CN115550756A - Acquisition equipment management and control method and system for power terminal - Google Patents

Abstract

The invention provides a method and a system for managing and controlling acquisition equipment of an electric power terminal, and relates to the technical field of electric power energy. In the invention, for each electric power data acquisition device in a plurality of electric power data acquisition devices to be bound, the characteristic determination processing is carried out on the electric power data acquisition device so as to output the device characteristic information corresponding to the electric power data acquisition device. And forming an initial binding relationship between the plurality of electric power data acquisition devices and the plurality of gateway devices according to the device characteristic information corresponding to each electric power data acquisition device. And updating the initial binding relationship to form a target binding relationship, wherein each electric power data acquisition device is bound with at least two gateway devices in the target binding relationship to form a main gateway device and a standby gateway device in the at least two gateway devices. Based on the method, the problem that the management and control reliability of the acquisition equipment is not high in the prior art can be improved.

Description

Acquisition equipment management and control method and system for power terminal

Technical Field

The invention relates to the technical field of electric power energy, in particular to a method and a system for managing and controlling acquisition equipment of an electric power terminal.

Background

In the field of electric power energy technology, it is necessary to collect operation data of an electric power terminal, where the operation data includes, but is not limited to, power consumption data and the like. In addition, the number of the general power terminals is large, so that the number of the corresponding power data acquisition devices is also large, and therefore, gateway devices are generally arranged to forward the data acquired by the power data acquisition devices to a background server for processing. However, in the prior art, for the binding relationship between the power data acquisition device and the gateway device, generally, a plurality of power data acquisition devices are bound with the same gateway device, so that the reliability of the binding relationship may be poor, that is, the control reliability of the device is not high.

Disclosure of Invention

In view of this, the present invention provides a method and a system for managing and controlling a collection device of an electric power terminal, so as to solve the problem in the prior art that the reliability of managing and controlling the collection device is not high.

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

a collecting device control method of an electric power terminal is applied to an electric power control server, the electric power control server is in communication connection with a plurality of gateway devices, and the method comprises the following steps:

for each electric power data acquisition device in a plurality of electric power data acquisition devices to be bound, performing characteristic determination processing on the electric power data acquisition device to output device characteristic information corresponding to the electric power data acquisition device, wherein the electric power data acquisition device is used for acquiring operation data of at least one electric power terminal and sending the operation data to the electric power management and control server through the bound gateway device;

according to the device characteristic information corresponding to each electric power data acquisition device, forming an initial binding relationship between the plurality of electric power data acquisition devices and the plurality of gateway devices, wherein each electric power data acquisition device is bound with one gateway device in the initial binding relationship;

and updating the initial binding relationship to form a target binding relationship, wherein each electric power data acquisition device is bound with at least two gateway devices in the target binding relationship to form a main gateway device and a standby gateway device in the at least two gateway devices.

In some preferred embodiments, in the collecting device management and control method of the power terminal, for each of the plurality of power data collecting devices to be bound, the step of performing feature determination processing on the power data collecting device to output device feature information corresponding to the power data collecting device includes:

for each electric power data acquisition device in a plurality of electric power data acquisition devices to be bound, carrying out quantity statistics operation on electric power terminals corresponding to the electric power data acquisition devices so as to output the terminal statistics quantity corresponding to the electric power data acquisition devices;

and for each electric power data acquisition device in the plurality of electric power data acquisition devices, determining the characteristics of the electric power data acquisition device according to the terminal statistic number corresponding to the electric power data acquisition device so as to form device characteristic information corresponding to the electric power data acquisition device.

In some preferred embodiments, in the method for managing and controlling collection devices of an electric power terminal, for each electric power data collection device of the plurality of electric power data collection devices, the step of performing feature determination on the electric power data collection device according to the terminal statistical number corresponding to the electric power data collection device to form device feature information corresponding to the electric power data collection device includes:

for each electric power data acquisition device in the plurality of electric power data acquisition devices, performing device position determination processing on the electric power data acquisition device to output device position information corresponding to the electric power data acquisition device;

and for each electric power data acquisition device in the plurality of electric power data acquisition devices, determining the device position information corresponding to the electric power data acquisition device and the terminal statistical number corresponding to the electric power data acquisition device as the device characteristic information corresponding to the electric power data acquisition device.

In some preferred embodiments, in the collecting device management and control method for an electric power terminal, the step of forming an initial binding relationship between the plurality of electric power data collecting devices and the plurality of gateway devices according to device feature information corresponding to each electric power data collecting device includes:

for every two pieces of electric power data acquisition equipment in the plurality of electric power data acquisition equipment, carrying out correlation determination on the two pieces of electric power data acquisition equipment according to the equipment characteristic information corresponding to the two pieces of electric power data acquisition equipment so as to output a classification correlation coefficient between the two pieces of electric power data acquisition equipment;

according to the classification correlation coefficient between every two pieces of electric power data acquisition equipment in the plurality of electric power data acquisition equipment, carrying out equipment classification processing on the plurality of electric power data acquisition equipment to form a plurality of acquisition equipment classification sets corresponding to the plurality of electric power data acquisition equipment;

for each of the multiple collection device classification sets, selecting one gateway device from the multiple gateway devices to mark as a target gateway device corresponding to the collection device classification set, and initially binding each power data collection device included in the collection device classification set with the target gateway device to form an initial binding relationship between the multiple power data collection devices and the multiple gateway devices.

In some preferred embodiments, in the collecting device management and control method for an electric power terminal, for each collecting device classification set in the plurality of collecting device classification sets, selecting one gateway device from the plurality of gateway devices to mark as a target gateway device corresponding to the collecting device classification set, and initially binding each electric power data collecting device included in the collecting device classification set with the target gateway device to form an initial binding relationship between the plurality of electric power data collecting devices and the plurality of gateway devices, the method includes:

counting the collection number of the collection equipment classification sets to output a collection counting number corresponding to the collection equipment classification sets, and counting the equipment number of the gateway equipment to output an equipment counting number corresponding to the gateway equipment;

under the condition that the set statistic number is equal to the device statistic number, performing random one-to-one corresponding binding processing on the plurality of collection device classification sets and the plurality of gateway devices to determine target gateway devices corresponding to each collection device classification set, and for each collection device classification set in the plurality of collection device classification sets, initially binding each power data collection device included in the collection device classification set and the corresponding target gateway device to form an initial binding relationship between the plurality of power data collection devices and the plurality of gateway devices;

and under the condition that the set counting number is not equal to the device counting number, merging or splitting the plurality of collecting device classification sets to enable the number of the formed plurality of new collecting device classification sets to be equal to the device counting number, then performing random one-to-one corresponding binding processing on the plurality of new collecting device classification sets and the plurality of gateway devices to determine a target gateway device corresponding to each new collecting device classification set, and for each new collecting device classification set in the plurality of new collecting device classification sets, initially binding each power data collecting device included in the new collecting device classification set and the corresponding target gateway device to form an initial binding relationship between the plurality of power data collecting devices and the plurality of gateway devices.

In some preferred embodiments, in the above method for managing and controlling collection equipment of an electric power terminal, the step of updating the initial binding relationship to form a target binding relationship includes:

for each electric power data acquisition device in the plurality of electric power data acquisition devices, marking the gateway device currently bound by the electric power data acquisition device as a main gateway device corresponding to the electric power data acquisition device according to the initial binding relationship;

for each of the plurality of electric power data acquisition devices, at least one other gateway device is selected from other gateway devices except the main gateway device corresponding to the electric power data acquisition device and is marked as a standby gateway device corresponding to the electric power data acquisition device.

In some preferred embodiments, in the collecting device management and control method for an electric power terminal, for each electric power data collecting device in the plurality of electric power data collecting devices, the step of selecting at least one other gateway device, which is marked as a standby gateway device corresponding to the electric power data collecting device, from other gateway devices except the active gateway device corresponding to the electric power data collecting device includes:

for each electric power data acquisition device in the plurality of electric power data acquisition devices, selecting at least one other gateway device from other gateway devices except the main gateway device corresponding to the electric power data acquisition device, and marking the selected gateway device as a candidate gateway device corresponding to the electric power data acquisition device;

for each gateway device in the plurality of gateway devices, counting the number of the power data acquisition devices corresponding to the gateway device serving as a primary gateway device to output the number of first devices corresponding to the gateway device, and counting the number of the power data acquisition devices corresponding to the gateway device serving as a candidate gateway device to output the number of second devices corresponding to the gateway device;

for each gateway device in the plurality of gateway devices, performing weighted summation processing on the number of first devices corresponding to the gateway device and the number of second devices corresponding to the gateway device to output a weighted value of the number of devices corresponding to the gateway device, wherein a weighting coefficient corresponding to the number of second devices is greater than a weighting coefficient corresponding to the number of first devices;

performing dispersion calculation processing on the device quantity weighted value corresponding to each gateway device in the plurality of gateway devices to output device quantity dispersion, and then performing size comparison processing on the device quantity dispersion and a preset dispersion reference value;

and under the condition that the device quantity dispersion is greater than or equal to the dispersion reference value, revolving to execute the step of marking the selected gateway device as the candidate gateway device corresponding to the power data acquisition device for each power data acquisition device in the plurality of power data acquisition devices, selecting at least one other gateway device from other gateway devices except the main gateway device corresponding to the power data acquisition device, and under the condition that the device quantity dispersion is less than the dispersion reference value, marking the candidate gateway device currently corresponding to the power data acquisition device as the standby gateway device corresponding to the power data acquisition device for each power data acquisition device.

The embodiment of the present invention further provides a system for managing and controlling acquisition devices of an electric power terminal, which is applied to an electric power management and control server, wherein the electric power management and control server is communicatively connected with a plurality of gateway devices, and the system includes:

the characteristic determining module is used for performing characteristic determining processing on each electric power data acquisition device in a plurality of electric power data acquisition devices to be bound so as to output device characteristic information corresponding to the electric power data acquisition device, and the electric power data acquisition device is used for acquiring operation data of at least one electric power terminal and sending the operation data to the electric power management and control server through the bound gateway device;

the initial binding module is used for forming an initial binding relationship between the plurality of electric power data acquisition devices and the plurality of gateway devices according to the device characteristic information corresponding to each electric power data acquisition device, and each electric power data acquisition device is bound with one gateway device in the initial binding relationship;

and the target binding module is used for updating the initial binding relationship to form a target binding relationship, and in the target binding relationship, each electric power data acquisition device is bound with at least two gateway devices to form a main gateway device and a standby gateway device in the at least two gateway devices.

In some preferred embodiments, in the collecting device management and control system of the power terminal, the initial binding module is specifically configured to:

for every two pieces of electric power data acquisition equipment in the plurality of pieces of electric power data acquisition equipment, carrying out relevance determination on the two pieces of electric power data acquisition equipment according to the equipment characteristic information corresponding to the two pieces of electric power data acquisition equipment so as to output a classification correlation coefficient between the two pieces of electric power data acquisition equipment;

according to classification correlation coefficients between every two pieces of electric power data acquisition equipment in the plurality of electric power data acquisition equipment, carrying out equipment classification processing on the plurality of electric power data acquisition equipment to form a plurality of acquisition equipment classification sets corresponding to the plurality of electric power data acquisition equipment;

for each of the multiple collection device classification sets, selecting a gateway device from the multiple gateway devices to mark the gateway device as a target gateway device corresponding to the collection device classification set, and initially binding each of the power data collection devices included in the collection device classification set with the target gateway device to form an initial binding relationship between the multiple power data collection devices and the multiple gateway devices.

In some preferred embodiments, in the collecting device management and control system of the power terminal, the target binding module is specifically configured to:

for each electric power data acquisition device in the plurality of electric power data acquisition devices, marking the gateway device currently bound by the electric power data acquisition device as a main gateway device corresponding to the electric power data acquisition device according to the initial binding relationship;

for each of the plurality of electric power data acquisition devices, at least one other gateway device is selected from other gateway devices except the main gateway device corresponding to the electric power data acquisition device and is marked as a standby gateway device corresponding to the electric power data acquisition device.

According to the method and the system for managing and controlling the acquisition equipment of the power terminal, provided by the embodiment of the invention, for each power data acquisition equipment in a plurality of power data acquisition equipment to be bound, the characteristic determination processing is carried out on the power data acquisition equipment so as to output the equipment characteristic information corresponding to the power data acquisition equipment. And forming initial binding relations between the plurality of electric power data acquisition devices and the plurality of gateway devices according to the device characteristic information corresponding to each electric power data acquisition device. And updating the initial binding relationship to form a target binding relationship, wherein in the target binding relationship, each electric power data acquisition device is bound with at least two gateway devices to form a main gateway device and a standby gateway device in the at least two gateway devices. Therefore, the standby gateway equipment can be formed while the main gateway equipment is formed, so that when the main gateway equipment fails, data can be transmitted through the standby gateway equipment, and the problem of low control reliability of the acquisition equipment in the prior art is solved.

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

Drawings

Fig. 1 is a block diagram of an electric power management server according to an embodiment of the present invention.

Fig. 2 is a schematic flowchart illustrating steps included in a method for managing and controlling collection devices of an electric power terminal according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of modules included in the acquisition device management and control system of the power terminal according to the embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of 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 present 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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

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

Illustratively, in some embodiments, the memory and the processor are electrically connected, directly or indirectly, to enable transfer or interaction of data. For example, they may be electrically connected to each other via one or more communication buses or signal lines. The memory can have at least one software functional module (computer program) stored therein, which can be in the form of software or firmware. The processor may be configured to execute the executable computer program stored in the memory, so as to implement the acquisition device management and control method for the power terminal provided in the embodiment of the present invention.

Illustratively, in some embodiments, the Memory may be, but is not limited to, random Access Memory (RAM), read Only Memory (ROM), programmable Read-Only Memory (PROM), erasable Read-Only Memory (EPROM), electrically Erasable Read-Only Memory (EEPROM), and the like. The Processor may be a general-purpose Processor, including a Central Processing Unit (CPU), a Network Processor (NP), a System on Chip (SoC), and the like; but may also be a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other programmable logic device, discrete gate or transistor logic device, discrete hardware components.

For example, in some embodiments, the power management server may further be communicatively connected with a plurality of gateway devices.

With reference to fig. 2, an embodiment of the present invention further provides a method for managing and controlling acquisition devices of an electric power terminal, which is applicable to the electric power management and control server. The method steps defined by the flow related to the collecting device management and control method of the electric power terminal may be implemented by the electric power management and control server.

The specific process shown in FIG. 2 will be described in detail below.

Step S110, for each of the plurality of electric power data acquisition devices to be bound, performing feature determination processing on the electric power data acquisition device to output device feature information corresponding to the electric power data acquisition device.

In this embodiment of the present invention, the power management and control server may, for each of the plurality of power data acquisition devices to be bound, perform feature determination processing on the power data acquisition device to output device feature information corresponding to the power data acquisition device. The electric power data acquisition equipment is used for acquiring the operation data of at least one electric power terminal and sending the operation data to the electric power management and control server through the bound gateway equipment.

Step S120, according to the device characteristic information corresponding to each electric power data acquisition device, an initial binding relationship is formed between the plurality of electric power data acquisition devices and the plurality of gateway devices.

In this embodiment of the present invention, the power management and control server may form an initial binding relationship between the plurality of power data acquisition devices and the plurality of gateway devices according to device feature information corresponding to each power data acquisition device. In the initial binding relationship, each of the power data acquisition devices is bound with one of the gateway devices.

Step S130, performing an update process on the initial binding relationship to form a target binding relationship.

In this embodiment of the present invention, the power management and control server may perform update processing on the initial binding relationship to form a target binding relationship. In the target binding relationship, each of the power data acquisition devices is bound with at least two gateway devices to form a primary gateway device and a standby gateway device in the at least two gateway devices.

Based on the steps, the standby gateway equipment can be formed while the main gateway equipment is formed, so that when the main gateway equipment fails, data can be transmitted through the standby gateway equipment, and the problem of low control reliability of the acquisition equipment in the prior art is solved.

For example, in some embodiments, step S110 may include the following specific contents:

for each electric power data acquisition device in a plurality of electric power data acquisition devices to be bound, carrying out quantity statistics operation on electric power terminals corresponding to the electric power data acquisition devices so as to output the terminal statistics quantity corresponding to the electric power data acquisition devices;

and for each electric power data acquisition device in the plurality of electric power data acquisition devices, determining the characteristics of the electric power data acquisition device according to the terminal statistic number corresponding to the electric power data acquisition device so as to form device characteristic information corresponding to the electric power data acquisition device.

For example, in some embodiments, for each of the plurality of power data acquisition devices, the step of performing feature determination on the power data acquisition device according to the terminal statistical number corresponding to the power data acquisition device to form device feature information corresponding to the power data acquisition device may include the following specific contents:

for each electric power data acquisition device in the plurality of electric power data acquisition devices, performing device position determination processing on the electric power data acquisition device to output device position information corresponding to the electric power data acquisition device;

and for each electric power data acquisition device in the plurality of electric power data acquisition devices, determining the device position information corresponding to the electric power data acquisition device and the terminal statistical number corresponding to the electric power data acquisition device as the device characteristic information corresponding to the electric power data acquisition device.

For example, in some embodiments, step S120 may include the following details:

for each two pieces of electric power data acquisition equipment in the plurality of electric power data acquisition equipment, performing relevance determination on the two pieces of electric power data acquisition equipment according to equipment characteristic information corresponding to the two pieces of electric power data acquisition equipment (namely performing similarity calculation on the equipment characteristic information, such as a negative correlation value of a distance between positions, which can be used as a corresponding classification correlation coefficient) so as to output a classification correlation coefficient between the two pieces of electric power data acquisition equipment;

according to classification correlation coefficients between every two pieces of electric power data acquisition equipment in the plurality of electric power data acquisition equipment, carrying out equipment classification processing on the plurality of electric power data acquisition equipment to form a plurality of acquisition equipment classification sets corresponding to the plurality of electric power data acquisition equipment;

for each of the multiple collection device classification sets, selecting one gateway device from the multiple gateway devices to mark as a target gateway device corresponding to the collection device classification set, and initially binding each power data collection device included in the collection device classification set with the target gateway device to form an initial binding relationship between the multiple power data collection devices and the multiple gateway devices.

For example, in some embodiments, the step of performing device classification processing on the plurality of power data acquisition devices according to a classification correlation coefficient between every two power data acquisition devices in the plurality of power data acquisition devices to form a plurality of acquisition device classification sets corresponding to the plurality of power data acquisition devices may include the following specific contents:

carrying out random classification processing on the plurality of electric power data acquisition devices to form a plurality of acquisition device classification initial sets corresponding to the plurality of electric power data acquisition devices, wherein each acquisition device classification initial set comprises at least two electric power data acquisition devices;

for each of the plurality of collection equipment classification initial sets, performing mean value calculation operation on classification correlation coefficients between every two pieces of electric power data collection equipment included in the collection equipment classification initial set to output inter-class correlation coefficients corresponding to the collection equipment classification initial set, and then performing magnitude comparison processing on the inter-class correlation coefficients and preset correlation coefficient comparison values;

under the condition that the inter-class correlation coefficient corresponding to at least one of the plurality of initial collection device classification sets is smaller than or equal to the correlation coefficient comparison value, performing the random classification processing on the plurality of electric power data collection devices in a revolving manner to form a plurality of initial collection device classification sets corresponding to the plurality of electric power data collection devices, and under the condition that the inter-class correlation coefficient corresponding to each of the plurality of initial collection device classification sets is larger than the correlation coefficient comparison value, performing set correlation degree determination processing on every two initial collection device classification sets in the plurality of initial collection device classification sets to output set correlation degrees between the two initial collection device classification sets;

and under the condition that the set correlation degree between at least two collection device classification initial sets in the collection device classification initial sets is greater than or equal to a preset correlation degree comparison value, performing rotary execution on the plurality of electric power data collection devices to perform random classification processing so as to form a plurality of collection device classification initial sets corresponding to the plurality of electric power data collection devices, and under the condition that the set correlation degree between every two collection device classification initial sets in the collection device classification initial sets is less than the correlation degree comparison value, marking the plurality of collection device classification initial sets formed currently as the plurality of collection device classification sets corresponding to the plurality of electric power data collection devices (namely marking each collection device classification initial set as a collection device classification set).

For example, in some embodiments, the set correlation determination processing in the above steps may include the following details:

respectively defining the two collection equipment classification initial sets as a first collection equipment classification initial set and a second collection equipment classification initial set, and respectively carrying out serialization processing on the first collection equipment classification initial set and the second collection equipment classification initial set according to the average value (such as first large and second small) of classification correlation coefficients between the two collection equipment classification initial sets and other electric power data collection equipment so as to output a first serialization set corresponding to the first collection equipment classification initial set and a second serialization set corresponding to the second collection equipment classification initial set;

for each electric power data acquisition device in the first serialization set, determining a related electric power data acquisition device with the largest classification correlation coefficient between the related electric power data acquisition device and the electric power data acquisition device from the second serialization set, and then determining the set position of the related electric power data acquisition device in the second serialization set to form a set position corresponding to the electric power data acquisition device;

for every two pieces of electric power data acquisition equipment in the first serialization set, carrying out position deviation degree determination processing on set positions corresponding to the two pieces of electric power data acquisition equipment to output a first position deviation degree value between the two pieces of electric power data acquisition equipment, then carrying out position deviation degree determination processing on the positions of the two pieces of electric power data acquisition equipment in the first serialization set to output a second position deviation degree value between the two pieces of electric power data acquisition equipment, and carrying out difference value calculation processing on the first position deviation degree value and the second position deviation degree value to output deviation degree difference values corresponding to the two pieces of electric power data acquisition equipment;

performing fusion operation on deviation degree difference values between every two pieces of electric power data acquisition equipment in the first serialization set to output target deviation degree difference values between the first serialization set and the second serialization set, and determining a first set correlation coefficient with a negative correlation relationship according to the target deviation degree difference values;

and performing mean value calculation on the classification correlation coefficients between every two electric power data acquisition devices between the two acquisition device classification initial sets to output a second set correlation coefficient between the two acquisition device classification initial sets, and performing fusion processing (such as calculating weighted mean values) on the second set correlation coefficient and the first set correlation coefficient to output set correlation degrees between the two acquisition device classification initial sets.

For example, in some embodiments, the step of selecting, for each of the multiple collection device classification sets, one gateway device from the multiple gateway devices to mark as a target gateway device corresponding to the collection device classification set, and initially binding each power data collection device included in the collection device classification set with the target gateway device to form an initial binding relationship between the multiple power data collection devices and the multiple gateway devices may include the following specific contents:

counting the collection number of the collection equipment classification sets to output a collection counting number corresponding to the collection equipment classification sets, and counting the equipment number of the gateway equipment to output an equipment counting number corresponding to the gateway equipment;

under the condition that the set statistic number is equal to the device statistic number, performing random one-to-one corresponding binding processing on the plurality of collection device classification sets and the plurality of gateway devices to determine target gateway devices corresponding to each collection device classification set, and for each collection device classification set in the plurality of collection device classification sets, initially binding each power data collection device included in the collection device classification set and the corresponding target gateway device to form an initial binding relationship between the plurality of power data collection devices and the plurality of gateway devices;

and under the condition that the set counting number is not equal to the device counting number, merging or splitting the plurality of collecting device classification sets to enable the number of the formed plurality of new collecting device classification sets to be equal to the device counting number, then performing random one-to-one corresponding binding processing on the plurality of new collecting device classification sets and the plurality of gateway devices to determine a target gateway device corresponding to each new collecting device classification set, and for each new collecting device classification set in the plurality of new collecting device classification sets, initially binding each power data collecting device included in the new collecting device classification set and the corresponding target gateway device to form an initial binding relationship between the plurality of power data collecting devices and the plurality of gateway devices.

Illustratively, in some embodiments, step S130 may include the following details:

for each electric power data acquisition device in the plurality of electric power data acquisition devices, marking the gateway device currently bound by the electric power data acquisition device as a main gateway device corresponding to the electric power data acquisition device according to the initial binding relationship;

for each of the plurality of electric power data acquisition devices, at least one other gateway device is selected from other gateway devices except the main gateway device corresponding to the electric power data acquisition device and is marked as a standby gateway device corresponding to the electric power data acquisition device.

In some embodiments, for each of the plurality of power data acquisition devices, the step of selecting at least one other gateway device from other gateway devices except the active gateway device corresponding to the power data acquisition device and marking as the standby gateway device corresponding to the power data acquisition device may include the following specific contents:

for each electric power data acquisition device in the plurality of electric power data acquisition devices, selecting at least one other gateway device from other gateway devices except the main gateway device corresponding to the electric power data acquisition device, and marking the selected gateway device as a candidate gateway device corresponding to the electric power data acquisition device;

for each gateway device in the plurality of gateway devices, performing statistical processing on the number of the power data acquisition devices corresponding to the gateway device serving as a main gateway device to output a first device number corresponding to the gateway device, and performing statistical processing on the number of the power data acquisition devices corresponding to the gateway device serving as a candidate gateway device to output a second device number corresponding to the gateway device;

for each gateway device in the plurality of gateway devices, performing weighted summation processing on the number of first devices corresponding to the gateway device and the number of second devices corresponding to the gateway device to output a weighted value of the number of devices corresponding to the gateway device, where a weighting coefficient corresponding to the number of second devices is greater than a weighting coefficient corresponding to the number of first devices;

performing dispersion calculation processing on the device quantity weighted value corresponding to each gateway device in the plurality of gateway devices to output device quantity dispersion, and then performing size comparison processing on the device quantity dispersion and a preset dispersion reference value;

the method comprises the steps that when the device quantity dispersion is larger than or equal to the dispersion reference value, at least one other gateway device is selected from other gateway devices except the main gateway device corresponding to the power data acquisition device and marked as a candidate gateway device corresponding to the power data acquisition device, and when the device quantity dispersion is smaller than the dispersion reference value, the candidate gateway device corresponding to the power data acquisition device is marked as a standby gateway device corresponding to the power data acquisition device.

With reference to fig. 3, an embodiment of the present invention further provides a collecting device management and control system for an electric power terminal, which is applicable to the electric power management and control server. The collecting device management and control system of the power terminal may include the following software functional modules:

the device comprises a characteristic determining module, a power management and control server and a binding gateway device, wherein the characteristic determining module is used for performing characteristic determining processing on each electric power data acquisition device in a plurality of electric power data acquisition devices to be bound so as to output device characteristic information corresponding to the electric power data acquisition device;

the initial binding module is used for forming an initial binding relationship between the plurality of electric power data acquisition devices and the plurality of gateway devices according to the device characteristic information corresponding to each electric power data acquisition device, and each electric power data acquisition device is bound with one gateway device in the initial binding relationship;

and the target binding module is used for updating the initial binding relationship to form a target binding relationship, and in the target binding relationship, each electric power data acquisition device is bound with at least two gateway devices to form a main gateway device and a standby gateway device in the at least two gateway devices.

Illustratively, in some embodiments, the initial binding module is specifically configured to:

for every two pieces of electric power data acquisition equipment in the plurality of electric power data acquisition equipment, carrying out correlation determination on the two pieces of electric power data acquisition equipment according to the equipment characteristic information corresponding to the two pieces of electric power data acquisition equipment so as to output a classification correlation coefficient between the two pieces of electric power data acquisition equipment;

according to the classification correlation coefficient between every two pieces of electric power data acquisition equipment in the plurality of electric power data acquisition equipment, carrying out equipment classification processing on the plurality of electric power data acquisition equipment to form a plurality of acquisition equipment classification sets corresponding to the plurality of electric power data acquisition equipment;

for each of the multiple collection device classification sets, selecting one gateway device from the multiple gateway devices to mark as a target gateway device corresponding to the collection device classification set, and initially binding each power data collection device included in the collection device classification set with the target gateway device to form an initial binding relationship between the multiple power data collection devices and the multiple gateway devices.

Illustratively, in some embodiments, the target binding module is specifically configured to:

for each electric data acquisition device in the plurality of electric data acquisition devices, marking the gateway device currently bound by the electric data acquisition device as a main gateway device corresponding to the electric data acquisition device according to the initial binding relationship;

for each of the plurality of electric power data acquisition devices, at least one other gateway device is selected from other gateway devices except the main gateway device corresponding to the electric power data acquisition device and is marked as a standby gateway device corresponding to the electric power data acquisition device.

In summary, according to the acquisition device management and control method and system for the power terminal provided by the present invention, for each of the plurality of power data acquisition devices to be bound, the characteristic determination processing is performed on the power data acquisition device, so as to output device characteristic information corresponding to the power data acquisition device. And forming an initial binding relationship between the plurality of electric power data acquisition devices and the plurality of gateway devices according to the device characteristic information corresponding to each electric power data acquisition device. And updating the initial binding relationship to form a target binding relationship, wherein in the target binding relationship, each electric power data acquisition device is bound with at least two gateway devices to form a main gateway device and a standby gateway device in the at least two gateway devices. Therefore, when the main gateway equipment is formed, the standby gateway equipment is formed, so that when the main gateway equipment fails, data can be transmitted through the standby gateway equipment, and the problem of low control reliability of the acquisition equipment in the prior art is solved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement 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 method for managing and controlling the acquisition equipment of the power terminal is applied to a power management and control server, wherein the power management and control server is in communication connection with a plurality of gateway devices, and comprises the following steps:

for each electric power data acquisition device in a plurality of electric power data acquisition devices to be bound, performing characteristic determination processing on the electric power data acquisition device to output device characteristic information corresponding to the electric power data acquisition device, wherein the electric power data acquisition device is used for acquiring operation data of at least one electric power terminal and sending the operation data to the electric power management and control server through the bound gateway device;

according to the device characteristic information corresponding to each electric power data acquisition device, forming an initial binding relationship between the plurality of electric power data acquisition devices and the plurality of gateway devices, wherein each electric power data acquisition device is bound with one gateway device in the initial binding relationship;

and updating the initial binding relationship to form a target binding relationship, wherein in the target binding relationship, each electric power data acquisition device is bound with at least two gateway devices to form a main gateway device and a standby gateway device in the at least two gateway devices.

2. The method for managing and controlling the collection devices of the power terminal according to claim 1, wherein for each of the plurality of power data collection devices to be bound, the step of performing feature determination processing on the power data collection device to output device feature information corresponding to the power data collection device includes:

for each electric power data acquisition device in a plurality of electric power data acquisition devices to be bound, carrying out quantity statistics operation on electric power terminals corresponding to the electric power data acquisition devices so as to output the terminal statistic quantity corresponding to the electric power data acquisition devices;

and for each electric power data acquisition device in the plurality of electric power data acquisition devices, determining the characteristics of the electric power data acquisition device according to the terminal statistic number corresponding to the electric power data acquisition device so as to form device characteristic information corresponding to the electric power data acquisition device.

3. The method for managing and controlling the collection devices of the power terminal according to claim 2, wherein for each of the plurality of power data collection devices, the step of performing feature determination on the power data collection device according to the terminal statistical number corresponding to the power data collection device to form device feature information corresponding to the power data collection device includes:

for each electric power data acquisition device in the plurality of electric power data acquisition devices, performing device position determination processing on the electric power data acquisition device to output device position information corresponding to the electric power data acquisition device;

for each electric power data acquisition device in the plurality of electric power data acquisition devices, counting the device position information corresponding to the electric power data acquisition device and the terminal number corresponding to the electric power data acquisition device, and determining the device position information and the terminal number as the device characteristic information corresponding to the electric power data acquisition device.

4. The method for managing and controlling the collection devices of the power terminal according to claim 1, wherein the step of forming an initial binding relationship between the plurality of power data collection devices and the plurality of gateway devices according to the device feature information corresponding to each power data collection device includes:

for every two pieces of electric power data acquisition equipment in the plurality of electric power data acquisition equipment, carrying out correlation determination on the two pieces of electric power data acquisition equipment according to the equipment characteristic information corresponding to the two pieces of electric power data acquisition equipment so as to output a classification correlation coefficient between the two pieces of electric power data acquisition equipment;

according to classification correlation coefficients between every two pieces of electric power data acquisition equipment in the plurality of electric power data acquisition equipment, carrying out equipment classification processing on the plurality of electric power data acquisition equipment to form a plurality of acquisition equipment classification sets corresponding to the plurality of electric power data acquisition equipment;

for each of the multiple collection device classification sets, selecting one gateway device from the multiple gateway devices to mark as a target gateway device corresponding to the collection device classification set, and initially binding each power data collection device included in the collection device classification set with the target gateway device to form an initial binding relationship between the multiple power data collection devices and the multiple gateway devices.

5. The method as claimed in claim 4, wherein for each of the multiple collection device classification sets, selecting one gateway device from the multiple gateway devices to mark as a target gateway device corresponding to the collection device classification set, and initially binding each power data collection device included in the collection device classification set with the target gateway device to form an initial binding relationship between the multiple power data collection devices and the multiple gateway devices, the method includes:

counting the collection number of the collection equipment classification sets to output a collection counting number corresponding to the collection equipment classification sets, and counting the equipment number of the gateway equipment to output an equipment counting number corresponding to the gateway equipment;

under the condition that the set statistic number is equal to the device statistic number, performing random one-to-one corresponding binding processing on the plurality of collection device classification sets and the plurality of gateway devices to determine target gateway devices corresponding to each collection device classification set, and for each collection device classification set in the plurality of collection device classification sets, initially binding each power data collection device included in the collection device classification set and the corresponding target gateway device to form an initial binding relationship between the plurality of power data collection devices and the plurality of gateway devices;

and under the condition that the set counting number is not equal to the device counting number, merging or splitting the plurality of collecting device classification sets to enable the number of the formed plurality of new collecting device classification sets to be equal to the device counting number, then performing random one-to-one corresponding binding processing on the plurality of new collecting device classification sets and the plurality of gateway devices to determine a target gateway device corresponding to each new collecting device classification set, and for each new collecting device classification set in the plurality of new collecting device classification sets, initially binding each power data collecting device included in the new collecting device classification set and the corresponding target gateway device to form an initial binding relationship between the plurality of power data collecting devices and the plurality of gateway devices.

6. The method for managing and controlling the collection devices of the power terminals according to any one of claims 1 to 5, wherein the step of updating the initial binding relationship to form a target binding relationship includes:

for each electric power data acquisition device in the plurality of electric power data acquisition devices, marking the gateway device currently bound by the electric power data acquisition device as a main gateway device corresponding to the electric power data acquisition device according to the initial binding relationship;

for each of the plurality of electric power data acquisition devices, at least one other gateway device is selected from other gateway devices except the main gateway device corresponding to the electric power data acquisition device and is marked as a standby gateway device corresponding to the electric power data acquisition device.

7. The method for managing and controlling collection devices of an electric power terminal according to claim 6, wherein for each of the plurality of electric power data collection devices, at least one other gateway device is selected from other gateway devices except the active gateway device corresponding to the electric power data collection device, and the selected gateway device is marked as a standby gateway device corresponding to the electric power data collection device, and the method includes:

for each electric power data acquisition device in the plurality of electric power data acquisition devices, selecting at least one other gateway device from other gateway devices except the main gateway device corresponding to the electric power data acquisition device, and marking the selected gateway device as a candidate gateway device corresponding to the electric power data acquisition device;

for each gateway device in the plurality of gateway devices, performing statistical processing on the number of the power data acquisition devices corresponding to the gateway device serving as a main gateway device to output a first device number corresponding to the gateway device, and performing statistical processing on the number of the power data acquisition devices corresponding to the gateway device serving as a candidate gateway device to output a second device number corresponding to the gateway device;

for each gateway device in the plurality of gateway devices, performing weighted summation processing on the number of first devices corresponding to the gateway device and the number of second devices corresponding to the gateway device to output a weighted value of the number of devices corresponding to the gateway device, wherein a weighting coefficient corresponding to the number of second devices is greater than a weighting coefficient corresponding to the number of first devices;

performing dispersion calculation processing on the device quantity weighted value corresponding to each gateway device in the plurality of gateway devices to output device quantity dispersion, and then performing size comparison processing on the device quantity dispersion and a preset dispersion reference value;

and under the condition that the device quantity dispersion is greater than or equal to the dispersion reference value, revolving to execute the step of marking the selected gateway device as the candidate gateway device corresponding to the power data acquisition device for each power data acquisition device in the plurality of power data acquisition devices, selecting at least one other gateway device from other gateway devices except the main gateway device corresponding to the power data acquisition device, and under the condition that the device quantity dispersion is less than the dispersion reference value, marking the candidate gateway device currently corresponding to the power data acquisition device as the standby gateway device corresponding to the power data acquisition device for each power data acquisition device.

8. The utility model provides an acquisition equipment management and control system at electric power terminal which characterized in that is applied to electric power management and control server, electric power management and control server communication connection has a plurality of gateway equipment, the system includes:

the characteristic determining module is used for performing characteristic determining processing on each electric power data acquisition device in a plurality of electric power data acquisition devices to be bound so as to output device characteristic information corresponding to the electric power data acquisition device, and the electric power data acquisition device is used for acquiring operation data of at least one electric power terminal and sending the operation data to the electric power management and control server through the bound gateway device;

the initial binding module is used for forming an initial binding relationship between the plurality of electric power data acquisition devices and the plurality of gateway devices according to the device characteristic information corresponding to each electric power data acquisition device, and each electric power data acquisition device is bound with one gateway device in the initial binding relationship;

and the target binding module is used for updating the initial binding relationship to form a target binding relationship, and in the target binding relationship, each electric power data acquisition device is bound with at least two gateway devices to form a main gateway device and a standby gateway device in the at least two gateway devices.

9. The system for managing and controlling collection devices of an electric power terminal according to claim 8, wherein the initial binding module is specifically configured to:

for every two pieces of electric power data acquisition equipment in the plurality of pieces of electric power data acquisition equipment, carrying out relevance determination on the two pieces of electric power data acquisition equipment according to the equipment characteristic information corresponding to the two pieces of electric power data acquisition equipment so as to output a classification correlation coefficient between the two pieces of electric power data acquisition equipment;

according to the classification correlation coefficient between every two pieces of electric power data acquisition equipment in the plurality of electric power data acquisition equipment, carrying out equipment classification processing on the plurality of electric power data acquisition equipment to form a plurality of acquisition equipment classification sets corresponding to the plurality of electric power data acquisition equipment;

for each of the multiple collection device classification sets, selecting one gateway device from the multiple gateway devices to mark as a target gateway device corresponding to the collection device classification set, and initially binding each power data collection device included in the collection device classification set with the target gateway device to form an initial binding relationship between the multiple power data collection devices and the multiple gateway devices.

10. The collection device management and control system of an electric power terminal of claim 8, wherein the target binding module is specifically configured to:

for each electric power data acquisition device in the plurality of electric power data acquisition devices, marking the gateway device currently bound by the electric power data acquisition device as a main gateway device corresponding to the electric power data acquisition device according to the initial binding relationship;

for each electric power data acquisition device in the plurality of electric power data acquisition devices, at least one other gateway device is selected from other gateway devices except the main gateway device corresponding to the electric power data acquisition device and is marked as a standby gateway device corresponding to the electric power data acquisition device.

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