the two electric power energy data acquisition terminal devices are not in the same first binding device set according to the corresponding determination results of the two electric power energy data acquisition terminal devices;

And for each two electric power energy data acquisition terminal devices bound by the plurality of gateway devices of the internet of things, under the condition that the two electric power energy data acquisition terminal devices belong to the same first binding device set as the corresponding determination results of the two electric power energy data acquisition terminal devices, increasing the device correlation between the two electric power energy data acquisition terminal devices so as to output the target device correlation between the two electric power energy data acquisition terminal devices.

The embodiment of the invention also provides an intelligent power gateway management and control system which is applied to the energy management and control server and comprises:

the binding equipment determining module is used for determining and processing the current binding power energy data acquisition terminal equipment of the gateway equipment of the Internet of things for each gateway equipment of the Internet of things in the plurality of gateway equipment of the Internet of things in communication connection and outputting a first binding equipment set corresponding to the gateway equipment of the Internet of things;

the device feature extraction module is used for carrying out feature extraction processing on the electric power energy data acquisition terminal device for each electric power energy data acquisition terminal device bound by the plurality of internet of things gateway devices so as to output device feature information corresponding to the electric power energy data acquisition terminal device;

And the binding relation updating module is used for updating the first binding equipment set corresponding to each Internet of things gateway equipment according to the equipment characteristic information corresponding to each electric power energy data acquisition terminal equipment so as to output the second binding equipment set corresponding to each Internet of things gateway equipment, and each electric power energy data acquisition terminal equipment performs data interaction operation with the energy management and control server according to the Internet of things gateway equipment corresponding to the second binding equipment set.

In some preferred embodiments, in the intelligent power gateway management and control system, the device feature extraction module is specifically configured to:

for each of a plurality of internet of things gateway devices in communication connection, determining historical power energy monitoring data forwarded by the internet of things gateway device to output a historical monitoring data set corresponding to the internet of things gateway device;

for each of the plurality of internet of things gateway devices, analyzing and processing each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device to output power energy data acquisition terminal equipment corresponding to each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device;

And for each of the plurality of internet of things gateway devices, performing device deduplication screening processing according to the power energy data acquisition terminal device corresponding to each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device, so as to construct and output a first binding device set corresponding to the internet of things gateway device.

In some preferred embodiments, in the intelligent power gateway management and control system, the binding update module is specifically configured to:

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, performing device correlation determination processing on the two electric power energy data acquisition terminal devices according to device characteristic information corresponding to the two electric power energy data acquisition terminal devices so as to output device correlation between the two electric power energy data acquisition terminal devices;

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, determining whether the two electric power energy data acquisition terminal devices belong to the same first binding device set, and updating the device correlation between the two electric power energy data acquisition terminal devices according to the corresponding determination result so as to output the target device correlation between the two electric power energy data acquisition terminal devices;

And binding the electric power energy data acquisition terminal equipment with the plurality of internet of things gateway equipment according to the correlation degree of target equipment between every two electric power energy data acquisition terminal equipment so as to output a second binding equipment set corresponding to each internet of things gateway equipment.

According to the intelligent power gateway management and control method and system provided by the embodiment of the invention, for each gateway device of the Internet of things in communication connection, the current binding power energy data acquisition terminal device of the gateway device of the Internet of things is determined and processed so as to output a first binding device set corresponding to the gateway device of the Internet of things. And for each electric power energy data acquisition terminal device, carrying out feature extraction processing on the electric power energy data acquisition terminal device so as to output device feature information corresponding to the electric power energy data acquisition terminal device. And updating the first binding equipment set corresponding to each Internet of things gateway equipment according to the equipment characteristic information corresponding to each electric power energy data acquisition terminal equipment so as to output a second binding equipment set corresponding to each Internet of things gateway equipment. Therefore, the current binding relation is updated, so that the management and control effect of the power gateway can be improved.

In order to make the above objects, features and advantages of the present invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

Fig. 1 is a block diagram of an energy management and control server according to an embodiment of the present invention.

Fig. 2 is a flowchart illustrating steps involved in an intelligent power gateway control method according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of each module included in the intelligent power gateway management and control system according to an embodiment of the present invention.

Description of the embodiments

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 only some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the 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.

As shown in fig. 1, an embodiment of the present invention provides an energy management and control server. Wherein the energy management server may include a memory and a processor.

In detail, in one possible implementation, the memory and the processor are electrically connected directly or indirectly to realize transmission or interaction of data. For example, electrical connection may be made to each other via one or more communication buses or signal lines. The memory may store at least one software functional module (computer program) that may exist in the form of software or firmware. The processor may be configured to execute the executable computer program stored in the memory, thereby implementing the intelligent power gateway management and control method provided by the embodiment of the present invention.

In detail, in one possible implementation, the Memory may be, but is not limited to, random access Memory (Random Access Memory, RAM), read Only Memory (ROM), programmable Read Only Memory (Programmable Read-Only Memory, PROM), erasable Read Only Memory (Erasable Programmable Read-Only Memory, EPROM), electrically erasable Read Only Memory (Electric Erasable Programmable Read-Only Memory, EEPROM), and the like. The processor may be a general purpose processor including a central processing unit (Central Processing Unit, CPU), a network processor (Network Processor, NP), a System on Chip (SoC), etc.; but also Digital Signal Processors (DSPs), application Specific Integrated Circuits (ASICs), field Programmable Gate Arrays (FPGAs) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components.

Referring to fig. 2, an embodiment of the present invention further provides a smart power gateway management and control method, which can be applied to the above-mentioned energy management and control server. The method steps defined by the flow related to the intelligent power gateway control method can be realized by the energy control server.

The specific flow shown in fig. 2 will be described in detail.

Step S110, for each of a plurality of Internet of things gateway devices in communication connection, determining and processing the current binding power energy data acquisition terminal device of the Internet of things gateway device so as to output a first binding device set corresponding to the Internet of things gateway device.

In the embodiment of the invention, the energy management and control server may determine, for each of a plurality of internet of things gateway devices in communication connection, a current power energy data acquisition terminal device bound to the internet of things gateway device, so as to output a first bound device set corresponding to the internet of things gateway device.

Step S120, for each of the electric power energy data acquisition terminal devices bound to the plurality of gateway devices of the internet of things, performing feature extraction processing on the electric power energy data acquisition terminal device to output device feature information corresponding to the electric power energy data acquisition terminal device.

In the embodiment of the present invention, the energy management and control server may perform feature extraction processing on the electric power energy data acquisition terminal device for each of the electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, so as to output device feature information corresponding to the electric power energy data acquisition terminal device.

Step S130, according to the device characteristic information corresponding to each electric power energy data acquisition terminal device, updating the first binding device set corresponding to each internet of things gateway device to output the second binding device set corresponding to each internet of things gateway device.

In the embodiment of the present invention, the energy management and control server may update, according to the device feature information corresponding to each of the electric power energy data acquisition terminal devices, the first binding device set corresponding to each of the gateway devices of the internet of things, so as to output the second binding device set corresponding to each of the gateway devices of the internet of things. And each electric power energy data acquisition terminal device performs data interaction operation (uploading acquired electric power energy monitoring data and the like) with the energy management and control server according to the gateway device of the Internet of things corresponding to the second binding device set.

Based on the method, namely the intelligent power gateway control method, for each gateway device of the internet of things in communication connection, the current power energy data acquisition terminal device bound to the gateway device of the internet of things is determined and processed so as to output a first binding device set corresponding to the gateway device of the internet of things. And for each electric power energy data acquisition terminal device, carrying out feature extraction processing on the electric power energy data acquisition terminal device so as to output device feature information corresponding to the electric power energy data acquisition terminal device. And updating the first binding equipment set corresponding to each Internet of things gateway equipment according to the equipment characteristic information corresponding to each electric power energy data acquisition terminal equipment so as to output a second binding equipment set corresponding to each Internet of things gateway equipment. Therefore, the current binding relation is updated, so that the management and control effect of the power gateway can be improved.

In detail, in one possible implementation, step S110 may include the following:

for each of a plurality of internet of things gateway devices in communication connection, determining historical power energy monitoring data forwarded by the internet of things gateway device to output a historical monitoring data set corresponding to the internet of things gateway device;

For each of the plurality of internet of things gateway devices, analyzing and processing each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device to output power energy data acquisition terminal equipment corresponding to each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device;

and for each of the plurality of internet of things gateway devices, performing device deduplication screening processing according to the power energy data acquisition terminal device corresponding to each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device, so as to construct and output a first binding device set corresponding to the internet of things gateway device.

In detail, in one possible implementation manner, the step of determining, for each of the plurality of internet of things gateway devices in communication connection, the historical power energy monitoring data forwarded by the internet of things gateway device to output a historical monitoring data set corresponding to the internet of things gateway device may include the following contents:

For each of a plurality of internet of things gateway devices in communication connection, determining historical power energy monitoring data forwarded by the internet of things gateway device to output a to-be-determined historical monitoring data set corresponding to the internet of things gateway device;

for each of the plurality of internet of things gateway devices, analyzing each piece of historical power energy monitoring data included in the to-be-determined historical monitoring data set corresponding to the internet of things gateway device to output data forming time corresponding to each piece of historical power energy monitoring data included in the to-be-determined historical monitoring data set;

and for each of the plurality of internet of things gateway devices, screening historical power energy monitoring data included in the to-be-determined historical monitoring data set corresponding to the internet of things gateway device (for example, screening out each piece of historical power energy monitoring data before the time of the update processing) according to the time of last historically updating the historical first binding device set and the data forming time corresponding to each piece of historical power energy monitoring data so as to form a historical monitoring data set corresponding to the internet of things gateway device.

In detail, in one possible implementation, step S120 may include the following:

for each electric power energy data acquisition terminal device bound by the plurality of internet of things gateway devices, performing device feature extraction processing on electric power energy consumption devices corresponding to the electric power energy data acquisition terminal devices to output consumption device feature information corresponding to the electric power energy consumption devices, wherein the consumption device feature information at least comprises device positions of the corresponding electric power energy consumption devices;

and for each electric power energy data acquisition terminal device, marking the consumption device characteristic information corresponding to the electric power energy consumption device corresponding to the electric power energy data acquisition terminal device to form the device characteristic information corresponding to the electric power energy data acquisition terminal device.

In detail, in one possible implementation, step S130 may include the following:

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, performing device correlation determination processing on the two electric power energy data acquisition terminal devices according to device characteristic information corresponding to the two electric power energy data acquisition terminal devices so as to output device correlation between the two electric power energy data acquisition terminal devices;

For each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, determining whether the two electric power energy data acquisition terminal devices belong to the same first binding device set, and updating the device correlation between the two electric power energy data acquisition terminal devices according to the corresponding determination result so as to output the target device correlation between the two electric power energy data acquisition terminal devices;

and binding the electric power energy data acquisition terminal equipment with the plurality of internet of things gateway equipment according to the correlation degree of target equipment between every two electric power energy data acquisition terminal equipment so as to output a second binding equipment set corresponding to each internet of things gateway equipment.

In detail, in one possible implementation manner, the step of binding the electric power energy data acquisition terminal device and the plurality of internet of things gateway devices according to the target device correlation between every two electric power energy data acquisition terminal devices to output a second binding device set corresponding to each of the internet of things gateway devices may include the following:

Performing quantity statistics processing on the plurality of internet of things gateway devices to output the equipment statistics quantity corresponding to the plurality of internet of things gateway devices;

classifying the electric power energy data acquisition terminal equipment according to the equipment statistics quantity to form a plurality of terminal equipment sets with corresponding quantity;

for each two terminal equipment sets in the plurality of terminal equipment sets, performing set correlation calculation processing on the two terminal equipment sets according to the target equipment correlation between each two power energy data acquisition terminal equipment so as to output the set correlation between the two terminal equipment sets;

identifying the terminal equipment sets according to the set correlation degree between every two terminal equipment sets in the terminal equipment sets so as to determine whether the terminal equipment sets accord with a preset equipment set establishment condition;

and when the plurality of terminal equipment sets do not meet the preset equipment set satisfaction conditions, jumping to the step of executing the classification processing on the electric power energy data acquisition terminal equipment according to the equipment statistics quantity to form a corresponding number of the plurality of terminal equipment sets, and when the plurality of terminal equipment sets meet the preset equipment set satisfaction conditions (for example, the set correlation degree between every two terminal equipment sets is smaller than or equal to a correlation degree threshold value), marking each terminal equipment set in the plurality of terminal equipment sets as a second binding equipment set corresponding to the gateway equipment of the internet of things.

The step of performing a set correlation calculation process on each two terminal device sets of the plurality of terminal device sets according to the target device correlation between each two terminal device sets for collecting the power energy data, so as to output the set correlation between the two terminal device sets may include the following steps:

respectively marking two terminal equipment sets to be subjected to set correlation calculation processing as a first terminal equipment set and a second terminal equipment set;

for each first electric power energy data acquisition terminal device included in the first terminal device set, performing size sorting and positioning processing on the target device correlation between the first electric power energy data acquisition terminal device and each second electric power energy data acquisition terminal device in the second terminal device set according to a target correlation sequence, so as to output a correlation sequence position set corresponding to the first electric power energy data acquisition terminal device, wherein the correlation sequence position set comprises sequence positions, in the target correlation sequence, of the target device correlation between the first electric power energy data acquisition terminal device and each second electric power energy data acquisition terminal device in the second terminal device set, and the target correlation sequence is formed by sorting according to a corresponding size relation according to the target device correlation between each two electric power energy data acquisition terminal devices;

For each first electric power energy data acquisition terminal device included in the first terminal device set, performing difference calculation processing on each two sequence positions included in the correlation sequence position set corresponding to the first electric power energy data acquisition terminal device, performing summation calculation processing on the calculated difference to output a position difference accumulated value corresponding to the first electric power energy data acquisition terminal device, and performing fusion coefficient determination processing on the first electric power energy data acquisition terminal device according to the position difference accumulated value to output a first fusion coefficient corresponding to the first electric power energy data acquisition terminal device with a negative correlation relationship with the position difference accumulated value;

for each first electric power energy data acquisition terminal device included in the first terminal device set, performing average value calculation processing on the target device correlation between the first electric power energy data acquisition terminal device and each second electric power energy data acquisition terminal device in the second terminal device set, so as to output a device correlation average value corresponding to the first electric power energy data acquisition terminal device;

for each first electric power energy data acquisition terminal device, in the device correlation means corresponding to each first electric power energy data acquisition terminal device included in the first terminal device set, performing number statistics processing of the same value on the device correlation means corresponding to the first electric power energy data acquisition terminal device to output a number statistics value corresponding to the first electric power energy data acquisition terminal device, and performing fusion coefficient determination processing on the first electric power energy data acquisition terminal device according to the number statistics value to output a second fusion coefficient corresponding to the first electric power energy data acquisition terminal device with a positive correlation relationship with the number statistics value;

And carrying out fusion processing on the device correlation mean value corresponding to each first electric power energy data acquisition terminal device included in the first terminal device set according to the first fusion coefficient and the second fusion coefficient corresponding to each first electric power energy data acquisition terminal device (for example, a weighted mean value of the corresponding first fusion coefficient and the second fusion coefficient can be used as a weighted coefficient for fusion processing so as to calculate a weighted sum value), so as to output the set correlation between the two terminal device sets.

In detail, in one possible implementation manner, the step of performing, for each two electric power energy data collection terminal devices bound to the plurality of gateway devices for the internet of things, a device correlation determination process on the two electric power energy data collection terminal devices according to device feature information corresponding to the two electric power energy data collection terminal devices to output a device correlation between the two electric power energy data collection terminal devices may include the following:

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, performing similarity calculation processing on device feature information corresponding to the two electric power energy data acquisition terminal devices to output feature similarity between the two electric power energy data acquisition terminal devices (for example, the smaller the corresponding position distance is, the larger the feature similarity is);

And for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, performing device correlation determination processing on the two electric power energy data acquisition terminal devices according to the feature similarity between the two electric power energy data acquisition terminal devices so as to output the device correlation between the two electric power energy data acquisition terminal devices, wherein the device correlation has a correlation with at least one parameter, and the parameter at least comprises the feature similarity (wherein the feature similarity and the device correlation can have a positive correlation corresponding relation).

In detail, in one possible implementation manner, the step of determining whether each two electric energy data acquisition terminal devices bound to the plurality of gateway devices of the internet of things belong to the same first binding device set, and updating the device correlation between the two electric energy data acquisition terminal devices according to the corresponding determination result, so as to output the target device correlation between the two electric energy data acquisition terminal devices may include the following steps:

For each two electric power energy data acquisition terminal devices bound by the plurality of gateway devices of the internet of things, determining whether the two electric power energy data acquisition terminal devices belong to the same first binding device set or not so as to output a corresponding determination result;

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, marking the device correlation degree between the two electric power energy data acquisition terminal devices as the target device correlation degree between the two electric power energy data acquisition terminal devices under the condition that the two electric power energy data acquisition terminal devices are not in the same first binding device set according to the corresponding determination results of the two electric power energy data acquisition terminal devices;

and for each two electric power energy data acquisition terminal devices bound by the plurality of gateway devices of the internet of things, under the condition that the two electric power energy data acquisition terminal devices belong to the same first binding device set as the corresponding determination results of the two electric power energy data acquisition terminal devices, increasing the device correlation between the two electric power energy data acquisition terminal devices so as to output the target device correlation between the two electric power energy data acquisition terminal devices.

Referring to fig. 3, an embodiment of the present invention further provides an intelligent power gateway management and control system, which can be applied to the above-mentioned energy management and control server. Wherein, wisdom electric power gateway management and control system includes:

the binding equipment determining module is used for determining and processing the current binding power energy data acquisition terminal equipment of the gateway equipment of the Internet of things for each gateway equipment of the Internet of things in the plurality of gateway equipment of the Internet of things in communication connection and outputting a first binding equipment set corresponding to the gateway equipment of the Internet of things;

the device feature extraction module is used for carrying out feature extraction processing on the electric power energy data acquisition terminal device for each electric power energy data acquisition terminal device bound by the plurality of internet of things gateway devices so as to output device feature information corresponding to the electric power energy data acquisition terminal device;

and the binding relation updating module is used for updating the first binding equipment set corresponding to each Internet of things gateway equipment according to the equipment characteristic information corresponding to each electric power energy data acquisition terminal equipment so as to output the second binding equipment set corresponding to each Internet of things gateway equipment, and each electric power energy data acquisition terminal equipment performs data interaction operation with the energy management and control server according to the Internet of things gateway equipment corresponding to the second binding equipment set.

In detail, in one possible implementation manner, the device feature extraction module is specifically configured to:

for each of a plurality of internet of things gateway devices in communication connection, determining historical power energy monitoring data forwarded by the internet of things gateway device to output a historical monitoring data set corresponding to the internet of things gateway device;

for each of the plurality of internet of things gateway devices, analyzing and processing each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device to output power energy data acquisition terminal equipment corresponding to each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device;

and for each of the plurality of internet of things gateway devices, performing device deduplication screening processing according to the power energy data acquisition terminal device corresponding to each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device, so as to construct and output a first binding device set corresponding to the internet of things gateway device.

In detail, in one possible implementation manner, the binding relation updating module is specifically configured to:

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, performing device correlation determination processing on the two electric power energy data acquisition terminal devices according to device characteristic information corresponding to the two electric power energy data acquisition terminal devices so as to output device correlation between the two electric power energy data acquisition terminal devices;

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, determining whether the two electric power energy data acquisition terminal devices belong to the same first binding device set, and updating the device correlation between the two electric power energy data acquisition terminal devices according to the corresponding determination result so as to output the target device correlation between the two electric power energy data acquisition terminal devices;

and binding the electric power energy data acquisition terminal equipment with the plurality of internet of things gateway equipment according to the correlation degree of target equipment between every two electric power energy data acquisition terminal equipment so as to output a second binding equipment set corresponding to each internet of things gateway equipment.

In summary, according to the intelligent power gateway management and control method and system provided by the invention, for each gateway device of the internet of things in communication connection, the current binding power energy data acquisition terminal device of the gateway device of the internet of things is determined and processed, so as to output the first binding device set corresponding to the gateway device of the internet of things. And for each electric power energy data acquisition terminal device, carrying out feature extraction processing on the electric power energy data acquisition terminal device so as to output device feature information corresponding to the electric power energy data acquisition terminal device. And updating the first binding equipment set corresponding to each Internet of things gateway equipment according to the equipment characteristic information corresponding to each electric power energy data acquisition terminal equipment so as to output a second binding equipment set corresponding to each Internet of things gateway equipment. Therefore, the current binding relation is updated, so that the management and control effect of the power gateway can be improved.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The intelligent power gateway control method is characterized by being applied to an energy management and control server, and comprises the following steps:

for each of a plurality of internet of things gateway devices in communication connection, determining and processing the current binding power energy data acquisition terminal device of the internet of things gateway device to output a first binding device set corresponding to the internet of things gateway device;

for each electric power energy data acquisition terminal device bound by the plurality of internet of things gateway devices, performing feature extraction processing on the electric power energy data acquisition terminal device to output device feature information corresponding to the electric power energy data acquisition terminal device;

and updating the first binding equipment set corresponding to each Internet of things gateway equipment according to the equipment characteristic information corresponding to each electric power energy data acquisition terminal equipment so as to output the second binding equipment set corresponding to each Internet of things gateway equipment, and performing data interaction operation on each electric power energy data acquisition terminal equipment and the energy management and control server according to the Internet of things gateway equipment corresponding to the second binding equipment set.

2. The intelligent power gateway control method according to claim 1, wherein the step of determining, for each of the plurality of internet of things gateway devices in communication connection, a current power energy data acquisition terminal device to which the internet of things gateway device is currently bound, so as to output a first binding device set corresponding to the internet of things gateway device includes:

for each of a plurality of internet of things gateway devices in communication connection, determining historical power energy monitoring data forwarded by the internet of things gateway device to output a historical monitoring data set corresponding to the internet of things gateway device;

for each of the plurality of internet of things gateway devices, analyzing and processing each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device to output power energy data acquisition terminal equipment corresponding to each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device;

and for each of the plurality of internet of things gateway devices, performing device deduplication screening processing according to the power energy data acquisition terminal device corresponding to each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device, so as to construct and output a first binding device set corresponding to the internet of things gateway device.

3. The intelligent power gateway control method according to claim 2, wherein the step of determining, for each of the plurality of internet of things gateway devices in communication connection, historical power energy monitoring data forwarded by the internet of things gateway device to output a set of historical monitoring data corresponding to the internet of things gateway device includes:

for each of a plurality of internet of things gateway devices in communication connection, determining historical power energy monitoring data forwarded by the internet of things gateway device to output a to-be-determined historical monitoring data set corresponding to the internet of things gateway device;

for each of the plurality of internet of things gateway devices, analyzing each piece of historical power energy monitoring data included in the to-be-determined historical monitoring data set corresponding to the internet of things gateway device to output data forming time corresponding to each piece of historical power energy monitoring data included in the to-be-determined historical monitoring data set;

and for each of the plurality of internet of things gateway devices, screening historical power energy monitoring data included in the to-be-determined historical monitoring data set corresponding to the internet of things gateway device according to the latest time of updating the historical first binding device set and the data forming time corresponding to each piece of historical power energy monitoring data so as to form a historical monitoring data set corresponding to the internet of things gateway device.

4. The intelligent power gateway control method according to claim 1, wherein the step of performing feature extraction processing on the power energy data acquisition terminal device for each of the power energy data acquisition terminal devices bound to the plurality of internet of things gateway devices to output device feature information corresponding to the power energy data acquisition terminal device includes:

for each electric power energy data acquisition terminal device bound by the plurality of internet of things gateway devices, performing device feature extraction processing on electric power energy consumption devices corresponding to the electric power energy data acquisition terminal devices to output consumption device feature information corresponding to the electric power energy consumption devices, wherein the consumption device feature information at least comprises device positions of the corresponding electric power energy consumption devices;

and for each electric power energy data acquisition terminal device, marking the consumption device characteristic information corresponding to the electric power energy consumption device corresponding to the electric power energy data acquisition terminal device to form the device characteristic information corresponding to the electric power energy data acquisition terminal device.

5. The intelligent power gateway control method according to any one of claims 1 to 4, wherein the step of updating the first binding device set corresponding to each of the internet of things gateway devices according to the device characteristic information corresponding to each of the power energy data acquisition terminal devices to output the second binding device set corresponding to each of the internet of things gateway devices includes:

For each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, performing device correlation determination processing on the two electric power energy data acquisition terminal devices according to device characteristic information corresponding to the two electric power energy data acquisition terminal devices so as to output device correlation between the two electric power energy data acquisition terminal devices;

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, determining whether the two electric power energy data acquisition terminal devices belong to the same first binding device set, and updating the device correlation between the two electric power energy data acquisition terminal devices according to the corresponding determination result so as to output the target device correlation between the two electric power energy data acquisition terminal devices;

and binding the electric power energy data acquisition terminal equipment with the plurality of internet of things gateway equipment according to the correlation degree of target equipment between every two electric power energy data acquisition terminal equipment so as to output a second binding equipment set corresponding to each internet of things gateway equipment.

6. The intelligent power gateway control method according to claim 5, wherein the step of performing a device correlation determination process on each two electric power energy data acquisition terminal devices bound to the plurality of internet of things gateway devices according to device characteristic information corresponding to the two electric power energy data acquisition terminal devices to output a device correlation between the two electric power energy data acquisition terminal devices includes:

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, performing similarity calculation processing on device characteristic information corresponding to the two electric power energy data acquisition terminal devices so as to output characteristic similarity between the two electric power energy data acquisition terminal devices;

and for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, performing device correlation determination processing on the two electric power energy data acquisition terminal devices according to the feature similarity between the two electric power energy data acquisition terminal devices so as to output the device correlation between the two electric power energy data acquisition terminal devices, wherein the device correlation has a correlation with at least one parameter, and the parameter at least comprises the feature similarity.

7. The intelligent power gateway control method according to claim 5, wherein the step of determining whether two pieces of power energy data acquisition terminal equipment belong to the same first binding equipment set for every two pieces of power energy data acquisition terminal equipment bound to the plurality of pieces of internet of things gateway equipment, and updating the equipment correlation between the two pieces of power energy data acquisition terminal equipment according to the corresponding determination result to output the target equipment correlation between the two pieces of power energy data acquisition terminal equipment includes:

for each two electric power energy data acquisition terminal devices bound by the plurality of gateway devices of the internet of things, determining whether the two electric power energy data acquisition terminal devices belong to the same first binding device set or not so as to output a corresponding determination result;

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, marking the device correlation degree between the two electric power energy data acquisition terminal devices as the target device correlation degree between the two electric power energy data acquisition terminal devices under the condition that the two electric power energy data acquisition terminal devices are not in the same first binding device set according to the corresponding determination results of the two electric power energy data acquisition terminal devices;

And for each two electric power energy data acquisition terminal devices bound by the plurality of gateway devices of the internet of things, under the condition that the two electric power energy data acquisition terminal devices belong to the same first binding device set as the corresponding determination results of the two electric power energy data acquisition terminal devices, increasing the device correlation between the two electric power energy data acquisition terminal devices so as to output the target device correlation between the two electric power energy data acquisition terminal devices.

8. An wisdom electric power gateway management and control system, its characterized in that is applied to energy management and control server, wisdom electric power gateway management and control system includes:

the binding equipment determining module is used for determining and processing the current binding power energy data acquisition terminal equipment of the gateway equipment of the Internet of things for each gateway equipment of the Internet of things in the plurality of gateway equipment of the Internet of things in communication connection and outputting a first binding equipment set corresponding to the gateway equipment of the Internet of things;

the device feature extraction module is used for carrying out feature extraction processing on the electric power energy data acquisition terminal device for each electric power energy data acquisition terminal device bound by the plurality of internet of things gateway devices so as to output device feature information corresponding to the electric power energy data acquisition terminal device;

And the binding relation updating module is used for updating the first binding equipment set corresponding to each Internet of things gateway equipment according to the equipment characteristic information corresponding to each electric power energy data acquisition terminal equipment so as to output the second binding equipment set corresponding to each Internet of things gateway equipment, and each electric power energy data acquisition terminal equipment performs data interaction operation with the energy management and control server according to the Internet of things gateway equipment corresponding to the second binding equipment set.

9. The intelligent power gateway management and control system of claim 8, wherein said device feature extraction module is specifically configured to:

for each of a plurality of internet of things gateway devices in communication connection, determining historical power energy monitoring data forwarded by the internet of things gateway device to output a historical monitoring data set corresponding to the internet of things gateway device;

for each of the plurality of internet of things gateway devices, analyzing and processing each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device to output power energy data acquisition terminal equipment corresponding to each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device;

And for each of the plurality of internet of things gateway devices, performing device deduplication screening processing according to the power energy data acquisition terminal device corresponding to each piece of historical power energy monitoring data included in the historical monitoring data set corresponding to the internet of things gateway device, so as to construct and output a first binding device set corresponding to the internet of things gateway device.

10. The intelligent power gateway management and control system of claim 8, wherein said binding update module is specifically configured to:

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, performing device correlation determination processing on the two electric power energy data acquisition terminal devices according to device characteristic information corresponding to the two electric power energy data acquisition terminal devices so as to output device correlation between the two electric power energy data acquisition terminal devices;

for each two electric power energy data acquisition terminal devices bound by the plurality of internet of things gateway devices, determining whether the two electric power energy data acquisition terminal devices belong to the same first binding device set, and updating the device correlation between the two electric power energy data acquisition terminal devices according to the corresponding determination result so as to output the target device correlation between the two electric power energy data acquisition terminal devices;

And binding the electric power energy data acquisition terminal equipment with the plurality of internet of things gateway equipment according to the correlation degree of target equipment between every two electric power energy data acquisition terminal equipment so as to output a second binding equipment set corresponding to each internet of things gateway equipment.