CN110867971A - Intelligent power dispatching system - Google Patents

Abstract

The invention discloses an intelligent power dispatching system, which comprises: the region division module is used for acquiring a power supply region in charge of a power supply bus of a power grid; the population number acquisition module is used for acquiring the total number of populations which can be accommodated in the power supply area according to the types of all buildings in the power supply area and the number of the buildings in each type; the express delivery pickup acquisition module is used for counting pickup rates of all express delivery storage cabinets in the power supply area within a set pickup time period to obtain an express delivery pickup rate of the power supply area; the residence population counting module is used for obtaining the actual population number of the power supply area in a set counting time period; and the power dispatching module is used for adjusting an automatic control system for power dispatching. According to the invention, the residence information of the population in the time period is obtained by monitoring the pickup of the express storage cabinet, and the reasonable configuration of the power resources is ensured by adjusting the power through the automatic control system of power dispatching according to the residence information.

Description

Intelligent power dispatching system

Technical Field

The invention relates to the technical field of power dispatching, in particular to an intelligent power dispatching system.

Background

The power dispatching is an effective management means which is adopted for ensuring safe and stable operation of a power grid, reliable external power supply and orderly operation of various power production works. The specific work content of power dispatching is that according to data information fed back by various information acquisition devices or information provided by monitoring personnel, the actual operation parameters of the power grid, such as voltage, current, frequency, load and the like, are combined, the development conditions of various production works are comprehensively considered, the safe and economic operation states of the power grid are judged, operation instructions are issued through a telephone or an automatic system, and field operators or automatic control systems are instructed to adjust, such as adjusting the output of a generator, adjusting load distribution, switching capacitors, reactors and the like, so that the continuous safe and stable operation of the power grid is ensured.

At present, in a power grid, the power grid of a power utilization area is configured according to the number of power utilization people of the area, so that the power grid of each area is stably and efficiently utilized. However, the population who uses electricity in each area is not well judged because of daily mobility of people, and therefore, it is difficult to supply electricity in accordance with the actual population number in supplying electricity.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provide an intelligent power dispatching system, which can obtain the residence information of people in a time period by monitoring the pickup of an express storage cabinet, and adjust the power through an automatic control system of power dispatching according to the residence information, so that the power dispatching can ensure that people in various regions can normally use the power, and the reasonable configuration of power resources is ensured.

Therefore, the invention provides an intelligent power dispatching system, which comprises:

and the region division module is used for acquiring a power supply region which is responsible for each power supply bus of the power grid.

And the population number acquisition module is used for acquiring the total number of the population which can be accommodated in each power supply area according to the categories of all buildings in each power supply area and the number of the buildings in each category.

The express delivery pickup acquisition module is used for counting pickup rates of all express delivery storage cabinets in the power supply area in a set pickup time period to obtain the express delivery pickup rate of each power supply area.

And the resident population counting module is used for multiplying the actual population number of each power supply area by the express delivery pick-up rate of each power supply area obtained by the express delivery number obtaining module according to the total population number which can be contained in each power supply area in the population number obtaining module in a set counting time period, and obtaining the population proportion of each power supply area according to the actual population number of each power supply area.

And the power scheduling module is used for converting the population proportion of each power supply area obtained by the resident population statistics module into an instruction which can be identified by the automatic control system of the power scheduling and adjusting the automatic control system of the power scheduling.

Further, the population quantity obtaining module comprises:

and the map area dividing module is used for dividing the electronic map according to each power supply area obtained by the area dividing module to obtain each power supply area on the electronic map.

And the building acquisition module acquires the types of the buildings in each power supply area and the number of the buildings of each type in a database of the electronic map through the web crawler module.

And the population number acquisition module acquires the population number which can be accommodated by different types of buildings on the Internet through the web crawler module.

And the population total counting module is used for calculating and obtaining the population total which can be accommodated in the power supply area according to the types and the number of the buildings of each type in the power supply area obtained by the building obtaining module and the population number which can be accommodated by the buildings of different types obtained by the population number obtaining module.

Further, an acquisition module is got in express delivery, includes:

express delivery placement monitoring module for detect the express delivery person and put into the express delivery storing compartment with the express delivery, and acquire the put-in time of each express delivery.

And the express delivery pickup monitoring module is used for detecting that the user takes out the express delivery storage cabinet and acquiring the pickup time of each express delivery.

And the storage time calculation module is used for obtaining the storage time of the express according to the putting time and the taking time of each express.

And the pickup rate calculation module is used for acquiring the number of the express items with the storage time shorter than the set pickup time period and the number of the express items put in by the courier, and acquiring the pickup rate of the express items in the power supply area according to the quotient of the number of the express items and the number of the express items.

Furthermore, each power supply area internally comprises a plurality of express storage cabinets, the express delivery pickup monitoring module and the express delivery pickup monitoring module respectively detect each express storage cabinet, and the storage time calculation module processes the putting time and the taking time of each express delivery of all the express storage cabinets.

Further, the power scheduling module includes:

and the proportion acquisition module is used for acquiring the population proportion of each power supply area obtained by the resident demographic module.

And the proportion conversion module is used for taking the population proportion of each power supply area as the power proportion of the automatic control system for power scheduling, and converting the population proportion into an instruction which can be identified by the automatic control system for power scheduling according to the system configuration of the automatic control system for power scheduling.

And the system adjusting module is used for controlling the automatic control system for power dispatching to execute the instruction according to the instruction which can be identified by the automatic control system for power dispatching and is obtained by the proportion conversion module.

The intelligent power dispatching system provided by the invention has the following beneficial effects:

1. the residence information of the population in the time period is obtained by monitoring the pickup of the express delivery storage cabinet, and the electric power is adjusted by an automatic control system of electric power dispatching according to the residence information, so that people in various regions can normally use the electric power by the electric power dispatching, and the reasonable configuration of electric power resources is ensured;

2. the total number of the population occupied by each power supply area is estimated through the pickup rate of each power supply area, so that the mobility of personnel in each power supply area in time can be obtained, and the power resources are reasonably configured according to the mobility of the personnel;

3. taking each power supply area as a statistical unit of the pickup rate, and obtaining the total pickup rate of the power supply area by counting all the placing numbers of the power supply area and the pickup numbers in the set pickup time;

4. according to the population proportion of each power supply area, the population proportion of each power supply area is converted to obtain an instruction which can be identified by an automatic control system of power dispatching, so that the instruction which can be identified by the automatic control system of power dispatching can be directly controlled to carry out reasonable power distribution, and manual operation is avoided;

5. the dynamic power distribution makes the power supply configured differently in different time periods, so that reasonable power resource configuration can be performed in each time period, and the power resource is fully utilized from the overall perspective.

Drawings

Fig. 1 is a schematic block diagram of the overall system connection of an intelligent power dispatching system provided by the present invention;

fig. 2 is a schematic block diagram of system connection of a population number obtaining module of an intelligent power dispatching system according to the present invention;

fig. 3 is a schematic block diagram of system connection of an express pickup obtaining module of the intelligent power dispatching system provided by the invention;

fig. 4 is a schematic block diagram of system connection of a power scheduling module of the intelligent power scheduling system provided by the present invention.

Detailed Description

Several embodiments of the present invention will be described in detail below with reference to the drawings, but it should be understood that the scope of the present invention is not limited to the embodiments.

In the present application, the type and structure of components that are not specified are all the prior art known to those skilled in the art, and those skilled in the art can set the components according to the needs of the actual situation, and the embodiments of the present application are not specifically limited.

Example 1

The embodiment provides an intelligent power dispatching system, which is realized through basic necessary technical features so as to solve the problems provided by the technical background part in the application document.

Specifically, as shown in fig. 1, an embodiment of the present invention provides an intelligent power scheduling system, including: the system comprises a region division module, a population quantity acquisition module, an express delivery pickup acquisition module, a resident demographic module and an electric power scheduling module.

And the region division module is used for acquiring a power supply region which is responsible for each power supply bus of the power grid.

In current power supply systems, power from a power plant is drawn off via a power supply bus, and in the case of drawing off power via a power supply bus to individual power supply areas, each power supply bus is currently responsible for one power supply area.

And the population number acquisition module is used for acquiring the total number of the population which can be accommodated in each power supply area according to the categories of all buildings in each power supply area and the number of the buildings in each category.

The category of the building in each power supply area and the number of the buildings in each category are extracted from the database of the existing electronic map through a web crawler technology, and the total number of the population which can be accommodated in each power supply area can be obtained according to the total number of the population which can be accommodated by the building in each category, namely the total number of the population which can be generally accommodated by the building in each category. Data obtained by in-field measurement may also be used for acquiring the category of buildings for each power supply area and the number of buildings of each category.

The express delivery pickup acquisition module is used for counting pickup rates of all express delivery storage cabinets in the power supply area in a set pickup time period to obtain the express delivery pickup rate of each power supply area.

The information of each express storage cabinet is obtained, namely the parcel placing information and the parcel taking information of each express storage cabinet are monitored. The pickup time period is the longest time for storing the express delivery, and is generally set to be one hour for the set pickup time period. The express delivery pickup rate is the express delivery pickup rate in the pickup time period, and the express delivery storage time is obtained by monitoring the pickup time and the pickup time.

And the resident population counting module is used for multiplying the actual population number of each power supply area by the express delivery pick-up rate of each power supply area obtained by the express delivery number obtaining module according to the total population number which can be contained in each power supply area in the population number obtaining module in a set counting time period, and obtaining the population proportion of each power supply area according to the actual population number of each power supply area.

According to the express delivery pick-up rate and the total number of the population which can be accommodated in the power supply area, the current actual living population number of each power supply area, namely the actual population number of each power supply area is estimated.

And the power scheduling module is used for converting the population proportion of each power supply area obtained by the resident population statistics module into an instruction which can be identified by the automatic control system of the power scheduling and adjusting the automatic control system of the power scheduling.

And configuring the automatic control system for power scheduling according to the obtained actual population number of each power supply area, so that the automatic control system for power scheduling can reasonably configure power, and the power resource of each power supply area can be reasonably utilized.

Example 2

The present embodiment is based on example 1 and optimizes the implementation scheme in example 1, so that the present embodiment is more stable and better in performance during the operation process, but the present embodiment is not limited to the implementation manner described in the present embodiment.

Specifically, as shown in fig. 2, the population number obtaining module includes: the map area dividing module, the building obtaining module, the population number obtaining module and the population total number counting module.

And the map area dividing module is used for dividing the electronic map according to each power supply area obtained by the area dividing module to obtain each power supply area on the electronic map.

And dividing each power supply area on the electronic map to obtain each power supply area on the electronic map.

And the building acquisition module acquires the types of the buildings in each power supply area and the number of the buildings of each type in a database of the electronic map through the web crawler module.

And the population number acquisition module acquires the population number which can be accommodated by different types of buildings on the Internet through the web crawler module.

In this embodiment, the web crawler module is used in two places to respectively obtain the types of buildings in each power supply area, the number of the buildings in each type, and the number of the population that can be accommodated by the buildings of different types, so that the total number of the population that can be accommodated in each power supply area can be obtained by calculation in the next module.

And the population total counting module is used for calculating and obtaining the population total which can be accommodated in the power supply area according to the types and the number of the buildings of each type in the power supply area obtained by the building obtaining module and the population number which can be accommodated by the buildings of different types obtained by the population number obtaining module.

And calculating to obtain the total number of the population which can be accommodated in each power supply area. The specific calculation method is to calculate the number of the buildings of each type and the number of the population that can be accommodated by the buildings of the type, and accumulate the data of each type to obtain the total number of the population that can be accommodated in the power supply area.

In this embodiment, as shown in fig. 3, the express delivery pickup obtaining module includes: the express delivery system comprises an express delivery monitoring module, an express delivery pickup monitoring module, a storage time calculating module and a pickup rate calculating module.

Express delivery placement monitoring module for detect the express delivery person and put into the express delivery storing compartment with the express delivery, and acquire the put-in time of each express delivery.

Firstly, the information of the express is obtained, and secondly, the putting time of the express is obtained.

And the express delivery pickup monitoring module is used for detecting that the user takes out the express delivery storage cabinet and acquiring the pickup time of each express delivery.

Firstly, the information of the express is obtained, and secondly, the taking-out time of the express is obtained.

And the storage time calculation module is used for obtaining the storage time of the express according to the putting time and the taking time of each express.

And calculating the storage time of the express according to the putting time and the taking time of the information of the same express, wherein the storage time is the time interval between the putting time and the taking time of each express.

And the pickup rate calculation module is used for acquiring the number of the express items with the storage time shorter than the set pickup time period and the number of the express items put in by the courier, and acquiring the pickup rate of the express items in the power supply area according to the quotient of the number of the express items and the number of the express items.

Firstly, comparing the storage time with the set pickup time, counting the number of the express items of which the storage time is less than the set pickup time period, simultaneously acquiring the number of the express items put in by the courier, and dividing the number of the express items of which the storage time is less than the set pickup time period by the number of the express items put in by the courier, namely the express item pickup rate of the power supply area.

More specifically, each power supply area includes a plurality of express delivery storing cabinets, the express delivery is got a monitoring module and is detected each express delivery storing cabinet respectively, the put-in time and the time of taking out of each express delivery of all express delivery storing cabinets are handled to the deposit time calculation module.

All express delivery storing cabinets in a power supply area use same platform to make statistics of, for each express delivery storing cabinet gather data after making statistics of respectively like this, can make data more accurate.

In this embodiment, as shown in fig. 4, the power scheduling module includes: the device comprises a proportion acquisition module, a proportion conversion module and a system adjustment module.

And the proportion acquisition module is used for acquiring the population proportion of each power supply area obtained by the resident demographic module.

And the proportion conversion module is used for taking the population proportion of each power supply area as the power proportion of the automatic control system for power scheduling, and converting the population proportion into an instruction which can be identified by the automatic control system for power scheduling according to the system configuration of the automatic control system for power scheduling. For the system configuration of the automatic control system for power scheduling, those skilled in the art may perform actual operations with reference to the system specification of the automatic control system for power scheduling.

The ratio is converted according to the specification of the system configuration of the automatic control system of the power dispatching, so that the instruction which can be recognized by the automatic control system of the power dispatching can be obtained.

And the system adjusting module is used for controlling the automatic control system for power dispatching to execute the instruction according to the instruction which can be identified by the automatic control system for power dispatching and is obtained by the proportion conversion module.

And inputting the obtained command which can be identified by the automatic control system of the power dispatching into the automatic control system of the power dispatching, so that the automatic control system of the power dispatching automatically executes the command.

In summary, the present invention discloses an intelligent power dispatching system, which includes: and the region division module is used for acquiring a power supply region which is responsible for each power supply bus of the power grid. The population number acquisition module is used for acquiring the total number of the population which can be accommodated in each power supply area according to the categories of all buildings in each power supply area and the number of the buildings in each category; the express delivery pickup acquisition module is used for counting pickup rates of all express delivery storage cabinets in the power supply area within a set pickup time period to obtain an express delivery pickup rate of each power supply area; the residence population counting module is used for multiplying the total number of the population which can be accommodated in each power supply area in the population number acquisition module and the express delivery pick-up rate of each power supply area obtained by the express delivery number acquisition module to obtain the actual population number of each power supply area in a set counting time period; the population proportion of each power supply area is obtained according to the actual population number of each power supply area; and the power scheduling module is used for converting the population proportion of each power supply area obtained by the resident population statistics module into an instruction which can be identified by the automatic control system of the power scheduling and adjusting the automatic control system of the power scheduling. According to the invention, the residence information of the population in the time period is obtained by monitoring the pickup of the express storage cabinet, and the electric power is adjusted by the automatic control system of the electric power dispatching according to the residence information, so that the electric power dispatching can ensure that people in various regions can normally use the electric power, and the reasonable configuration of electric power resources is ensured.

The above disclosure is only for a few specific embodiments of the present invention, however, the present invention is not limited to the above embodiments, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present invention.

Claims (5)

1. An intelligent power dispatching system, comprising:

the region division module is used for acquiring a power supply region responsible for each power supply bus of the power grid;

the population number acquisition module is used for acquiring the total number of the population which can be accommodated in each power supply area according to the categories of all buildings in each power supply area and the number of the buildings in each category;

the express delivery pickup acquisition module is used for counting pickup rates of all express delivery storage cabinets in the power supply area within a set pickup time period to obtain an express delivery pickup rate of each power supply area;

the residence population counting module is used for multiplying the total number of the population which can be accommodated in each power supply area in the population number acquisition module and the express delivery pick-up rate of each power supply area obtained by the express delivery number acquisition module to obtain the actual population number of each power supply area in a set counting time period; the population proportion of each power supply area is obtained according to the actual population number of each power supply area;

and the power scheduling module is used for converting the population proportion of each power supply area obtained by the resident population statistics module into an instruction which can be identified by the automatic control system of the power scheduling and adjusting the automatic control system of the power scheduling.

2. The intelligent power scheduling system of claim 1 wherein the population quantity acquisition module comprises:

the map area dividing module is used for dividing the electronic map according to each power supply area obtained by the area dividing module to obtain each power supply area on the electronic map;

the building acquisition module is used for acquiring the types of buildings in each power supply area and the number of the buildings of each type in a database of the electronic map through the web crawler module;

the system comprises a population number acquisition module, a population number acquisition module and a population number acquisition module, wherein the population number acquisition module is used for acquiring the population number which can be contained in different types of buildings on the Internet through a web crawler module;

and the population total counting module is used for calculating and obtaining the population total which can be accommodated in the power supply area according to the types and the number of the buildings of each type in the power supply area obtained by the building obtaining module and the population number which can be accommodated by the buildings of different types obtained by the population number obtaining module.

3. The intelligent power dispatching system of claim 1, wherein the express pickup acquisition module comprises:

the express delivery monitoring module is used for detecting that a courier puts the express into an express storage cabinet and acquiring the putting time of each express;

the express delivery taking monitoring module is used for detecting that a user takes out express deliveries from the express delivery storage cabinet and acquiring the taking-out time of each express delivery;

the storage time calculation module is used for obtaining the storage time of the express according to the putting-in time and the taking-out time of each express;

and the pickup rate calculation module is used for acquiring the number of the express items with the storage time shorter than the set pickup time period and the number of the express items put in by the courier, and acquiring the pickup rate of the express items in the power supply area according to the quotient of the number of the express items and the number of the express items.

4. The intelligent power dispatching system of claim 3, wherein each power supply area comprises a plurality of express delivery storage cabinets, the express delivery pick-up monitoring module and the express delivery pick-up monitoring module respectively detect each express delivery storage cabinet, and the storage time calculation module processes the putting-in time and the taking-out time of each express delivery of all the express delivery storage cabinets.

5. The intelligent power dispatching system of claim 1, wherein the power dispatching module comprises:

the proportion acquisition module is used for acquiring the population proportion of each power supply area obtained by the resident population statistics module;

the proportion conversion module is used for taking the population proportion of each power supply area as the power proportion of the automatic control system for power scheduling and converting the population proportion of each power supply area into an instruction which can be identified by the automatic control system for power scheduling according to the system configuration of the automatic control system for power scheduling;

and the system adjusting module is used for controlling the automatic control system for power dispatching to execute the instruction according to the instruction which can be identified by the automatic control system for power dispatching and is obtained by the proportion conversion module.

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